[ { "question": "How many Books in the Library of Congress put together contain the same information as 202 of smartphone?", "context": "CONTEXT:=F1: The data of Books in the Library of Congress is 6.000000E+17 bytes.=F2: The data of smartphone is 5.120000E+11 bytes.", "answer": "1.723733E-04", "program": "PROGRAM:=Q1: What is the data of Books in the Library of Congress?=Q2: What is the data of smartphone?=Q3: What is 202 times the data of smartphone?=A1: 6.000000E+17 bytes=A2: 5.120000E+11 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 202)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "smartphone", "data" ] ], [ ".", [ "Books in the Library of Congress", "data" ] ] ] ], [ "", [ "202" ] ] ] ] ] }, { "question": "How long to digest 376 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.293600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 376 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(376, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "376" ] ] ] ] ] }, { "question": "Assume Brisbane's area is half its value. How many Bill Gates' Home have the same area as Brisbane?", "context": "CONTEXT:=F1: The area of Brisbane is 1.584131E+10 m**2.=F2: The area of Bill Gates' Home is 4.474064E+03 m**2.", "answer": "1.770349E+06", "program": "PROGRAM:=Q1: What is the area of Brisbane?=Q2: What is the area of Bill Gates' Home?=Q3: What is half the area of Bill Gates' Home?=A1: 1.584131E+10 m**2=A2: 4.474064E+03 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Brisbane", "area" ] ], [ ".", [ "Bill Gates' Home", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Golden Gate Bridge have the same length as Great Wall of China (total)?", "context": "CONTEXT:=F1: The length of Great Wall of China (total) is 2.697480E+06 m.=F2: The length of Golden Gate Bridge is 6.918960E+01 m.", "answer": "3.898678E+04", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (total)?=Q2: What is the length of Golden Gate Bridge?=A1: 2.697480E+06 m=A2: 6.918960E+01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (total)", "length" ] ], [ ".", [ "Golden Gate Bridge", "length" ] ] ] ] ] }, { "question": "How long to digest 800 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.880000E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 800 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(800, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "800" ] ] ] ] ] }, { "question": "Assume Canada's area is half its value. How many Kansas fit on Canada?", "context": "CONTEXT:=F1: The area of Canada is 9.984335E+12 m**2.=F2: The area of Kansas is 2.130894E+11 m**2.", "answer": "2.342757E+01", "program": "PROGRAM:=Q1: What is the area of Canada?=Q2: What is the area of Kansas?=Q3: What is half the area of Kansas?=A1: 9.984335E+12 m**2=A2: 2.130894E+11 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Canada", "area" ] ], [ ".", [ "Kansas", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Lake Huron's area is half its value. How many Edinburgh have the same area as Lake Huron?", "context": "CONTEXT:=F1: The area of Lake Huron is 5.964180E+10 m**2.=F2: The area of Edinburgh is 2.638360E+08 m**2.", "answer": "1.130282E+02", "program": "PROGRAM:=Q1: What is the area of Lake Huron?=Q2: What is the area of Edinburgh?=Q3: What is half the area of Edinburgh?=A1: 5.964180E+10 m**2=A2: 2.638360E+08 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lake Huron", "area" ] ], [ ".", [ "Edinburgh", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Petronas Twin Towers have the same length as Diameter of Earth?", "context": "CONTEXT:=F1: The length of Diameter of Earth is 3.888112E+06 m.=F2: The length of Petronas Twin Towers is 7.531667E+07 times that of Cell's Nucleus.=F3: The length of Cell's Nucleus is 1.828800E-06 m.", "answer": "2.822809E+04", "program": "PROGRAM:=Q1: What is the length of Diameter of Earth?=Q2: What is the length of Petronas Twin Towers?=Q3: What is the length of Cell's Nucleus?=Q4: What is the ratio of the length of Petronas Twin Towers and that of Cell's Nucleus?=A1: 3.888112E+06 m=A2: 1.828800E-06 m=A3: 7.531667E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Diameter of Earth", "length" ] ], [ ".", [ "Petronas Twin Towers", "length" ] ] ] ] ] }, { "question": "Assume Mississippi River's length is half its value. How many suitcase have the same length as Mississippi River?", "context": "CONTEXT:=F1: The length of Mississippi River is 1.147877E+06 m.=F2: The length of suitcase is 1.828800E-01 m.", "answer": "3.138333E+06", "program": "PROGRAM:=Q1: What is the length of Mississippi River?=Q2: What is the length of suitcase?=Q3: What is half the length of Mississippi River?=A1: 1.147877E+06 m=A2: 1.828800E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mississippi River", "length" ] ], [ ".", [ "suitcase", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Volga's length is half its value. How many Belmont Stakes have the same length as Volga?", "context": "CONTEXT:=F1: The length of Volga is 1.075944E+06 m.=F2: The length of Belmont Stakes is 6.023743E-05 times that of Circumfrence of Earth.=F3: The length of Circumfrence of Earth is 1.221486E+07 m.", "answer": "7.311468E+02", "program": "PROGRAM:=Q1: What is the length of Volga?=Q2: What is the length of Belmont Stakes?=Q3: What is the length of Circumfrence of Earth?=Q4: What is half the length of Volga?=Q5: What is the ratio of the length of Belmont Stakes and that of Circumfrence of Earth?=A1: 1.075944E+06 m=A2: 1.221486E+07 m=A3: 6.023743E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Volga", "length" ] ], [ ".", [ "Belmont Stakes", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hubble Telescope put together contain the same information as 378 of YouTube's video database?", "context": "CONTEXT:=F1: The data of Hubble Telescope is 1.100000E+15 bytes.=F2: The data of YouTube's video database is 1.175000E+05 times that of DVD.=F3: The data of DVD is 4.000000E+10 bytes.", "answer": "1.615091E+03", "program": "PROGRAM:=Q1: What is the data of Hubble Telescope?=Q2: What is the data of YouTube's video database?=Q3: What is the data of DVD?=Q4: What is 378 times the data of YouTube's video database?=Q5: What is the ratio of the data of YouTube's video database and that of DVD?=A1: 1.100000E+15 bytes=A2: 4.000000E+10 bytes=A3: 1.175000E+05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 378)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "YouTube's video database", "data" ] ], [ ".", [ "Hubble Telescope", "data" ] ] ] ], [ "", [ "378" ] ] ] ] ] }, { "question": "How many Manila have the same area as Island of Ireland?", "context": "CONTEXT:=F1: The area of Island of Ireland is 8.441823E+10 m**2.=F2: The area of Manila is 6.195501E+08 m**2.", "answer": "1.362573E+02", "program": "PROGRAM:=Q1: What is the area of Island of Ireland?=Q2: What is the area of Manila?=A1: 8.441823E+10 m**2=A2: 6.195501E+08 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Island of Ireland", "area" ] ], [ ".", [ "Manila", "area" ] ] ] ] ] }, { "question": "How many Puck (Hockey) fit in Human Stomach?", "context": "CONTEXT:=F1: The volume of Human Stomach is 5.660000E+01 m**3.=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "1.726619E+01", "program": "PROGRAM:=Q1: What is the volume of Human Stomach?=Q2: What is the volume of Puck (Hockey)?=A1: 5.660000E+01 m**3=A2: 3.278083E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "Puck (Hockey)", "volume" ] ] ] ] ] }, { "question": "Assume Human Stomach's volume is half its value. How many Marshmallow fit in Human Stomach?", "context": "CONTEXT:=F1: The volume of Human Stomach is 5.660000E+01 m**3.=F2: The volume of Marshmallow is 8.490000E-01 m**3.", "answer": "3.333333E+01", "program": "PROGRAM:=Q1: What is the volume of Human Stomach?=Q2: What is the volume of Marshmallow?=Q3: What is half the volume of Human Stomach?=A1: 5.660000E+01 m**3=A2: 8.490000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "Marshmallow", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Island of Ireland's area is half its value. How many Person fit on Island of Ireland?", "context": "CONTEXT:=F1: The area of Island of Ireland is 8.441823E+10 m**2.=F2: The area of Person is 5.398008E-05 times that of Lincoln Memorial Reflecting Pool.=F3: The area of Lincoln Memorial Reflecting Pool is 3.149310E+04 m**2.", "answer": "2.482889E+10", "program": "PROGRAM:=Q1: What is the area of Island of Ireland?=Q2: What is the area of Person?=Q3: What is the area of Lincoln Memorial Reflecting Pool?=Q4: What is half the area of Island of Ireland?=Q5: What is the ratio of the area of Person and that of Lincoln Memorial Reflecting Pool?=A1: 8.441823E+10 m**2=A2: 3.149310E+04 m**2=A3: 5.398008E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Island of Ireland", "area" ] ], [ ".", [ "Person", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Car can 48 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is $4.000000E+04.", "answer": "1.564800E+08", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is 48 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.000000E+04=Q1 -> A1 | F1=Q3 -> Mul(Q1, 48)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "48" ] ] ] ] ] }, { "question": "How many Baseball have the same volume as Sydney Harbour?", "context": "CONTEXT:=F1: The volume of Sydney Harbour is 1.873333E+13 times that of Marshmallow.=F2: The volume of Baseball is 5.953600E+00 m**3.=F3: The volume of Marshmallow is 8.490000E-01 m**3.", "answer": "2.671426E+12", "program": "PROGRAM:=Q1: What is the volume of Sydney Harbour?=Q2: What is the volume of Baseball?=Q3: What is the volume of Marshmallow?=Q4: What is the ratio of the volume of Sydney Harbour and that of Marshmallow?=A1: 5.953600E+00 m**3=A2: 8.490000E-01 m**3=A3: 1.873333E+13=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "Baseball", "volume" ] ] ] ] ] }, { "question": "How long does it take for Sloth to travel across Diameter of Earth?", "context": "CONTEXT:=F1: The length of Diameter of Earth is 2.261751E+05 times that of Leaning Tower of Pisa.=F2: The speed of Sloth is 6.705600E-02 m/s.=F3: The length of Leaning Tower of Pisa is 1.719072E+01 m.", "answer": "5.798306E+07 s", "program": "PROGRAM:=Q1: What is the length of Diameter of Earth?=Q2: What is the speed of Sloth?=Q3: What is the length of Leaning Tower of Pisa?=Q4: What is the ratio of the length of Diameter of Earth and the length of Leaning Tower of Pisa?=A1: 6.705600E-02 m/s=A2: 1.719072E+01 m=A3: 2.261751E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Diameter of Earth", "length" ] ], [ ".", [ "Sloth", "speed" ] ] ] ] ] }, { "question": "How many Wikipedia put together contain the same information as 597 of Blu-ray Disc?", "context": "CONTEXT:=F1: The data of Wikipedia is 4.500000E+11 bytes.=F2: The data of Blu-ray Disc is 4.300000E+11 bytes.", "answer": "5.704667E+02", "program": "PROGRAM:=Q1: What is the data of Wikipedia?=Q2: What is the data of Blu-ray Disc?=Q3: What is 597 times the data of Blu-ray Disc?=A1: 4.500000E+11 bytes=A2: 4.300000E+11 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 597)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Blu-ray Disc", "data" ] ], [ ".", [ "Wikipedia", "data" ] ] ] ], [ "", [ "597" ] ] ] ] ] }, { "question": "How many Ancestry.com's Census Records put together contain the same information as 452 of World of Warcraft?", "context": "CONTEXT:=F1: The data of Ancestry.com's Census Records is 3.623188E+03 times that of iPod.=F2: The data of World of Warcraft is 1.100000E+16 bytes.=F3: The data of iPod is 1.380000E+12 bytes.", "answer": "9.944000E+02", "program": "PROGRAM:=Q1: What is the data of Ancestry.com's Census Records?=Q2: What is the data of World of Warcraft?=Q3: What is the data of iPod?=Q4: What is 452 times the data of World of Warcraft?=Q5: What is the ratio of the data of Ancestry.com's Census Records and that of iPod?=A1: 1.100000E+16 bytes=A2: 1.380000E+12 bytes=A3: 3.623188E+03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 452)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "World of Warcraft", "data" ] ], [ ".", [ "Ancestry.com's Census Records", "data" ] ] ] ], [ "", [ "452" ] ] ] ] ] }, { "question": "How many Verne Troyer have the same length as Full Size Bed?", "context": "CONTEXT:=F1: The length of Full Size Bed is 5.806440E-01 m.=F2: The length of Verne Troyer is 2.468880E-01 m.", "answer": "2.351852E+00", "program": "PROGRAM:=Q1: What is the length of Full Size Bed?=Q2: What is the length of Verne Troyer?=A1: 5.806440E-01 m=A2: 2.468880E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Full Size Bed", "length" ] ], [ ".", [ "Verne Troyer", "length" ] ] ] ] ] }, { "question": "How many Hairs can 895 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is $5.000000E+01.", "answer": "2.334160E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is 895 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $5.000000E+01=Q1 -> A1 | F1=Q3 -> Mul(Q1, 895)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "895" ] ] ] ] ] }, { "question": "Assume Vinson Massif's length is half its value. How many Semitrailer have the same length as Vinson Massif?", "context": "CONTEXT:=F1: The length of Vinson Massif is 1.491082E+03 m.=F2: The length of Semitrailer is 4.144476E-06 times that of Volga.=F3: The length of Volga is 1.075944E+06 m.", "answer": "1.671907E+02", "program": "PROGRAM:=Q1: What is the length of Vinson Massif?=Q2: What is the length of Semitrailer?=Q3: What is the length of Volga?=Q4: What is half the length of Vinson Massif?=Q5: What is the ratio of the length of Semitrailer and that of Volga?=A1: 1.491082E+03 m=A2: 1.075944E+06 m=A3: 4.144476E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Vinson Massif", "length" ] ], [ ".", [ "Semitrailer", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 327 of Basketball were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 2.010493E+02 kg * m ** -3.=F2: The volume of Basketball is 8.198750E-08 times that of Royal Albert Hall.=F3: The volume of Royal Albert Hall is 2.452195E+09 m**3.", "answer": "6.554590E+13 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Basketball?=Q3: What is the volume of Royal Albert Hall?=Q4: What is 327 times the volume of Basketball?=Q5: What is the ratio of the volume of Basketball and that of Royal Albert Hall?=A1: 2.010493E+02 kg * m ** -3=A2: 2.452195E+09 m**3=A3: 8.198750E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 327)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Basketball", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "327" ] ] ] ] ] }, { "question": "Assume Hawaii's area is half its value. How many Biltmore Estate fit on Hawaii?", "context": "CONTEXT:=F1: The area of Hawaii is 2.399514E+07 times that of Fort Knox.=F2: The area of Biltmore Estate is 1.625750E+04 m**2.=F3: The area of Fort Knox is 1.179830E+03 m**2.", "answer": "8.706809E+05", "program": "PROGRAM:=Q1: What is the area of Hawaii?=Q2: What is the area of Biltmore Estate?=Q3: What is the area of Fort Knox?=Q4: What is half the area of Hawaii?=Q5: What is the ratio of the area of Hawaii and that of Fort Knox?=A1: 1.625750E+04 m**2=A2: 1.179830E+03 m**2=A3: 2.399514E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hawaii", "area" ] ], [ ".", [ "Biltmore Estate", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many IMAX screen fit on City Block (Manhattan)?", "context": "CONTEXT:=F1: The area of City Block (Manhattan) is 9.290000E+03 m**2.=F2: The area of IMAX screen is 1.466538E-03 times that of Soccer City .=F3: The area of Soccer City is 2.415400E+05 m**2.", "answer": "2.622607E+01", "program": "PROGRAM:=Q1: What is the area of City Block (Manhattan)?=Q2: What is the area of IMAX screen?=Q3: What is the area of Soccer City ?=Q4: What is the ratio of the area of IMAX screen and that of Soccer City ?=A1: 9.290000E+03 m**2=A2: 2.415400E+05 m**2=A3: 1.466538E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "City Block (Manhattan)", "area" ] ], [ ".", [ "IMAX screen", "area" ] ] ] ] ] }, { "question": "Assume Moon's volume is half its value. How many skull have the same volume as Moon?", "context": "CONTEXT:=F1: The volume of Moon is 2.190000E+19 m**3.=F2: The volume of skull is 1.250000E-09 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "2.579505E+17", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of skull?=Q3: What is the volume of Houston Astrodome?=Q4: What is half the volume of Moon?=Q5: What is the ratio of the volume of skull and that of Houston Astrodome?=A1: 2.190000E+19 m**3=A2: 3.396000E+10 m**3=A3: 1.250000E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "skull", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Person's area is half its value. How many Ballpoint Pen Tip have the same area as Person?", "context": "CONTEXT:=F1: The area of Person is 1.700000E+00 m**2.=F2: The area of Ballpoint Pen Tip is 2.601755E-15 times that of Birmingham.=F3: The area of Birmingham is 2.678000E+08 m**2.", "answer": "1.219950E+06", "program": "PROGRAM:=Q1: What is the area of Person?=Q2: What is the area of Ballpoint Pen Tip?=Q3: What is the area of Birmingham?=Q4: What is half the area of Person?=Q5: What is the ratio of the area of Ballpoint Pen Tip and that of Birmingham?=A1: 1.700000E+00 m**2=A2: 2.678000E+08 m**2=A3: 2.601755E-15=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Person", "area" ] ], [ ".", [ "Ballpoint Pen Tip", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Queen Size Bed have the same length as Grand Canyon?", "context": "CONTEXT:=F1: The length of Grand Canyon is 4.505051E+09 times that of Human hair, Strand of.=F2: The length of Queen Size Bed is 6.193536E-01 m.=F3: The length of Human hair, Strand of is 3.017520E-05 m.", "answer": "2.194882E+05", "program": "PROGRAM:=Q1: What is the length of Grand Canyon?=Q2: What is the length of Queen Size Bed?=Q3: What is the length of Human hair, Strand of?=Q4: What is the ratio of the length of Grand Canyon and that of Human hair, Strand of?=A1: 6.193536E-01 m=A2: 3.017520E-05 m=A3: 4.505051E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "length" ] ], [ ".", [ "Queen Size Bed", "length" ] ] ] ] ] }, { "question": "How many Imgur's Monthly Bandwidth put together contain the same information as 702 of Page of Text?", "context": "CONTEXT:=F1: The data of Imgur's Monthly Bandwidth is 1.900000E+16 bytes.=F2: The data of Page of Text is 1.900000E+04 bytes.", "answer": "7.020000E-10", "program": "PROGRAM:=Q1: What is the data of Imgur's Monthly Bandwidth?=Q2: What is the data of Page of Text?=Q3: What is 702 times the data of Page of Text?=A1: 1.900000E+16 bytes=A2: 1.900000E+04 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 702)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Page of Text", "data" ] ], [ ".", [ "Imgur's Monthly Bandwidth", "data" ] ] ] ], [ "", [ "702" ] ] ] ] ] }, { "question": "How many Leaning Tower of Pisa have the same length as Burj Dubai?", "context": "CONTEXT:=F1: The length of Burj Dubai is 2.523744E+02 m.=F2: The length of Leaning Tower of Pisa is 1.719072E+01 m.", "answer": "1.468085E+01", "program": "PROGRAM:=Q1: What is the length of Burj Dubai?=Q2: What is the length of Leaning Tower of Pisa?=A1: 2.523744E+02 m=A2: 1.719072E+01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Burj Dubai", "length" ] ], [ ".", [ "Leaning Tower of Pisa", "length" ] ] ] ] ] }, { "question": "If 698 of Human Stomach were to have the same density as milk, how much would it weigh?", "context": "CONTEXT:=F1: The density of milk is 8.608333E-01 times that of Gallon of Paint.=F2: The volume of Human Stomach is 5.660000E+01 m**3.=F3: The density of Gallon of Paint is 1.200000E+09 kg * m ** -3.", "answer": "4.081052E+13 kg", "program": "PROGRAM:=Q1: What is the density of milk?=Q2: What is the volume of Human Stomach?=Q3: What is the density of Gallon of Paint?=Q4: What is 698 times the volume of Human Stomach?=Q5: What is the ratio of the density of milk and that of Gallon of Paint?=A1: 5.660000E+01 m**3=A2: 1.200000E+09 kg * m ** -3=A3: 8.608333E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 698)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "milk", "density" ] ] ] ], [ "", [ "698" ] ] ] ] ] }, { "question": "How many Letters Delivered by the US Postal Service in 2010 put together contain the same information as 612 of Avatar?", "context": "CONTEXT:=F1: The data of Letters Delivered by the US Postal Service in 2010 is 4.000000E+16 bytes.=F2: The data of Avatar is 8.000000E+15 bytes.", "answer": "1.224000E+02", "program": "PROGRAM:=Q1: What is the data of Letters Delivered by the US Postal Service in 2010?=Q2: What is the data of Avatar?=Q3: What is 612 times the data of Avatar?=A1: 4.000000E+16 bytes=A2: 8.000000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 612)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Avatar", "data" ] ], [ ".", [ "Letters Delivered by the US Postal Service in 2010", "data" ] ] ] ], [ "", [ "612" ] ] ] ] ] }, { "question": "How many IRS Compliance Database put together contain the same information as 891 of Complete Works of William Shakespeare?", "context": "CONTEXT:=F1: The data of IRS Compliance Database is 1.300000E+15 bytes.=F2: The data of Complete Works of William Shakespeare is 1.100000E-09 times that of Letters Delivered by the US Postal Service in 2010.=F3: The data of Letters Delivered by the US Postal Service in 2010 is 4.000000E+16 bytes.", "answer": "3.015692E-05", "program": "PROGRAM:=Q1: What is the data of IRS Compliance Database?=Q2: What is the data of Complete Works of William Shakespeare?=Q3: What is the data of Letters Delivered by the US Postal Service in 2010?=Q4: What is 891 times the data of Complete Works of William Shakespeare?=Q5: What is the ratio of the data of Complete Works of William Shakespeare and that of Letters Delivered by the US Postal Service in 2010?=A1: 1.300000E+15 bytes=A2: 4.000000E+16 bytes=A3: 1.100000E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 891)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Complete Works of William Shakespeare", "data" ] ], [ ".", [ "IRS Compliance Database", "data" ] ] ] ], [ "", [ "891" ] ] ] ] ] }, { "question": "Assume Baseball base distances's length is half its value. How many head have the same length as Baseball base distances?", "context": "CONTEXT:=F1: The length of Baseball base distances is 8.361274E+00 m.=F2: The length of head is 7.620000E-02 m.", "answer": "5.486400E+01", "program": "PROGRAM:=Q1: What is the length of Baseball base distances?=Q2: What is the length of head?=Q3: What is half the length of Baseball base distances?=A1: 8.361274E+00 m=A2: 7.620000E-02 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Baseball base distances", "length" ] ], [ ".", [ "head", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars make up 665 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 5.000000E-02 kg.=F2: The total mass that needs to be reached is 665 kg.", "answer": "1.330000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 665 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "665" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How long does it take for Porsche 911 to travel across Indianapolis Motor Speedway?", "context": "CONTEXT:=F1: The length of Indianapolis Motor Speedway is 1.226320E+03 m.=F2: The speed of Porsche 911 is 9.119616E+01 m/s.", "answer": "1.344706E+01 s", "program": "PROGRAM:=Q1: What is the length of Indianapolis Motor Speedway?=Q2: What is the speed of Porsche 911?=A1: 1.226320E+03 m=A2: 9.119616E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis Motor Speedway", "length" ] ], [ ".", [ "Porsche 911", "speed" ] ] ] ] ] }, { "question": "Assume Amazon River's length is half its value. How many Statue of Liberty have the same length as Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 1.961998E+06 m.=F2: The length of Statue of Liberty is 1.109666E+01 times that of London bus.=F3: The length of London bus is 2.554224E+00 m.", "answer": "3.461125E+04", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the length of Statue of Liberty?=Q3: What is the length of London bus?=Q4: What is half the length of Amazon River?=Q5: What is the ratio of the length of Statue of Liberty and that of London bus?=A1: 1.961998E+06 m=A2: 2.554224E+00 m=A3: 1.109666E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Statue of Liberty", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Ballpoint Pen Tip have the same area as Apple iPad?", "context": "CONTEXT:=F1: The area of Apple iPad is 4.002132E-02 m**2.=F2: The area of Ballpoint Pen Tip is 6.967500E-07 m**2.", "answer": "5.744000E+04", "program": "PROGRAM:=Q1: What is the area of Apple iPad?=Q2: What is the area of Ballpoint Pen Tip?=A1: 4.002132E-02 m**2=A2: 6.967500E-07 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Apple iPad", "area" ] ], [ ".", [ "Ballpoint Pen Tip", "area" ] ] ] ] ] }, { "question": "Assume Blood Donation's volume is half its value. How many Gumball make Blood Donation?", "context": "CONTEXT:=F1: The volume of Blood Donation is 3.174603E+00 times that of Tennis Ball.=F2: The volume of Gumball is 2.547000E-01 m**3.=F3: The volume of Tennis Ball is 4.457250E+00 m**3.", "answer": "2.777778E+01", "program": "PROGRAM:=Q1: What is the volume of Blood Donation?=Q2: What is the volume of Gumball?=Q3: What is the volume of Tennis Ball?=Q4: What is half the volume of Blood Donation?=Q5: What is the ratio of the volume of Blood Donation and that of Tennis Ball?=A1: 2.547000E-01 m**3=A2: 4.457250E+00 m**3=A3: 3.174603E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Blood Donation", "volume" ] ], [ ".", [ "Gumball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Iceberg to travel across Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The speed of Iceberg is 1.303781E-03 times that of Speed of Sound.=F3: The speed of Speed of Sound is 3.428797E+02 m/s.", "answer": "6.033314E+03 s", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the speed of Iceberg?=Q3: What is the speed of Speed of Sound?=Q4: What is the ratio of the speed of Iceberg and the speed of Speed of Sound?=A1: 2.697133E+03 m=A2: 3.428797E+02 m/s=A3: 1.303781E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Iceberg", "speed" ] ] ] ] ] }, { "question": "How many Hairs make up 431 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 431 kg.", "answer": "1.436667E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 431 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "431" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "Assume Moon's area is half its value. How many Auckland International Airport (AKL) fit on Moon?", "context": "CONTEXT:=F1: The area of Moon is 3.800000E+13 m**2.=F2: The area of Auckland International Airport (AKL) is 4.397394E+10 times that of coin.=F3: The area of coin is 2.852030E-04 m**2.", "answer": "1.514970E+06", "program": "PROGRAM:=Q1: What is the area of Moon?=Q2: What is the area of Auckland International Airport (AKL)?=Q3: What is the area of coin?=Q4: What is half the area of Moon?=Q5: What is the ratio of the area of Auckland International Airport (AKL) and that of coin?=A1: 3.800000E+13 m**2=A2: 2.852030E-04 m**2=A3: 4.397394E+10=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "area" ] ], [ ".", [ "Auckland International Airport (AKL)", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many suitcase fit in Sun?", "context": "CONTEXT:=F1: The volume of Sun is 1.400000E+27 m**3.=F2: The volume of suitcase is 1.415000E+03 m**3.", "answer": "9.893993E+23", "program": "PROGRAM:=Q1: What is the volume of Sun?=Q2: What is the volume of suitcase?=A1: 1.400000E+27 m**3=A2: 1.415000E+03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Sun", "volume" ] ], [ ".", [ "suitcase", "volume" ] ] ] ] ] }, { "question": "How many Secure Digital (SD) card have the same area as Seal Island?", "context": "CONTEXT:=F1: The area of Seal Island is 3.209148E+07 times that of Dime.=F2: The area of Secure Digital (SD) card is 7.710700E-04 m**2.=F3: The area of Dime is 2.518519E-04 m**2.", "answer": "1.048193E+07", "program": "PROGRAM:=Q1: What is the area of Seal Island?=Q2: What is the area of Secure Digital (SD) card?=Q3: What is the area of Dime?=Q4: What is the ratio of the area of Seal Island and that of Dime?=A1: 7.710700E-04 m**2=A2: 2.518519E-04 m**2=A3: 3.209148E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Seal Island", "area" ] ], [ ".", [ "Secure Digital (SD) card", "area" ] ] ] ] ] }, { "question": "How long to digest 452 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.757200E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 452 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(452, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "452" ] ] ] ] ] }, { "question": "How many Mars Bars can 419 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 8.150000E+12 times that of Sheet of paper.=F2: The cost of Mars Bars is $1.000000E+00.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "5.463760E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is the cost of Sheet of paper?=Q4: What is 419 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Sheet of paper?=A1: $1.000000E+00=A2: $1.600000E-02=A3: 8.150000E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 419)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "419" ] ] ] ] ] }, { "question": "Assume Oregon Trail's length is half its value. How many Singapore Flyer (Ferris wheel) have the same length as Oregon Trail?", "context": "CONTEXT:=F1: The length of Oregon Trail is 1.063752E+06 m.=F2: The length of Singapore Flyer (Ferris wheel) is 1.100000E+02 times that of Danny DeVito.=F3: The length of Danny DeVito is 4.572000E-01 m.", "answer": "1.057576E+04", "program": "PROGRAM:=Q1: What is the length of Oregon Trail?=Q2: What is the length of Singapore Flyer (Ferris wheel)?=Q3: What is the length of Danny DeVito?=Q4: What is half the length of Oregon Trail?=Q5: What is the ratio of the length of Singapore Flyer (Ferris wheel) and that of Danny DeVito?=A1: 1.063752E+06 m=A2: 4.572000E-01 m=A3: 1.100000E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Oregon Trail", "length" ] ], [ ".", [ "Singapore Flyer (Ferris wheel)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Man's Footstep have the same length as Great Wall of China (total)?", "context": "CONTEXT:=F1: The length of Great Wall of China (total) is 1.798320E+06 times that of Person.=F2: The length of Man's Footstep is 2.407920E-01 m.=F3: The length of Person is 1.500000E+00 m.", "answer": "1.120253E+07", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (total)?=Q2: What is the length of Man's Footstep?=Q3: What is the length of Person?=Q4: What is the ratio of the length of Great Wall of China (total) and that of Person?=A1: 2.407920E-01 m=A2: 1.500000E+00 m=A3: 1.798320E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (total)", "length" ] ], [ ".", [ "Man's Footstep", "length" ] ] ] ] ] }, { "question": "Assume suitcase's volume is half its value. How many Baseball make suitcase?", "context": "CONTEXT:=F1: The volume of suitcase is 1.415000E+03 m**3.=F2: The volume of Baseball is 3.583893E-03 times that of Beer Keg.=F3: The volume of Beer Keg is 1.661210E+03 m**3.", "answer": "1.188357E+02", "program": "PROGRAM:=Q1: What is the volume of suitcase?=Q2: What is the volume of Baseball?=Q3: What is the volume of Beer Keg?=Q4: What is half the volume of suitcase?=Q5: What is the ratio of the volume of Baseball and that of Beer Keg?=A1: 1.415000E+03 m**3=A2: 1.661210E+03 m**3=A3: 3.583893E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "suitcase", "volume" ] ], [ ".", [ "Baseball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Olympic Pool's volume is half its value. How many dollar bill fit in Olympic Pool?", "context": "CONTEXT:=F1: The volume of Olympic Pool is 2.500000E+03 m**3.=F2: The volume of dollar bill is 2.881455E-23 times that of Earth.=F3: The volume of Earth is 1.100000E+21 m**3.", "answer": "3.943715E+04", "program": "PROGRAM:=Q1: What is the volume of Olympic Pool?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Earth?=Q4: What is half the volume of Olympic Pool?=Q5: What is the ratio of the volume of dollar bill and that of Earth?=A1: 2.500000E+03 m**3=A2: 1.100000E+21 m**3=A3: 2.881455E-23=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympic Pool", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many LAX have the same area as San Jose?", "context": "CONTEXT:=F1: The area of San Jose is 3.660915E+05 times that of Manchester Cathedral.=F2: The area of LAX is 1.393500E+07 m**2.=F3: The area of Manchester Cathedral is 1.238357E+03 m**2.", "answer": "3.253333E+01", "program": "PROGRAM:=Q1: What is the area of San Jose?=Q2: What is the area of LAX?=Q3: What is the area of Manchester Cathedral?=Q4: What is the ratio of the area of San Jose and that of Manchester Cathedral?=A1: 1.393500E+07 m**2=A2: 1.238357E+03 m**2=A3: 3.660915E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "San Jose", "area" ] ], [ ".", [ "LAX", "area" ] ] ] ] ] }, { "question": "Assume Hadrian's Wall's length is half its value. How many Hollywood Walk of Fame have the same length as Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 3.657600E+04 m.=F2: The length of Hollywood Walk of Fame is 1.188720E+03 m.", "answer": "1.538462E+01", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the length of Hollywood Walk of Fame?=Q3: What is half the length of Hadrian's Wall?=A1: 3.657600E+04 m=A2: 1.188720E+03 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "Hollywood Walk of Fame", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Petronas Twin Towers's length is half its value. How many King Size Bed have the same length as Petronas Twin Towers?", "context": "CONTEXT:=F1: The length of Petronas Twin Towers is 1.377391E+02 m.=F2: The length of King Size Bed is 6.193536E-01 m.", "answer": "1.111959E+02", "program": "PROGRAM:=Q1: What is the length of Petronas Twin Towers?=Q2: What is the length of King Size Bed?=Q3: What is half the length of Petronas Twin Towers?=A1: 1.377391E+02 m=A2: 6.193536E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Petronas Twin Towers", "length" ] ], [ ".", [ "King Size Bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hairs make up 17 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 17 kg.", "answer": "5.666667E+02", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 17 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "17" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "Assume Hot Tub's volume is half its value. How many STARBUCKS Venti Coffee make Hot Tub?", "context": "CONTEXT:=F1: The volume of Hot Tub is 2.034770E+08 times that of Sheet of paper.=F2: The volume of STARBUCKS Venti Coffee is 1.669700E+01 m**3.=F3: The volume of Sheet of paper is 1.000000E-04 m**3.", "answer": "6.093220E+02", "program": "PROGRAM:=Q1: What is the volume of Hot Tub?=Q2: What is the volume of STARBUCKS Venti Coffee?=Q3: What is the volume of Sheet of paper?=Q4: What is half the volume of Hot Tub?=Q5: What is the ratio of the volume of Hot Tub and that of Sheet of paper?=A1: 1.669700E+01 m**3=A2: 1.000000E-04 m**3=A3: 2.034770E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hot Tub", "volume" ] ], [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hairs can 543 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is 1.016260E-12 times that of Polonium-241.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "1.416144E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Polonium-241?=Q4: What is 543 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Hairs and the cost of Polonium-241?=A1: $1.304000E+11=A2: $4.920000E+13=A3: 1.016260E-12=Q1 -> A1 | F1=Q4 -> Mul(Q1, 543)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "543" ] ] ] ] ] }, { "question": "How long does it take for Cheetah to travel across Kilimanjaro?", "context": "CONTEXT:=F1: The length of Kilimanjaro is 1.795513E+03 m.=F2: The speed of Cheetah is 2.836777E-01 times that of Peregrine Falcon.=F3: The speed of Peregrine Falcon is 1.081837E+02 m/s.", "answer": "5.850616E+01 s", "program": "PROGRAM:=Q1: What is the length of Kilimanjaro?=Q2: What is the speed of Cheetah?=Q3: What is the speed of Peregrine Falcon?=Q4: What is the ratio of the speed of Cheetah and the speed of Peregrine Falcon?=A1: 1.795513E+03 m=A2: 1.081837E+02 m/s=A3: 2.836777E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Kilimanjaro", "length" ] ], [ ".", [ "Cheetah", "speed" ] ] ] ] ] }, { "question": "Assume Sun's volume is half its value. How many Halley's Comet make Sun?", "context": "CONTEXT:=F1: The volume of Sun is 6.535002E+23 times that of Car Gas Tank.=F2: The volume of Halley's Comet is 1.132000E+17 m**3.=F3: The volume of Car Gas Tank is 2.142310E+03 m**3.", "answer": "6.183746E+09", "program": "PROGRAM:=Q1: What is the volume of Sun?=Q2: What is the volume of Halley's Comet?=Q3: What is the volume of Car Gas Tank?=Q4: What is half the volume of Sun?=Q5: What is the ratio of the volume of Sun and that of Car Gas Tank?=A1: 1.132000E+17 m**3=A2: 2.142310E+03 m**3=A3: 6.535002E+23=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sun", "volume" ] ], [ ".", [ "Halley's Comet", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Denali's length is half its value. How many Leaning Tower of Pisa have the same length as Denali?", "context": "CONTEXT:=F1: The length of Denali is 6.881111E+00 times that of Navy Pier.=F2: The length of Leaning Tower of Pisa is 1.719072E+01 m.=F3: The length of Navy Pier is 2.743200E+02 m.", "answer": "5.490248E+01", "program": "PROGRAM:=Q1: What is the length of Denali?=Q2: What is the length of Leaning Tower of Pisa?=Q3: What is the length of Navy Pier?=Q4: What is half the length of Denali?=Q5: What is the ratio of the length of Denali and that of Navy Pier?=A1: 1.719072E+01 m=A2: 2.743200E+02 m=A3: 6.881111E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Denali", "length" ] ], [ ".", [ "Leaning Tower of Pisa", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Hilton Head's area is half its value. How many Nailhead fit on Hilton Head?", "context": "CONTEXT:=F1: The area of Hilton Head is 3.027855E-01 times that of Detroit.=F2: The area of Nailhead is 7.773872E-05 m**2.=F3: The area of Detroit is 3.595230E+08 m**2.", "answer": "7.001554E+11", "program": "PROGRAM:=Q1: What is the area of Hilton Head?=Q2: What is the area of Nailhead?=Q3: What is the area of Detroit?=Q4: What is half the area of Hilton Head?=Q5: What is the ratio of the area of Hilton Head and that of Detroit?=A1: 7.773872E-05 m**2=A2: 3.595230E+08 m**2=A3: 3.027855E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hilton Head", "area" ] ], [ ".", [ "Nailhead", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Ostrich Egg's volume is half its value. How many Car make Ostrich Egg?", "context": "CONTEXT:=F1: The volume of Ostrich Egg is 4.618560E+01 m**3.=F2: The volume of Car is 1.130742E-07 times that of Olympic Swimming Pool.=F3: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.", "answer": "2.886600E+00", "program": "PROGRAM:=Q1: What is the volume of Ostrich Egg?=Q2: What is the volume of Car?=Q3: What is the volume of Olympic Swimming Pool?=Q4: What is half the volume of Ostrich Egg?=Q5: What is the ratio of the volume of Car and that of Olympic Swimming Pool?=A1: 4.618560E+01 m**3=A2: 7.075000E+07 m**3=A3: 1.130742E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Ostrich Egg", "volume" ] ], [ ".", [ "Car", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Penny have the same area as Mackinac Island?", "context": "CONTEXT:=F1: The area of Mackinac Island is 6.639453E-05 times that of Florida.=F2: The area of Penny is 2.852030E-04 m**2.=F3: The area of Florida is 1.702981E+11 m**2.", "answer": "3.964495E+10", "program": "PROGRAM:=Q1: What is the area of Mackinac Island?=Q2: What is the area of Penny?=Q3: What is the area of Florida?=Q4: What is the ratio of the area of Mackinac Island and that of Florida?=A1: 2.852030E-04 m**2=A2: 1.702981E+11 m**2=A3: 6.639453E-05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Mackinac Island", "area" ] ], [ ".", [ "Penny", "area" ] ] ] ] ] }, { "question": "Assume Toronto Pearson International Airport (YYZ)'s area is half its value. How many Forbidden City have the same area as Toronto Pearson International Airport (YYZ)?", "context": "CONTEXT:=F1: The area of Toronto Pearson International Airport (YYZ) is 1.827343E+07 m**2.=F2: The area of Forbidden City is 7.432000E+05 m**2.", "answer": "1.229375E+01", "program": "PROGRAM:=Q1: What is the area of Toronto Pearson International Airport (YYZ)?=Q2: What is the area of Forbidden City?=Q3: What is half the area of Forbidden City?=A1: 1.827343E+07 m**2=A2: 7.432000E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Toronto Pearson International Airport (YYZ)", "area" ] ], [ ".", [ "Forbidden City", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Football field's length is half its value. How many Semitrailer have the same length as Football field?", "context": "CONTEXT:=F1: The length of Football field is 3.344509E+01 m.=F2: The length of Semitrailer is 4.459224E+00 m.", "answer": "3.750103E+00", "program": "PROGRAM:=Q1: What is the length of Football field?=Q2: What is the length of Semitrailer?=Q3: What is half the length of Football field?=A1: 3.344509E+01 m=A2: 4.459224E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Football field", "length" ] ], [ ".", [ "Semitrailer", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 401 of Golf Ball were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 7.493878E+02 times that of air.=F2: The volume of Golf Ball is 1.151368E+00 m**3.=F3: The density of air is 1.225000E+06 kg * m ** -3.", "answer": "4.238392E+11 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Golf Ball?=Q3: What is the density of air?=Q4: What is 401 times the volume of Golf Ball?=Q5: What is the ratio of the density of fat and that of air?=A1: 1.151368E+00 m**3=A2: 1.225000E+06 kg * m ** -3=A3: 7.493878E+02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 401)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Golf Ball", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "401" ] ] ] ] ] }, { "question": "How many Avatar put together contain the same information as 86 of Books in the Library of Congress?", "context": "CONTEXT:=F1: The data of Avatar is 8.000000E+15 bytes.=F2: The data of Books in the Library of Congress is 6.000000E+17 bytes.", "answer": "6.450000E+03", "program": "PROGRAM:=Q1: What is the data of Avatar?=Q2: What is the data of Books in the Library of Congress?=Q3: What is 86 times the data of Books in the Library of Congress?=A1: 8.000000E+15 bytes=A2: 6.000000E+17 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 86)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Books in the Library of Congress", "data" ] ], [ ".", [ "Avatar", "data" ] ] ] ], [ "", [ "86" ] ] ] ] ] }, { "question": "How many Person make Earth?", "context": "CONTEXT:=F1: The volume of Earth is 6.621679E+17 times that of Beer Keg.=F2: The volume of Person is 6.000000E-02 m**3.=F3: The volume of Beer Keg is 1.661210E+03 m**3.", "answer": "1.833333E+22", "program": "PROGRAM:=Q1: What is the volume of Earth?=Q2: What is the volume of Person?=Q3: What is the volume of Beer Keg?=Q4: What is the ratio of the volume of Earth and that of Beer Keg?=A1: 6.000000E-02 m**3=A2: 1.661210E+03 m**3=A3: 6.621679E+17=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Earth", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ] ] }, { "question": "How many Books in the Library of Congress put together contain the same information as 683 of HDTV Television Show (30 Minutes)?", "context": "CONTEXT:=F1: The data of Books in the Library of Congress is 6.000000E+17 bytes.=F2: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.", "answer": "4.120767E-05", "program": "PROGRAM:=Q1: What is the data of Books in the Library of Congress?=Q2: What is the data of HDTV Television Show (30 Minutes)?=Q3: What is 683 times the data of HDTV Television Show (30 Minutes)?=A1: 6.000000E+17 bytes=A2: 3.620000E+10 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 683)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "HDTV Television Show (30 Minutes)", "data" ] ], [ ".", [ "Books in the Library of Congress", "data" ] ] ] ], [ "", [ "683" ] ] ] ] ] }, { "question": "How many Dog have the same length as Olo'upena Falls?", "context": "CONTEXT:=F1: The length of Olo'upena Falls is 2.743505E+02 m.=F2: The length of Dog is 2.982582E-01 times that of Telephone Pole.=F3: The length of Telephone Pole is 3.352800E+00 m.", "answer": "2.743505E+02", "program": "PROGRAM:=Q1: What is the length of Olo'upena Falls?=Q2: What is the length of Dog?=Q3: What is the length of Telephone Pole?=Q4: What is the ratio of the length of Dog and that of Telephone Pole?=A1: 2.743505E+02 m=A2: 3.352800E+00 m=A3: 2.982582E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Olo'upena Falls", "length" ] ], [ ".", [ "Dog", "length" ] ] ] ] ] }, { "question": "Assume Alaska's area is half its value. How many Elephant fit on Alaska?", "context": "CONTEXT:=F1: The area of Alaska is 1.717798E+12 m**2.=F2: The area of Elephant is 1.600000E+01 m**2.", "answer": "5.368119E+10", "program": "PROGRAM:=Q1: What is the area of Alaska?=Q2: What is the area of Elephant?=Q3: What is half the area of Elephant?=A1: 1.717798E+12 m**2=A2: 1.600000E+01 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Alaska", "area" ] ], [ ".", [ "Elephant", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 271 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.653100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 271 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(271, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "271" ] ] ] ] ] }, { "question": "How many Dime fit on Olympic Pool?", "context": "CONTEXT:=F1: The area of Olympic Pool is 4.737792E-06 times that of Edinburgh.=F2: The area of Dime is 2.518519E-04 m**2.=F3: The area of Edinburgh is 2.638360E+08 m**2.", "answer": "4.963234E+06", "program": "PROGRAM:=Q1: What is the area of Olympic Pool?=Q2: What is the area of Dime?=Q3: What is the area of Edinburgh?=Q4: What is the ratio of the area of Olympic Pool and that of Edinburgh?=A1: 2.518519E-04 m**2=A2: 2.638360E+08 m**2=A3: 4.737792E-06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Olympic Pool", "area" ] ], [ ".", [ "Dime", "area" ] ] ] ] ] }, { "question": "How many Hot Tub make Gulf of Mexico?", "context": "CONTEXT:=F1: The volume of Gulf of Mexico is 2.192726E+17 times that of Basketball (packed).=F2: The volume of Hot Tub is 2.034770E+04 m**3.=F3: The volume of Basketball (packed) is 3.141396E+02 m**3.", "answer": "3.385257E+15", "program": "PROGRAM:=Q1: What is the volume of Gulf of Mexico?=Q2: What is the volume of Hot Tub?=Q3: What is the volume of Basketball (packed)?=Q4: What is the ratio of the volume of Gulf of Mexico and that of Basketball (packed)?=A1: 2.034770E+04 m**3=A2: 3.141396E+02 m**3=A3: 2.192726E+17=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "Hot Tub", "volume" ] ] ] ] ] }, { "question": "Assume Hadrian's Wall's length is half its value. How many E. coli Bacterium have the same length as Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 5.905512E+04 times that of King Size Bed.=F2: The length of E. coli Bacterium is 6.096000E-07 m.=F3: The length of King Size Bed is 6.193536E-01 m.", "answer": "3.000000E+10", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the length of E. coli Bacterium?=Q3: What is the length of King Size Bed?=Q4: What is half the length of Hadrian's Wall?=Q5: What is the ratio of the length of Hadrian's Wall and that of King Size Bed?=A1: 6.096000E-07 m=A2: 6.193536E-01 m=A3: 5.905512E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "E. coli Bacterium", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Baseball base distances have the same length as Empire State Building?", "context": "CONTEXT:=F1: The length of Empire State Building is 1.161318E+02 m.=F2: The length of Baseball base distances is 4.863830E-01 times that of Leaning Tower of Pisa.=F3: The length of Leaning Tower of Pisa is 1.719072E+01 m.", "answer": "1.388925E+01", "program": "PROGRAM:=Q1: What is the length of Empire State Building?=Q2: What is the length of Baseball base distances?=Q3: What is the length of Leaning Tower of Pisa?=Q4: What is the ratio of the length of Baseball base distances and that of Leaning Tower of Pisa?=A1: 1.161318E+02 m=A2: 1.719072E+01 m=A3: 4.863830E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Empire State Building", "length" ] ], [ ".", [ "Baseball base distances", "length" ] ] ] ] ] }, { "question": "How many Car can 257 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is $4.000000E+04.", "answer": "8.378200E+08", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is 257 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.000000E+04=Q1 -> A1 | F1=Q3 -> Mul(Q1, 257)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "257" ] ] ] ] ] }, { "question": "How many Egg (Chicken) have the same volume as Ostrich Egg?", "context": "CONTEXT:=F1: The volume of Ostrich Egg is 2.297227E-01 times that of Basketball.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.=F3: The volume of Basketball is 2.010493E+02 m**3.", "answer": "2.400000E+01", "program": "PROGRAM:=Q1: What is the volume of Ostrich Egg?=Q2: What is the volume of Egg (Chicken)?=Q3: What is the volume of Basketball?=Q4: What is the ratio of the volume of Ostrich Egg and that of Basketball?=A1: 1.924400E+00 m**3=A2: 2.010493E+02 m**3=A3: 2.297227E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Ostrich Egg", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ] ] }, { "question": "How many Car can 856 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is $4.000000E+04.", "answer": "2.790560E+09", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is 856 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.000000E+04=Q1 -> A1 | F1=Q3 -> Mul(Q1, 856)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "856" ] ] ] ] ] }, { "question": "How many Walmart's Mainframe put together contain the same information as 217 of Google database?", "context": "CONTEXT:=F1: The data of Walmart's Mainframe is 6.451613E+00 times that of Google Earth database.=F2: The data of Google database is 7.500000E+15 bytes.=F3: The data of Google Earth database is 6.200000E+14 bytes.", "answer": "4.068750E+02", "program": "PROGRAM:=Q1: What is the data of Walmart's Mainframe?=Q2: What is the data of Google database?=Q3: What is the data of Google Earth database?=Q4: What is 217 times the data of Google database?=Q5: What is the ratio of the data of Walmart's Mainframe and that of Google Earth database?=A1: 7.500000E+15 bytes=A2: 6.200000E+14 bytes=A3: 6.451613E+00=Q2 -> A1 | F2=Q4 -> Mul(Q2, 217)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google database", "data" ] ], [ ".", [ "Walmart's Mainframe", "data" ] ] ] ], [ "", [ "217" ] ] ] ] ] }, { "question": "Assume Tennis Ball's volume is half its value. How many Mars Bars have the same volume as Tennis Ball?", "context": "CONTEXT:=F1: The volume of Tennis Ball is 4.457250E+00 m**3.=F2: The volume of Mars Bars is 1.000000E+04 times that of Hairs.=F3: The volume of Hairs is 3.000000E-07 m**3.", "answer": "7.428750E+02", "program": "PROGRAM:=Q1: What is the volume of Tennis Ball?=Q2: What is the volume of Mars Bars?=Q3: What is the volume of Hairs?=Q4: What is half the volume of Tennis Ball?=Q5: What is the ratio of the volume of Mars Bars and that of Hairs?=A1: 4.457250E+00 m**3=A2: 3.000000E-07 m**3=A3: 1.000000E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Tennis Ball", "volume" ] ], [ ".", [ "Mars Bars", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Woman's Footstep have the same length as Verne Troyer?", "context": "CONTEXT:=F1: The length of Verne Troyer is 8.544304E-04 times that of Tugela Falls.=F2: The length of Woman's Footstep is 2.011680E-01 m.=F3: The length of Tugela Falls is 2.889504E+02 m.", "answer": "1.227273E+00", "program": "PROGRAM:=Q1: What is the length of Verne Troyer?=Q2: What is the length of Woman's Footstep?=Q3: What is the length of Tugela Falls?=Q4: What is the ratio of the length of Verne Troyer and that of Tugela Falls?=A1: 2.011680E-01 m=A2: 2.889504E+02 m=A3: 8.544304E-04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Verne Troyer", "length" ] ], [ ".", [ "Woman's Footstep", "length" ] ] ] ] ] }, { "question": "Assume Moon's area is half its value. How many Mars Bars fit on Moon?", "context": "CONTEXT:=F1: The area of Moon is 3.867154E+00 times that of United States.=F2: The area of Mars Bars is 3.000000E-02 m**2.=F3: The area of United States is 9.826349E+12 m**2.", "answer": "6.333333E+14", "program": "PROGRAM:=Q1: What is the area of Moon?=Q2: What is the area of Mars Bars?=Q3: What is the area of United States?=Q4: What is half the area of Moon?=Q5: What is the ratio of the area of Moon and that of United States?=A1: 3.000000E-02 m**2=A2: 9.826349E+12 m**2=A3: 3.867154E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "area" ] ], [ ".", [ "Mars Bars", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 980 of Beer Keg were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 9.795918E+02 times that of air.=F2: The volume of Beer Keg is 1.661210E+03 m**3.=F3: The density of air is 1.225000E+06 kg * m ** -3.", "answer": "1.953583E+15 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of Beer Keg?=Q3: What is the density of air?=Q4: What is 980 times the volume of Beer Keg?=Q5: What is the ratio of the density of Gallon of Paint and that of air?=A1: 1.661210E+03 m**3=A2: 1.225000E+06 kg * m ** -3=A3: 9.795918E+02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 980)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Beer Keg", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "980" ] ] ] ] ] }, { "question": "Assume Earth's Oceans's volume is half its value. How many Gumball make Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 3.962000E+22 m**3.=F2: The volume of Gumball is 2.547000E-01 m**3.", "answer": "7.777778E+22", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of Gumball?=Q3: What is half the volume of Earth's Oceans?=A1: 3.962000E+22 m**3=A2: 2.547000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "Gumball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 702 of Bill Gates were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 6.200000E-02 kg * m ** -3.=F2: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "3.995503E+10 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Bill Gates?=Q3: What is 702 times the volume of Bill Gates?=A1: 6.200000E-02 kg * m ** -3=A2: 6.200000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 702)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bill Gates", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "702" ] ] ] ] ] }, { "question": "How many Golf Tee have the same length as Cricket Pitch?", "context": "CONTEXT:=F1: The length of Cricket Pitch is 6.131601E+00 m.=F2: The length of Golf Tee is 5.625000E-04 times that of Big Ben.=F3: The length of Big Ben is 2.926080E+01 m.", "answer": "3.725333E+02", "program": "PROGRAM:=Q1: What is the length of Cricket Pitch?=Q2: What is the length of Golf Tee?=Q3: What is the length of Big Ben?=Q4: What is the ratio of the length of Golf Tee and that of Big Ben?=A1: 6.131601E+00 m=A2: 2.926080E+01 m=A3: 5.625000E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Cricket Pitch", "length" ] ], [ ".", [ "Golf Tee", "length" ] ] ] ] ] }, { "question": "How many Despicable Me put together contain the same information as 858 of Ancestry.com's Census Records?", "context": "CONTEXT:=F1: The data of Despicable Me is 1.250000E+15 bytes.=F2: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.", "answer": "3.432000E+03", "program": "PROGRAM:=Q1: What is the data of Despicable Me?=Q2: What is the data of Ancestry.com's Census Records?=Q3: What is 858 times the data of Ancestry.com's Census Records?=A1: 1.250000E+15 bytes=A2: 5.000000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 858)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Ancestry.com's Census Records", "data" ] ], [ ".", [ "Despicable Me", "data" ] ] ] ], [ "", [ "858" ] ] ] ] ] }, { "question": "Assume Aconcagua's length is half its value. How many Human hair, Strand of have the same length as Aconcagua?", "context": "CONTEXT:=F1: The length of Aconcagua is 2.121987E+03 m.=F2: The length of Human hair, Strand of is 2.190750E-07 times that of Petronas Twin Towers.=F3: The length of Petronas Twin Towers is 1.377391E+02 m.", "answer": "3.516111E+07", "program": "PROGRAM:=Q1: What is the length of Aconcagua?=Q2: What is the length of Human hair, Strand of?=Q3: What is the length of Petronas Twin Towers?=Q4: What is half the length of Aconcagua?=Q5: What is the ratio of the length of Human hair, Strand of and that of Petronas Twin Towers?=A1: 2.121987E+03 m=A2: 1.377391E+02 m=A3: 2.190750E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Aconcagua", "length" ] ], [ ".", [ "Human hair, Strand of", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Car fit in Goodyear Blimp?", "context": "CONTEXT:=F1: The volume of Goodyear Blimp is 1.624420E+08 m**3.=F2: The volume of Car is 1.284934E-07 times that of Hot Air Balloon.=F3: The volume of Hot Air Balloon is 6.226000E+07 m**3.", "answer": "2.030525E+07", "program": "PROGRAM:=Q1: What is the volume of Goodyear Blimp?=Q2: What is the volume of Car?=Q3: What is the volume of Hot Air Balloon?=Q4: What is the ratio of the volume of Car and that of Hot Air Balloon?=A1: 1.624420E+08 m**3=A2: 6.226000E+07 m**3=A3: 1.284934E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Goodyear Blimp", "volume" ] ], [ ".", [ "Car", "volume" ] ] ] ] ] }, { "question": "Assume Shambles's length is half its value. How many Wingspan of a 747 have the same length as Shambles?", "context": "CONTEXT:=F1: The length of Shambles is 1.363636E+02 times that of Kenny Baker.=F2: The length of Wingspan of a 747 is 2.087880E+01 m.=F3: The length of Kenny Baker is 3.352800E-01 m.", "answer": "1.094891E+00", "program": "PROGRAM:=Q1: What is the length of Shambles?=Q2: What is the length of Wingspan of a 747?=Q3: What is the length of Kenny Baker?=Q4: What is half the length of Shambles?=Q5: What is the ratio of the length of Shambles and that of Kenny Baker?=A1: 2.087880E+01 m=A2: 3.352800E-01 m=A3: 1.363636E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Shambles", "length" ] ], [ ".", [ "Wingspan of a 747", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Bill Gates can 599 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "5.990000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Bathtub?=Q4: What is 599 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $1.304000E+11=A2: $1.000000E+03=A3: 1.304000E+08=Q1 -> A1 | F1=Q4 -> Mul(Q1, 599)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "599" ] ] ] ] ] }, { "question": "How many pizza fit on Island of Ireland?", "context": "CONTEXT:=F1: The area of Island of Ireland is 8.441823E+10 m**2.=F2: The area of pizza is 1.388889E-05 times that of Football field.=F3: The area of Football field is 5.351040E+03 m**2.", "answer": "1.135875E+12", "program": "PROGRAM:=Q1: What is the area of Island of Ireland?=Q2: What is the area of pizza?=Q3: What is the area of Football field?=Q4: What is the ratio of the area of pizza and that of Football field?=A1: 8.441823E+10 m**2=A2: 5.351040E+03 m**2=A3: 1.388889E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Island of Ireland", "area" ] ], [ ".", [ "pizza", "area" ] ] ] ] ] }, { "question": "How many Dog make up 942 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 942 kg.", "answer": "3.140000E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 942 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "942" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How many Prince Edward Island have the same area as Tshwane?", "context": "CONTEXT:=F1: The area of Tshwane is 6.367366E+09 m**2.=F2: The area of Prince Edward Island is 5.683724E+09 m**2.", "answer": "1.120281E+00", "program": "PROGRAM:=Q1: What is the area of Tshwane?=Q2: What is the area of Prince Edward Island?=A1: 6.367366E+09 m**2=A2: 5.683724E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Tshwane", "area" ] ], [ ".", [ "Prince Edward Island", "area" ] ] ] ] ] }, { "question": "How long does it take for Bullet (Rifle) to travel across Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The speed of Bullet (Rifle) is 3.056888E-06 times that of Speed of Light.=F3: The speed of Speed of Light is 2.997925E+08 m/s.", "answer": "2.943080E+00 s", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the speed of Bullet (Rifle)?=Q3: What is the speed of Speed of Light?=Q4: What is the ratio of the speed of Bullet (Rifle) and the speed of Speed of Light?=A1: 2.697133E+03 m=A2: 2.997925E+08 m/s=A3: 3.056888E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Bullet (Rifle)", "speed" ] ] ] ] ] }, { "question": "Assume I-80's length is half its value. How many Cell's Nucleus have the same length as I-80?", "context": "CONTEXT:=F1: The length of I-80 is 5.096736E+06 times that of General Tom Thumb.=F2: The length of Cell's Nucleus is 1.828800E-06 m.=F3: The length of General Tom Thumb is 2.773680E-01 m.", "answer": "3.865025E+11", "program": "PROGRAM:=Q1: What is the length of I-80?=Q2: What is the length of Cell's Nucleus?=Q3: What is the length of General Tom Thumb?=Q4: What is half the length of I-80?=Q5: What is the ratio of the length of I-80 and that of General Tom Thumb?=A1: 1.828800E-06 m=A2: 2.773680E-01 m=A3: 5.096736E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "I-80", "length" ] ], [ ".", [ "Cell's Nucleus", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Hare to travel across Puncak Jaya?", "context": "CONTEXT:=F1: The length of Puncak Jaya is 1.488643E+03 m.=F2: The speed of Hare is 9.205560E+00 times that of Michael Phelps.=F3: The speed of Michael Phelps is 1.942478E+00 m/s.", "answer": "8.325000E+01 s", "program": "PROGRAM:=Q1: What is the length of Puncak Jaya?=Q2: What is the speed of Hare?=Q3: What is the speed of Michael Phelps?=Q4: What is the ratio of the speed of Hare and the speed of Michael Phelps?=A1: 1.488643E+03 m=A2: 1.942478E+00 m/s=A3: 9.205560E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Puncak Jaya", "length" ] ], [ ".", [ "Hare", "speed" ] ] ] ] ] }, { "question": "How long to digest 921 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.618100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 921 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(921, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "921" ] ] ] ] ] }, { "question": "How many Vancouver Island have the same area as Michigan?", "context": "CONTEXT:=F1: The area of Michigan is 2.504854E+11 m**2.=F2: The area of Vancouver Island is 6.312090E+07 times that of Basketball court.=F3: The area of Basketball court is 4.956215E+02 m**2.", "answer": "8.006803E+00", "program": "PROGRAM:=Q1: What is the area of Michigan?=Q2: What is the area of Vancouver Island?=Q3: What is the area of Basketball court?=Q4: What is the ratio of the area of Vancouver Island and that of Basketball court?=A1: 2.504854E+11 m**2=A2: 4.956215E+02 m**2=A3: 6.312090E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Michigan", "area" ] ], [ ".", [ "Vancouver Island", "area" ] ] ] ] ] }, { "question": "Assume Hawaii's area is half its value. How many Dublin have the same area as Hawaii?", "context": "CONTEXT:=F1: The area of Hawaii is 1.130213E-01 times that of Michigan.=F2: The area of Dublin is 3.175322E+08 m**2.=F3: The area of Michigan is 2.504854E+11 m**2.", "answer": "4.457845E+01", "program": "PROGRAM:=Q1: What is the area of Hawaii?=Q2: What is the area of Dublin?=Q3: What is the area of Michigan?=Q4: What is half the area of Hawaii?=Q5: What is the ratio of the area of Hawaii and that of Michigan?=A1: 3.175322E+08 m**2=A2: 2.504854E+11 m**2=A3: 1.130213E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hawaii", "area" ] ], [ ".", [ "Dublin", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 752 of Olympic Pool were to have the same density as nitrogen, how much would it weigh?", "context": "CONTEXT:=F1: The density of nitrogen is 5.883838E-01 times that of carbon dioxide.=F2: The volume of Olympic Pool is 2.500000E+03 m**3.=F3: The density of carbon dioxide is 1.980000E+06 kg * m ** -3.", "answer": "2.190200E+12 kg", "program": "PROGRAM:=Q1: What is the density of nitrogen?=Q2: What is the volume of Olympic Pool?=Q3: What is the density of carbon dioxide?=Q4: What is 752 times the volume of Olympic Pool?=Q5: What is the ratio of the density of nitrogen and that of carbon dioxide?=A1: 2.500000E+03 m**3=A2: 1.980000E+06 kg * m ** -3=A3: 5.883838E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 752)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Olympic Pool", "volume" ] ], [ ".", [ "nitrogen", "density" ] ] ] ], [ "", [ "752" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 358 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 7.692308E-05 times that of Bill Gates.=F2: The mass of Bill Gates is 6.500000E+01 kg.=F3: The total mass that needs to be reached is 358 kg.", "answer": "7.160000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Bill Gates?=Q3: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 358 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 7.692308E-05)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "358" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How long to digest 18 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.098000E+00 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 18 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(18, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "18" ] ] ] ] ] }, { "question": "Assume Empire State Building's length is half its value. How many Shambles have the same length as Empire State Building?", "context": "CONTEXT:=F1: The length of Empire State Building is 1.161318E+02 m.=F2: The length of Shambles is 2.546348E-02 times that of Kilimanjaro.=F3: The length of Kilimanjaro is 1.795513E+03 m.", "answer": "1.270033E+00", "program": "PROGRAM:=Q1: What is the length of Empire State Building?=Q2: What is the length of Shambles?=Q3: What is the length of Kilimanjaro?=Q4: What is half the length of Empire State Building?=Q5: What is the ratio of the length of Shambles and that of Kilimanjaro?=A1: 1.161318E+02 m=A2: 1.795513E+03 m=A3: 2.546348E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Empire State Building", "length" ] ], [ ".", [ "Shambles", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Skydiver (headfirst) to travel across English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The speed of Skydiver (headfirst) is 7.152640E+01 m/s.", "answer": "4.559659E+02 s", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the speed of Skydiver (headfirst)?=A1: 3.261360E+04 m=A2: 7.152640E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Skydiver (headfirst)", "speed" ] ] ] ] ] }, { "question": "How many Sheet of paper can 784 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.608000E+09 times that of Hairs.=F2: The cost of Sheet of paper is $1.600000E-02.=F3: The cost of Hairs is $5.000000E+01.", "answer": "6.389600E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is the cost of Hairs?=Q4: What is 784 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Hairs?=A1: $1.600000E-02=A2: $5.000000E+01=A3: 2.608000E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 784)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "784" ] ] ] ] ] }, { "question": "How long does it take for Skydiver (headfirst) to travel across Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 3.657600E+04 m.=F2: The speed of Skydiver (headfirst) is 9.090909E-01 times that of Helicopter.=F3: The speed of Helicopter is 7.867904E+01 m/s.", "answer": "5.113636E+02 s", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the speed of Skydiver (headfirst)?=Q3: What is the speed of Helicopter?=Q4: What is the ratio of the speed of Skydiver (headfirst) and the speed of Helicopter?=A1: 3.657600E+04 m=A2: 7.867904E+01 m/s=A3: 9.090909E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "Skydiver (headfirst)", "speed" ] ] ] ] ] }, { "question": "Assume Bill Gates's volume is half its value. How many Mars Bars make Bill Gates?", "context": "CONTEXT:=F1: The volume of Bill Gates is 1.369258E-05 times that of Bathtub.=F2: The volume of Mars Bars is 3.000000E-03 m**3.=F3: The volume of Bathtub is 4.528000E+03 m**3.", "answer": "1.033333E+01", "program": "PROGRAM:=Q1: What is the volume of Bill Gates?=Q2: What is the volume of Mars Bars?=Q3: What is the volume of Bathtub?=Q4: What is half the volume of Bill Gates?=Q5: What is the ratio of the volume of Bill Gates and that of Bathtub?=A1: 3.000000E-03 m**3=A2: 4.528000E+03 m**3=A3: 1.369258E-05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Bill Gates", "volume" ] ], [ ".", [ "Mars Bars", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Eiffel Tower's length is half its value. How many Giraffe have the same length as Eiffel Tower?", "context": "CONTEXT:=F1: The length of Eiffel Tower is 2.780161E-03 times that of 405.=F2: The length of Giraffe is 1.737360E+00 m.=F3: The length of 405 is 3.552139E+04 m.", "answer": "2.842105E+01", "program": "PROGRAM:=Q1: What is the length of Eiffel Tower?=Q2: What is the length of Giraffe?=Q3: What is the length of 405?=Q4: What is half the length of Eiffel Tower?=Q5: What is the ratio of the length of Eiffel Tower and that of 405?=A1: 1.737360E+00 m=A2: 3.552139E+04 m=A3: 2.780161E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Eiffel Tower", "length" ] ], [ ".", [ "Giraffe", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars can 110 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Mars Bars is $1.000000E+00.", "answer": "1.434400E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is 110 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+00=Q1 -> A1 | F1=Q3 -> Mul(Q1, 110)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "110" ] ] ] ] ] }, { "question": "How many Grain of Sand have the same length as Willis Tower?", "context": "CONTEXT:=F1: The length of Willis Tower is 1.584960E+02 m.=F2: The length of Grain of Sand is 3.810000E-04 m.", "answer": "4.160000E+05", "program": "PROGRAM:=Q1: What is the length of Willis Tower?=Q2: What is the length of Grain of Sand?=A1: 1.584960E+02 m=A2: 3.810000E-04 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Willis Tower", "length" ] ], [ ".", [ "Grain of Sand", "length" ] ] ] ] ] }, { "question": "Assume Tshwane's area is half its value. How many Isle of Man have the same area as Tshwane?", "context": "CONTEXT:=F1: The area of Tshwane is 6.367366E+09 m**2.=F2: The area of Isle of Man is 5.722640E+08 m**2.", "answer": "5.563312E+00", "program": "PROGRAM:=Q1: What is the area of Tshwane?=Q2: What is the area of Isle of Man?=Q3: What is half the area of Isle of Man?=A1: 6.367366E+09 m**2=A2: 5.722640E+08 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Tshwane", "area" ] ], [ ".", [ "Isle of Man", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Kentucky Derby's length is half its value. How many Bowling Lane have the same length as Kentucky Derby?", "context": "CONTEXT:=F1: The length of Kentucky Derby is 6.131601E+02 m.=F2: The length of Bowling Lane is 2.975920E-06 times that of Amazon River.=F3: The length of Amazon River is 1.961998E+06 m.", "answer": "5.250783E+01", "program": "PROGRAM:=Q1: What is the length of Kentucky Derby?=Q2: What is the length of Bowling Lane?=Q3: What is the length of Amazon River?=Q4: What is half the length of Kentucky Derby?=Q5: What is the ratio of the length of Bowling Lane and that of Amazon River?=A1: 6.131601E+02 m=A2: 1.961998E+06 m=A3: 2.975920E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Kentucky Derby", "length" ] ], [ ".", [ "Bowling Lane", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Lamborghini Gallardo to travel across Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 5.007200E+09 times that of Grain of Sand.=F2: The speed of Lamborghini Gallardo is 8.940800E+01 m/s.=F3: The length of Grain of Sand is 3.810000E-04 m.", "answer": "2.133750E+04 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the speed of Lamborghini Gallardo?=Q3: What is the length of Grain of Sand?=Q4: What is the ratio of the length of Great Wall of China (wall only) and the length of Grain of Sand?=A1: 8.940800E+01 m/s=A2: 3.810000E-04 m=A3: 5.007200E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Lamborghini Gallardo", "speed" ] ] ] ] ] }, { "question": "Assume Empire State Building's length is half its value. How many Human hair, Strand of have the same length as Empire State Building?", "context": "CONTEXT:=F1: The length of Empire State Building is 1.993673E-01 times that of Preakness Stakes.=F2: The length of Human hair, Strand of is 3.017520E-05 m.=F3: The length of Preakness Stakes is 5.825021E+02 m.", "answer": "1.924293E+06", "program": "PROGRAM:=Q1: What is the length of Empire State Building?=Q2: What is the length of Human hair, Strand of?=Q3: What is the length of Preakness Stakes?=Q4: What is half the length of Empire State Building?=Q5: What is the ratio of the length of Empire State Building and that of Preakness Stakes?=A1: 3.017520E-05 m=A2: 5.825021E+02 m=A3: 1.993673E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Empire State Building", "length" ] ], [ ".", [ "Human hair, Strand of", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Person make up 87 kgs?", "context": "CONTEXT:=F1: The mass of Person is 8.843537E-22 times that of Moon.=F2: The mass of Moon is 7.350000E+22 kg.=F3: The total mass that needs to be reached is 87 kg.", "answer": "1.338462E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the mass of Moon?=Q3: What is the total mass that needs to be reached?=A1: 7.350000E+22 kg=A2: 87 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 8.843537E-22)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "87" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many Wikipedia put together contain the same information as 371 of HDTV Television Show (30 Minutes)?", "context": "CONTEXT:=F1: The data of Wikipedia is 4.500000E+11 bytes.=F2: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.", "answer": "2.984489E+01", "program": "PROGRAM:=Q1: What is the data of Wikipedia?=Q2: What is the data of HDTV Television Show (30 Minutes)?=Q3: What is 371 times the data of HDTV Television Show (30 Minutes)?=A1: 4.500000E+11 bytes=A2: 3.620000E+10 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 371)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "HDTV Television Show (30 Minutes)", "data" ] ], [ ".", [ "Wikipedia", "data" ] ] ] ], [ "", [ "371" ] ] ] ] ] }, { "question": "Assume Giant Sequoia (tree)'s length is half its value. How many Glucose Molecule have the same length as Giant Sequoia (tree)?", "context": "CONTEXT:=F1: The length of Giant Sequoia (tree) is 2.316480E+01 m.=F2: The length of Glucose Molecule is 1.401869E-14 times that of English Channel.=F3: The length of English Channel is 3.261360E+04 m.", "answer": "2.533333E+10", "program": "PROGRAM:=Q1: What is the length of Giant Sequoia (tree)?=Q2: What is the length of Glucose Molecule?=Q3: What is the length of English Channel?=Q4: What is half the length of Giant Sequoia (tree)?=Q5: What is the ratio of the length of Glucose Molecule and that of English Channel?=A1: 2.316480E+01 m=A2: 3.261360E+04 m=A3: 1.401869E-14=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Giant Sequoia (tree)", "length" ] ], [ ".", [ "Glucose Molecule", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 629 of Car Gas Tank were to have the same density as air, how much would it weigh?", "context": "CONTEXT:=F1: The density of air is 2.142310E+03 kg * m ** -3.=F2: The volume of Car Gas Tank is 3.118288E-08 times that of Great Pyramid of Giza.=F3: The volume of Great Pyramid of Giza is 6.870148E+10 m**3.", "answer": "1.650703E+12 kg", "program": "PROGRAM:=Q1: What is the density of air?=Q2: What is the volume of Car Gas Tank?=Q3: What is the volume of Great Pyramid of Giza?=Q4: What is 629 times the volume of Car Gas Tank?=Q5: What is the ratio of the volume of Car Gas Tank and that of Great Pyramid of Giza?=A1: 2.142310E+03 kg * m ** -3=A2: 6.870148E+10 m**3=A3: 3.118288E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 629)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Car Gas Tank", "volume" ] ], [ ".", [ "air", "density" ] ] ] ], [ "", [ "629" ] ] ] ] ] }, { "question": "How many Child make up 239 kgs?", "context": "CONTEXT:=F1: The mass of Child is 1.000000E+03 times that of Hairs.=F2: The mass of Hairs is 3.000000E-02 kg.=F3: The total mass that needs to be reached is 239 kg.", "answer": "7.966667E+00", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the mass of Hairs?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 239 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E+03)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "239" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How many school fit on Grand Central Station?", "context": "CONTEXT:=F1: The area of Grand Central Station is 1.858000E+05 m**2.=F2: The area of school is 4.645000E+04 m**2.", "answer": "4.000000E+00", "program": "PROGRAM:=Q1: What is the area of Grand Central Station?=Q2: What is the area of school?=A1: 1.858000E+05 m**2=A2: 4.645000E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Grand Central Station", "area" ] ], [ ".", [ "school", "area" ] ] ] ] ] }, { "question": "How many Mackinac Island have the same area as Indianapolis?", "context": "CONTEXT:=F1: The area of Indianapolis is 9.364320E+08 m**2.=F2: The area of Mackinac Island is 1.738714E+01 times that of Disneyland.=F3: The area of Disneyland is 6.503000E+05 m**2.", "answer": "8.281982E+01", "program": "PROGRAM:=Q1: What is the area of Indianapolis?=Q2: What is the area of Mackinac Island?=Q3: What is the area of Disneyland?=Q4: What is the ratio of the area of Mackinac Island and that of Disneyland?=A1: 9.364320E+08 m**2=A2: 6.503000E+05 m**2=A3: 1.738714E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis", "area" ] ], [ ".", [ "Mackinac Island", "area" ] ] ] ] ] }, { "question": "If 569 of Car were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 8.000000E+00 kg * m ** -3.=F2: The volume of Car is 1.732142E-01 times that of Ostrich Egg.=F3: The volume of Ostrich Egg is 4.618560E+01 m**3.", "answer": "4.538344E+12 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Car?=Q3: What is the volume of Ostrich Egg?=Q4: What is 569 times the volume of Car?=Q5: What is the ratio of the volume of Car and that of Ostrich Egg?=A1: 8.000000E+00 kg * m ** -3=A2: 4.618560E+01 m**3=A3: 1.732142E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 569)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Car", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "569" ] ] ] ] ] }, { "question": "How many Human Brain put together contain the same information as 799 of Hubble Telescope?", "context": "CONTEXT:=F1: The data of Human Brain is 2.300000E+16 bytes.=F2: The data of Hubble Telescope is 1.100000E+15 bytes.", "answer": "3.821304E+01", "program": "PROGRAM:=Q1: What is the data of Human Brain?=Q2: What is the data of Hubble Telescope?=Q3: What is 799 times the data of Hubble Telescope?=A1: 2.300000E+16 bytes=A2: 1.100000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 799)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Hubble Telescope", "data" ] ], [ ".", [ "Human Brain", "data" ] ] ] ], [ "", [ "799" ] ] ] ] ] }, { "question": "How long to digest 737 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.495700E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 737 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(737, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "737" ] ] ] ] ] }, { "question": "Assume Trafalgar Square's area is half its value. How many Parking Space have the same area as Trafalgar Square?", "context": "CONTEXT:=F1: The area of Trafalgar Square is 1.566265E-01 times that of Buckingham Palace.=F2: The area of Parking Space is 1.495690E+01 m**2.=F3: The area of Buckingham Palace is 7.710700E+04 m**2.", "answer": "4.037267E+02", "program": "PROGRAM:=Q1: What is the area of Trafalgar Square?=Q2: What is the area of Parking Space?=Q3: What is the area of Buckingham Palace?=Q4: What is half the area of Trafalgar Square?=Q5: What is the ratio of the area of Trafalgar Square and that of Buckingham Palace?=A1: 1.495690E+01 m**2=A2: 7.710700E+04 m**2=A3: 1.566265E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Trafalgar Square", "area" ] ], [ ".", [ "Parking Space", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hairs make suitcase?", "context": "CONTEXT:=F1: The volume of suitcase is 1.415000E+03 m**3.=F2: The volume of Hairs is 3.000000E-07 m**3.", "answer": "4.716667E+09", "program": "PROGRAM:=Q1: What is the volume of suitcase?=Q2: What is the volume of Hairs?=A1: 1.415000E+03 m**3=A2: 3.000000E-07 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "suitcase", "volume" ] ], [ ".", [ "Hairs", "volume" ] ] ] ] ] }, { "question": "How many Gumball fit in head?", "context": "CONTEXT:=F1: The volume of head is 8.490000E+01 m**3.=F2: The volume of Gumball is 8.107861E-04 times that of Basketball (packed).=F3: The volume of Basketball (packed) is 3.141396E+02 m**3.", "answer": "3.333333E+02", "program": "PROGRAM:=Q1: What is the volume of head?=Q2: What is the volume of Gumball?=Q3: What is the volume of Basketball (packed)?=Q4: What is the ratio of the volume of Gumball and that of Basketball (packed)?=A1: 8.490000E+01 m**3=A2: 3.141396E+02 m**3=A3: 8.107861E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "head", "volume" ] ], [ ".", [ "Gumball", "volume" ] ] ] ] ] }, { "question": "How long to digest 449 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.738900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 449 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(449, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "449" ] ] ] ] ] }, { "question": "If 975 of Earth's Oceans were to have the same density as oxygen, how much would it weigh?", "context": "CONTEXT:=F1: The density of oxygen is 3.962000E+22 kg * m ** -3.=F2: The volume of Earth's Oceans is 1.250000E+24 times that of dollar bill.=F3: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "4.407626E+34 kg", "program": "PROGRAM:=Q1: What is the density of oxygen?=Q2: What is the volume of Earth's Oceans?=Q3: What is the volume of dollar bill?=Q4: What is 975 times the volume of Earth's Oceans?=Q5: What is the ratio of the volume of Earth's Oceans and that of dollar bill?=A1: 3.962000E+22 kg * m ** -3=A2: 3.169600E-02 m**3=A3: 1.250000E+24=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 975)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "oxygen", "density" ] ] ] ], [ "", [ "975" ] ] ] ] ] }, { "question": "How many Person make up 406 kgs?", "context": "CONTEXT:=F1: The mass of Person is 2.600000E-05 times that of Olympic Pool.=F2: The mass of Olympic Pool is 2.500000E+06 kg.=F3: The total mass that needs to be reached is 406 kg.", "answer": "6.246154E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the mass of Olympic Pool?=Q3: What is the total mass that needs to be reached?=A1: 2.500000E+06 kg=A2: 406 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 2.600000E-05)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "406" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "If 382 of suitcase were to have the same density as bone, how much would it weigh?", "context": "CONTEXT:=F1: The density of bone is 2.072426E+00 times that of ice.=F2: The volume of suitcase is 1.415000E+03 m**3.=F3: The density of ice is 9.168000E+08 kg * m ** -3.", "answer": "1.027007E+15 kg", "program": "PROGRAM:=Q1: What is the density of bone?=Q2: What is the volume of suitcase?=Q3: What is the density of ice?=Q4: What is 382 times the volume of suitcase?=Q5: What is the ratio of the density of bone and that of ice?=A1: 1.415000E+03 m**3=A2: 9.168000E+08 kg * m ** -3=A3: 2.072426E+00=Q2 -> A1 | F2=Q4 -> Mul(Q2, 382)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "suitcase", "volume" ] ], [ ".", [ "bone", "density" ] ] ] ], [ "", [ "382" ] ] ] ] ] }, { "question": "How many Hairs make up 94 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 94 kg.", "answer": "3.133333E+03", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 94 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "94" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How long does it take for Helicopter to travel across Rhine?", "context": "CONTEXT:=F1: The length of Rhine is 4.023360E+05 m.=F2: The speed of Helicopter is 7.867904E+01 m/s.", "answer": "5.113636E+03 s", "program": "PROGRAM:=Q1: What is the length of Rhine?=Q2: What is the speed of Helicopter?=A1: 4.023360E+05 m=A2: 7.867904E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Rhine", "length" ] ], [ ".", [ "Helicopter", "speed" ] ] ] ] ] }, { "question": "How long does it take for Secretariat to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 1.368552E+06 m.=F2: The speed of Secretariat is 1.874377E-01 times that of Arrow (archery).=F3: The speed of Arrow (archery) is 8.967622E+01 m/s.", "answer": "8.141925E+04 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of Secretariat?=Q3: What is the speed of Arrow (archery)?=Q4: What is the ratio of the speed of Secretariat and the speed of Arrow (archery)?=A1: 1.368552E+06 m=A2: 8.967622E+01 m/s=A3: 1.874377E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Secretariat", "speed" ] ] ] ] ] }, { "question": "If 122 of Bathtub were to have the same density as milk, how much would it weigh?", "context": "CONTEXT:=F1: The density of milk is 4.528000E+03 kg * m ** -3.=F2: The volume of Bathtub is 4.528000E+03 m**3.", "answer": "5.706457E+14 kg", "program": "PROGRAM:=Q1: What is the density of milk?=Q2: What is the volume of Bathtub?=Q3: What is 122 times the volume of Bathtub?=A1: 4.528000E+03 kg * m ** -3=A2: 4.528000E+03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 122)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bathtub", "volume" ] ], [ ".", [ "milk", "density" ] ] ] ], [ "", [ "122" ] ] ] ] ] }, { "question": "How many Bill Gates have the same length as Shanghai World Financial Center?", "context": "CONTEXT:=F1: The length of Shanghai World Financial Center is 1.499616E+02 m.=F2: The length of Bill Gates is 1.778000E+00 m.", "answer": "8.434286E+01", "program": "PROGRAM:=Q1: What is the length of Shanghai World Financial Center?=Q2: What is the length of Bill Gates?=A1: 1.499616E+02 m=A2: 1.778000E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Shanghai World Financial Center", "length" ] ], [ ".", [ "Bill Gates", "length" ] ] ] ] ] }, { "question": "How long to digest 903 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.508300E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 903 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(903, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "903" ] ] ] ] ] }, { "question": "How many Dog make up 307 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 1.000000E+03 times that of Hairs.=F2: The mass of Hairs is 3.000000E-02 kg.=F3: The total mass that needs to be reached is 307 kg.", "answer": "1.023333E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Hairs?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 307 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E+03)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "307" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How many LHC Data Generated per Second put together contain the same information as 21 of DVD?", "context": "CONTEXT:=F1: The data of LHC Data Generated per Second is 8.000000E+14 bytes.=F2: The data of DVD is 4.000000E+10 bytes.", "answer": "1.050000E-03", "program": "PROGRAM:=Q1: What is the data of LHC Data Generated per Second?=Q2: What is the data of DVD?=Q3: What is 21 times the data of DVD?=A1: 8.000000E+14 bytes=A2: 4.000000E+10 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 21)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "DVD", "data" ] ], [ ".", [ "LHC Data Generated per Second", "data" ] ] ] ], [ "", [ "21" ] ] ] ] ] }, { "question": "If 58 of Golf Ball were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 1.151368E+00 kg * m ** -3.=F2: The volume of Golf Ball is 2.906027E-23 times that of Earth's Oceans.=F3: The volume of Earth's Oceans is 3.962000E+22 m**3.", "answer": "6.657899E+10 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Golf Ball?=Q3: What is the volume of Earth's Oceans?=Q4: What is 58 times the volume of Golf Ball?=Q5: What is the ratio of the volume of Golf Ball and that of Earth's Oceans?=A1: 1.151368E+00 kg * m ** -3=A2: 3.962000E+22 m**3=A3: 2.906027E-23=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 58)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Golf Ball", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "58" ] ] ] ] ] }, { "question": "Assume Lake Superior's area is half its value. How many Kangaroo Island have the same area as Lake Superior?", "context": "CONTEXT:=F1: The area of Lake Superior is 8.212360E+10 m**2.=F2: The area of Kangaroo Island is 4.405318E+09 m**2.", "answer": "9.320962E+00", "program": "PROGRAM:=Q1: What is the area of Lake Superior?=Q2: What is the area of Kangaroo Island?=Q3: What is half the area of Kangaroo Island?=A1: 8.212360E+10 m**2=A2: 4.405318E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lake Superior", "area" ] ], [ ".", [ "Kangaroo Island", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 14 of Bowling Ball (packed) were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 2.330038E+02 kg * m ** -3.=F2: The volume of Bowling Ball (packed) is 2.330038E+02 m**3.", "answer": "2.990650E+12 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Bowling Ball (packed)?=Q3: What is 14 times the volume of Bowling Ball (packed)?=A1: 2.330038E+02 kg * m ** -3=A2: 2.330038E+02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 14)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bowling Ball (packed)", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "14" ] ] ] ] ] }, { "question": "How many Human hair, Strand of have the same length as Olympus Mons?", "context": "CONTEXT:=F1: The length of Olympus Mons is 8.229600E+03 m.=F2: The length of Human hair, Strand of is 5.823529E-02 times that of Strand of Spaghetti (thickness).=F3: The length of Strand of Spaghetti (thickness) is 5.181600E-04 m.", "answer": "2.727273E+08", "program": "PROGRAM:=Q1: What is the length of Olympus Mons?=Q2: What is the length of Human hair, Strand of?=Q3: What is the length of Strand of Spaghetti (thickness)?=Q4: What is the ratio of the length of Human hair, Strand of and that of Strand of Spaghetti (thickness)?=A1: 8.229600E+03 m=A2: 5.181600E-04 m=A3: 5.823529E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Olympus Mons", "length" ] ], [ ".", [ "Human hair, Strand of", "length" ] ] ] ] ] }, { "question": "How many Dog make up 43 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 43 kg.", "answer": "1.433333E+00", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 43 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "43" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "Assume Great Pyramid of Giza's volume is half its value. How many Tennis Ball make Great Pyramid of Giza?", "context": "CONTEXT:=F1: The volume of Great Pyramid of Giza is 6.870148E+10 m**3.=F2: The volume of Tennis Ball is 4.457250E+04 times that of Sheet of paper.=F3: The volume of Sheet of paper is 1.000000E-04 m**3.", "answer": "7.706711E+09", "program": "PROGRAM:=Q1: What is the volume of Great Pyramid of Giza?=Q2: What is the volume of Tennis Ball?=Q3: What is the volume of Sheet of paper?=Q4: What is half the volume of Great Pyramid of Giza?=Q5: What is the ratio of the volume of Tennis Ball and that of Sheet of paper?=A1: 6.870148E+10 m**3=A2: 1.000000E-04 m**3=A3: 4.457250E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Great Pyramid of Giza", "volume" ] ], [ ".", [ "Tennis Ball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Blood in a Human Body have the same volume as Goodyear Blimp?", "context": "CONTEXT:=F1: The volume of Goodyear Blimp is 1.624420E+08 m**3.=F2: The volume of Blood in a Human Body is 6.954103E-03 times that of Hot Tub.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "1.148000E+06", "program": "PROGRAM:=Q1: What is the volume of Goodyear Blimp?=Q2: What is the volume of Blood in a Human Body?=Q3: What is the volume of Hot Tub?=Q4: What is the ratio of the volume of Blood in a Human Body and that of Hot Tub?=A1: 1.624420E+08 m**3=A2: 2.034770E+04 m**3=A3: 6.954103E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Goodyear Blimp", "volume" ] ], [ ".", [ "Blood in a Human Body", "volume" ] ] ] ] ] }, { "question": "How long does it take for Bullet (Rifle) to travel across Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 1.171762E+08 m.=F2: The speed of Bullet (Rifle) is 9.164320E+02 m/s.", "answer": "1.278614E+05 s", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the speed of Bullet (Rifle)?=A1: 1.171762E+08 m=A2: 9.164320E+02 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Bullet (Rifle)", "speed" ] ] ] ] ] }, { "question": "If 855 of Basketball (packed) were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 8.045574E-01 times that of oxygen.=F2: The volume of Basketball (packed) is 3.141396E+02 m**3.=F3: The density of oxygen is 1.141000E+09 kg * m ** -3.", "answer": "2.465650E+14 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Basketball (packed)?=Q3: What is the density of oxygen?=Q4: What is 855 times the volume of Basketball (packed)?=Q5: What is the ratio of the density of fat and that of oxygen?=A1: 3.141396E+02 m**3=A2: 1.141000E+09 kg * m ** -3=A3: 8.045574E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 855)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Basketball (packed)", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "855" ] ] ] ] ] }, { "question": "How many Rizal Park have the same area as Isle of Man?", "context": "CONTEXT:=F1: The area of Isle of Man is 5.722640E+08 m**2.=F2: The area of Rizal Park is 4.161074E+00 times that of Pentagon.=F3: The area of Pentagon is 1.384210E+05 m**2.", "answer": "9.935484E+02", "program": "PROGRAM:=Q1: What is the area of Isle of Man?=Q2: What is the area of Rizal Park?=Q3: What is the area of Pentagon?=Q4: What is the ratio of the area of Rizal Park and that of Pentagon?=A1: 5.722640E+08 m**2=A2: 1.384210E+05 m**2=A3: 4.161074E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Isle of Man", "area" ] ], [ ".", [ "Rizal Park", "area" ] ] ] ] ] }, { "question": "Assume Rhine's length is half its value. How many Hadrian's Wall have the same length as Rhine?", "context": "CONTEXT:=F1: The length of Rhine is 4.023360E+05 m.=F2: The length of Hadrian's Wall is 3.657600E+04 m.", "answer": "5.500000E+00", "program": "PROGRAM:=Q1: What is the length of Rhine?=Q2: What is the length of Hadrian's Wall?=Q3: What is half the length of Rhine?=A1: 4.023360E+05 m=A2: 3.657600E+04 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Rhine", "length" ] ], [ ".", [ "Hadrian's Wall", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Mauna Loa's length is half its value. How many Space Needle have the same length as Mauna Loa?", "context": "CONTEXT:=F1: The length of Mauna Loa is 2.794406E+03 m.=F2: The length of Space Needle is 5.608320E+01 m.", "answer": "2.491304E+01", "program": "PROGRAM:=Q1: What is the length of Mauna Loa?=Q2: What is the length of Space Needle?=Q3: What is half the length of Mauna Loa?=A1: 2.794406E+03 m=A2: 5.608320E+01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mauna Loa", "length" ] ], [ ".", [ "Space Needle", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Puck (Hockey) make Bathtub?", "context": "CONTEXT:=F1: The volume of Bathtub is 1.600000E+04 times that of Gumball (packed).=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.=F3: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "1.381295E+03", "program": "PROGRAM:=Q1: What is the volume of Bathtub?=Q2: What is the volume of Puck (Hockey)?=Q3: What is the volume of Gumball (packed)?=Q4: What is the ratio of the volume of Bathtub and that of Gumball (packed)?=A1: 3.278083E+00 m**3=A2: 2.830000E-01 m**3=A3: 1.600000E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Bathtub", "volume" ] ], [ ".", [ "Puck (Hockey)", "volume" ] ] ] ] ] }, { "question": "How many Hairs can 44 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is $5.000000E+01.", "answer": "1.147520E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is 44 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $5.000000E+01=Q1 -> A1 | F1=Q3 -> Mul(Q1, 44)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "44" ] ] ] ] ] }, { "question": "Assume Lake Erie's area is half its value. How many Toronto Pearson International Airport (YYZ) fit on Lake Erie?", "context": "CONTEXT:=F1: The area of Lake Erie is 3.676186E+10 times that of Child.=F2: The area of Toronto Pearson International Airport (YYZ) is 1.827343E+07 m**2.=F3: The area of Child is 7.000000E-01 m**2.", "answer": "7.041179E+02", "program": "PROGRAM:=Q1: What is the area of Lake Erie?=Q2: What is the area of Toronto Pearson International Airport (YYZ)?=Q3: What is the area of Child?=Q4: What is half the area of Lake Erie?=Q5: What is the ratio of the area of Lake Erie and that of Child?=A1: 1.827343E+07 m**2=A2: 7.000000E-01 m**2=A3: 3.676186E+10=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lake Erie", "area" ] ], [ ".", [ "Toronto Pearson International Airport (YYZ)", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Car have the same length as Giraffe?", "context": "CONTEXT:=F1: The length of Giraffe is 1.737360E+00 m.=F2: The length of Car is 1.524000E+00 m.", "answer": "1.140000E+00", "program": "PROGRAM:=Q1: What is the length of Giraffe?=Q2: What is the length of Car?=A1: 1.737360E+00 m=A2: 1.524000E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Giraffe", "length" ] ], [ ".", [ "Car", "length" ] ] ] ] ] }, { "question": "How many United States Capitol have the same area as Alaska?", "context": "CONTEXT:=F1: The area of Alaska is 1.717798E+12 m**2.=F2: The area of United States Capitol is 2.480159E-04 times that of Indianapolis.=F3: The area of Indianapolis is 9.364320E+08 m**2.", "answer": "7.396332E+06", "program": "PROGRAM:=Q1: What is the area of Alaska?=Q2: What is the area of United States Capitol?=Q3: What is the area of Indianapolis?=Q4: What is the ratio of the area of United States Capitol and that of Indianapolis?=A1: 1.717798E+12 m**2=A2: 9.364320E+08 m**2=A3: 2.480159E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Alaska", "area" ] ], [ ".", [ "United States Capitol", "area" ] ] ] ] ] }, { "question": "How long does it take for TGV (train) to travel across Denali?", "context": "CONTEXT:=F1: The length of Denali is 1.887626E+03 times that of Child.=F2: The speed of TGV (train) is 8.940800E+01 m/s.=F3: The length of Child is 1.000000E+00 m.", "answer": "2.111250E+01 s", "program": "PROGRAM:=Q1: What is the length of Denali?=Q2: What is the speed of TGV (train)?=Q3: What is the length of Child?=Q4: What is the ratio of the length of Denali and the length of Child?=A1: 8.940800E+01 m/s=A2: 1.000000E+00 m=A3: 1.887626E+03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Denali", "length" ] ], [ ".", [ "TGV (train)", "speed" ] ] ] ] ] }, { "question": "How long to digest 900 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.490000E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 900 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(900, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "900" ] ] ] ] ] }, { "question": "How long to digest 212 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.293200E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 212 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(212, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "212" ] ] ] ] ] }, { "question": "How many Human Stomach make Spaceship Earth (EPCOT Center)?", "context": "CONTEXT:=F1: The volume of Spaceship Earth (EPCOT Center) is 1.754600E+09 m**3.=F2: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "3.100000E+07", "program": "PROGRAM:=Q1: What is the volume of Spaceship Earth (EPCOT Center)?=Q2: What is the volume of Human Stomach?=A1: 1.754600E+09 m**3=A2: 5.660000E+01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Spaceship Earth (EPCOT Center)", "volume" ] ], [ ".", [ "Human Stomach", "volume" ] ] ] ] ] }, { "question": "How many Car can 176 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is $4.000000E+04.", "answer": "5.737600E+08", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is 176 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.000000E+04=Q1 -> A1 | F1=Q3 -> Mul(Q1, 176)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "176" ] ] ] ] ] }, { "question": "Assume Earth's volume is half its value. How many Golf Ball (packed) have the same volume as Earth?", "context": "CONTEXT:=F1: The volume of Earth is 1.100000E+21 m**3.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "3.057234E+20", "program": "PROGRAM:=Q1: What is the volume of Earth?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is half the volume of Earth?=A1: 1.100000E+21 m**3=A2: 1.799012E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth", "volume" ] ], [ ".", [ "Golf Ball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dime fit on Monaco?", "context": "CONTEXT:=F1: The area of Monaco is 1.858000E+06 m**2.=F2: The area of Dime is 2.518519E-04 m**2.", "answer": "7.377352E+09", "program": "PROGRAM:=Q1: What is the area of Monaco?=Q2: What is the area of Dime?=A1: 1.858000E+06 m**2=A2: 2.518519E-04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Monaco", "area" ] ], [ ".", [ "Dime", "area" ] ] ] ] ] }, { "question": "How many Dog make up 487 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 487 kg.", "answer": "1.623333E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 487 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "487" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How many Bathtub make Sydney Harbour?", "context": "CONTEXT:=F1: The volume of Sydney Harbour is 1.590460E+13 m**3.=F2: The volume of Bathtub is 6.573541E-17 times that of Gulf of Mexico.=F3: The volume of Gulf of Mexico is 6.888220E+19 m**3.", "answer": "3.512500E+09", "program": "PROGRAM:=Q1: What is the volume of Sydney Harbour?=Q2: What is the volume of Bathtub?=Q3: What is the volume of Gulf of Mexico?=Q4: What is the ratio of the volume of Bathtub and that of Gulf of Mexico?=A1: 1.590460E+13 m**3=A2: 6.888220E+19 m**3=A3: 6.573541E-17=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "Bathtub", "volume" ] ] ] ] ] }, { "question": "How many IRS Compliance Database put together contain the same information as 384 of HDTV Television Show (30 Minutes)?", "context": "CONTEXT:=F1: The data of IRS Compliance Database is 5.652174E-02 times that of Human Brain.=F2: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.=F3: The data of Human Brain is 2.300000E+16 bytes.", "answer": "1.069292E-02", "program": "PROGRAM:=Q1: What is the data of IRS Compliance Database?=Q2: What is the data of HDTV Television Show (30 Minutes)?=Q3: What is the data of Human Brain?=Q4: What is 384 times the data of HDTV Television Show (30 Minutes)?=Q5: What is the ratio of the data of IRS Compliance Database and that of Human Brain?=A1: 3.620000E+10 bytes=A2: 2.300000E+16 bytes=A3: 5.652174E-02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 384)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "HDTV Television Show (30 Minutes)", "data" ] ], [ ".", [ "IRS Compliance Database", "data" ] ] ] ], [ "", [ "384" ] ] ] ] ] }, { "question": "If 173 of Mars Bars were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 3.000000E-03 kg * m ** -3.=F2: The volume of Mars Bars is 1.060071E-02 times that of Gumball (packed).=F3: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "5.174430E+08 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Mars Bars?=Q3: What is the volume of Gumball (packed)?=Q4: What is 173 times the volume of Mars Bars?=Q5: What is the ratio of the volume of Mars Bars and that of Gumball (packed)?=A1: 3.000000E-03 kg * m ** -3=A2: 2.830000E-01 m**3=A3: 1.060071E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 173)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Mars Bars", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "173" ] ] ] ] ] }, { "question": "If 555 of Gulf of Mexico were to have the same density as nitrogen, how much would it weigh?", "context": "CONTEXT:=F1: The density of nitrogen is 6.888220E+19 kg * m ** -3.=F2: The volume of Gulf of Mexico is 8.610275E+18 times that of Car.=F3: The volume of Car is 8.000000E+00 m**3.", "answer": "4.453751E+28 kg", "program": "PROGRAM:=Q1: What is the density of nitrogen?=Q2: What is the volume of Gulf of Mexico?=Q3: What is the volume of Car?=Q4: What is 555 times the volume of Gulf of Mexico?=Q5: What is the ratio of the volume of Gulf of Mexico and that of Car?=A1: 6.888220E+19 kg * m ** -3=A2: 8.000000E+00 m**3=A3: 8.610275E+18=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 555)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "nitrogen", "density" ] ] ] ], [ "", [ "555" ] ] ] ] ] }, { "question": "How many Melbourne Cricket Ground make Moon?", "context": "CONTEXT:=F1: The volume of Moon is 6.680733E+18 times that of Puck (Hockey).=F2: The volume of Melbourne Cricket Ground is 4.811000E+10 m**3.=F3: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "4.552068E+08", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of Melbourne Cricket Ground?=Q3: What is the volume of Puck (Hockey)?=Q4: What is the ratio of the volume of Moon and that of Puck (Hockey)?=A1: 4.811000E+10 m**3=A2: 3.278083E+00 m**3=A3: 6.680733E+18=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "Melbourne Cricket Ground", "volume" ] ] ] ] ] }, { "question": "How many Bill Gates make up 163 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 163 kg.", "answer": "2.507692E+00", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 163 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "163" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "If 157 of suitcase were to have the same density as milk, how much would it weigh?", "context": "CONTEXT:=F1: The density of milk is 1.415000E+03 kg * m ** -3.=F2: The volume of suitcase is 2.941176E-08 times that of Melbourne Cricket Ground.=F3: The volume of Melbourne Cricket Ground is 4.811000E+10 m**3.", "answer": "2.294861E+14 kg", "program": "PROGRAM:=Q1: What is the density of milk?=Q2: What is the volume of suitcase?=Q3: What is the volume of Melbourne Cricket Ground?=Q4: What is 157 times the volume of suitcase?=Q5: What is the ratio of the volume of suitcase and that of Melbourne Cricket Ground?=A1: 1.415000E+03 kg * m ** -3=A2: 4.811000E+10 m**3=A3: 2.941176E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 157)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "suitcase", "volume" ] ], [ ".", [ "milk", "density" ] ] ] ], [ "", [ "157" ] ] ] ] ] }, { "question": "How many Ancestry.com's Census Records put together contain the same information as 252 of Google Earth database?", "context": "CONTEXT:=F1: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.=F2: The data of Google Earth database is 1.441860E+03 times that of Blu-ray Disc.=F3: The data of Blu-ray Disc is 4.300000E+11 bytes.", "answer": "3.124800E+01", "program": "PROGRAM:=Q1: What is the data of Ancestry.com's Census Records?=Q2: What is the data of Google Earth database?=Q3: What is the data of Blu-ray Disc?=Q4: What is 252 times the data of Google Earth database?=Q5: What is the ratio of the data of Google Earth database and that of Blu-ray Disc?=A1: 5.000000E+15 bytes=A2: 4.300000E+11 bytes=A3: 1.441860E+03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 252)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google Earth database", "data" ] ], [ ".", [ "Ancestry.com's Census Records", "data" ] ] ] ], [ "", [ "252" ] ] ] ] ] }, { "question": "How long does it take for Meteor to travel across Indianapolis Motor Speedway?", "context": "CONTEXT:=F1: The length of Indianapolis Motor Speedway is 1.226320E+03 m.=F2: The speed of Meteor is 4.202176E+04 m/s.", "answer": "2.918298E-02 s", "program": "PROGRAM:=Q1: What is the length of Indianapolis Motor Speedway?=Q2: What is the speed of Meteor?=A1: 1.226320E+03 m=A2: 4.202176E+04 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis Motor Speedway", "length" ] ], [ ".", [ "Meteor", "speed" ] ] ] ] ] }, { "question": "How long does it take for bolt of Lightning to travel across Colorado River?", "context": "CONTEXT:=F1: The length of Colorado River is 7.101840E+05 m.=F2: The speed of bolt of Lightning is 9.834880E+04 m/s.", "answer": "7.221074E+00 s", "program": "PROGRAM:=Q1: What is the length of Colorado River?=Q2: What is the speed of bolt of Lightning?=A1: 7.101840E+05 m=A2: 9.834880E+04 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Colorado River", "length" ] ], [ ".", [ "bolt of Lightning", "speed" ] ] ] ] ] }, { "question": "Assume Royal Albert Hall's volume is half its value. How many Child fit in Royal Albert Hall?", "context": "CONTEXT:=F1: The volume of Royal Albert Hall is 9.627778E+09 times that of Gumball.=F2: The volume of Child is 3.000000E-02 m**3.=F3: The volume of Gumball is 2.547000E-01 m**3.", "answer": "4.086992E+10", "program": "PROGRAM:=Q1: What is the volume of Royal Albert Hall?=Q2: What is the volume of Child?=Q3: What is the volume of Gumball?=Q4: What is half the volume of Royal Albert Hall?=Q5: What is the ratio of the volume of Royal Albert Hall and that of Gumball?=A1: 3.000000E-02 m**3=A2: 2.547000E-01 m**3=A3: 9.627778E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Royal Albert Hall", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Federation Square's area is half its value. How many Fort Knox have the same area as Federation Square?", "context": "CONTEXT:=F1: The area of Federation Square is 4.100000E-03 times that of Sydney Kingsford Smith Airport (SYD).=F2: The area of Fort Knox is 1.179830E+03 m**2.=F3: The area of Sydney Kingsford Smith Airport (SYD) is 9.290000E+06 m**2.", "answer": "1.614173E+01", "program": "PROGRAM:=Q1: What is the area of Federation Square?=Q2: What is the area of Fort Knox?=Q3: What is the area of Sydney Kingsford Smith Airport (SYD)?=Q4: What is half the area of Federation Square?=Q5: What is the ratio of the area of Federation Square and that of Sydney Kingsford Smith Airport (SYD)?=A1: 1.179830E+03 m**2=A2: 9.290000E+06 m**2=A3: 4.100000E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Federation Square", "area" ] ], [ ".", [ "Fort Knox", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 261 of Bowling Ball were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 1.491224E+02 kg * m ** -3.=F2: The volume of Bowling Ball is 4.704771E+03 times that of dollar bill.=F3: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "3.880419E+13 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Bowling Ball?=Q3: What is the volume of dollar bill?=Q4: What is 261 times the volume of Bowling Ball?=Q5: What is the ratio of the volume of Bowling Ball and that of dollar bill?=A1: 1.491224E+02 kg * m ** -3=A2: 3.169600E-02 m**3=A3: 4.704771E+03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 261)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bowling Ball", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "261" ] ] ] ] ] }, { "question": "How long does it take for Flo-Jo to travel across Indianapolis Motor Speedway?", "context": "CONTEXT:=F1: The length of Indianapolis Motor Speedway is 1.793741E+00 times that of Beast (Roller Coaster).=F2: The speed of Flo-Jo is 9.369958E+00 m/s.=F3: The length of Beast (Roller Coaster) is 6.836664E+02 m.", "answer": "1.308779E+02 s", "program": "PROGRAM:=Q1: What is the length of Indianapolis Motor Speedway?=Q2: What is the speed of Flo-Jo?=Q3: What is the length of Beast (Roller Coaster)?=Q4: What is the ratio of the length of Indianapolis Motor Speedway and the length of Beast (Roller Coaster)?=A1: 9.369958E+00 m/s=A2: 6.836664E+02 m=A3: 1.793741E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis Motor Speedway", "length" ] ], [ ".", [ "Flo-Jo", "speed" ] ] ] ] ] }, { "question": "How many Elephant fit in Hot Tub?", "context": "CONTEXT:=F1: The volume of Hot Tub is 2.034770E+04 m**3.=F2: The volume of Elephant is 7.000000E+00 m**3.", "answer": "2.906814E+03", "program": "PROGRAM:=Q1: What is the volume of Hot Tub?=Q2: What is the volume of Elephant?=A1: 2.034770E+04 m**3=A2: 7.000000E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Hot Tub", "volume" ] ], [ ".", [ "Elephant", "volume" ] ] ] ] ] }, { "question": "Assume Distance from Earth to the Moon's length is half its value. How many Spring Temple Buddha have the same length as Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 4.224577E+08 times that of General Tom Thumb.=F2: The length of Spring Temple Buddha is 4.663440E+01 m.=F3: The length of General Tom Thumb is 2.773680E-01 m.", "answer": "1.256328E+06", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the length of Spring Temple Buddha?=Q3: What is the length of General Tom Thumb?=Q4: What is half the length of Distance from Earth to the Moon?=Q5: What is the ratio of the length of Distance from Earth to the Moon and that of General Tom Thumb?=A1: 4.663440E+01 m=A2: 2.773680E-01 m=A3: 4.224577E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Spring Temple Buddha", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Wikipedia put together contain the same information as 742 of Floppy Disk (3½-in)?", "context": "CONTEXT:=F1: The data of Wikipedia is 4.500000E+11 bytes.=F2: The data of Floppy Disk (3½-in) is 2.949125E-04 times that of DVD.=F3: The data of DVD is 4.000000E+10 bytes.", "answer": "1.945112E-02", "program": "PROGRAM:=Q1: What is the data of Wikipedia?=Q2: What is the data of Floppy Disk (3½-in)?=Q3: What is the data of DVD?=Q4: What is 742 times the data of Floppy Disk (3½-in)?=Q5: What is the ratio of the data of Floppy Disk (3½-in) and that of DVD?=A1: 4.500000E+11 bytes=A2: 4.000000E+10 bytes=A3: 2.949125E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 742)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Floppy Disk (3½-in)", "data" ] ], [ ".", [ "Wikipedia", "data" ] ] ] ], [ "", [ "742" ] ] ] ] ] }, { "question": "If 156 of Royal Albert Hall were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 2.452195E+09 kg * m ** -3.=F2: The volume of Royal Albert Hall is 2.452195E+09 m**3.", "answer": "4.590509E+20 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of Royal Albert Hall?=Q3: What is 156 times the volume of Royal Albert Hall?=A1: 2.452195E+09 kg * m ** -3=A2: 2.452195E+09 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 156)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Royal Albert Hall", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "156" ] ] ] ] ] }, { "question": "How many Croke Park fit on Los Angeles?", "context": "CONTEXT:=F1: The area of Los Angeles is 2.025220E+10 times that of Sheet of paper.=F2: The area of Croke Park is 6.503000E+04 m**2.=F3: The area of Sheet of paper is 6.000000E-02 m**2.", "answer": "1.868571E+04", "program": "PROGRAM:=Q1: What is the area of Los Angeles?=Q2: What is the area of Croke Park?=Q3: What is the area of Sheet of paper?=Q4: What is the ratio of the area of Los Angeles and that of Sheet of paper?=A1: 6.503000E+04 m**2=A2: 6.000000E-02 m**2=A3: 2.025220E+10=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Los Angeles", "area" ] ], [ ".", [ "Croke Park", "area" ] ] ] ] ] }, { "question": "Assume St. Paul's Cathedral's length is half its value. How many King Size Bed have the same length as St. Paul's Cathedral?", "context": "CONTEXT:=F1: The length of St. Paul's Cathedral is 5.303520E+01 m.=F2: The length of King Size Bed is 3.934934E-02 times that of Nelson's Column.=F3: The length of Nelson's Column is 1.573987E+01 m.", "answer": "4.281496E+01", "program": "PROGRAM:=Q1: What is the length of St. Paul's Cathedral?=Q2: What is the length of King Size Bed?=Q3: What is the length of Nelson's Column?=Q4: What is half the length of St. Paul's Cathedral?=Q5: What is the ratio of the length of King Size Bed and that of Nelson's Column?=A1: 5.303520E+01 m=A2: 1.573987E+01 m=A3: 3.934934E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "St. Paul's Cathedral", "length" ] ], [ ".", [ "King Size Bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Bullet (Rifle) to travel across Vinson Massif?", "context": "CONTEXT:=F1: The length of Vinson Massif is 1.491082E+03 m.=F2: The speed of Bullet (Rifle) is 9.164320E+02 m/s.", "answer": "1.627051E+00 s", "program": "PROGRAM:=Q1: What is the length of Vinson Massif?=Q2: What is the speed of Bullet (Rifle)?=A1: 1.491082E+03 m=A2: 9.164320E+02 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Vinson Massif", "length" ] ], [ ".", [ "Bullet (Rifle)", "speed" ] ] ] ] ] }, { "question": "How many Post-it® Note (3M) fit on Rizal Park?", "context": "CONTEXT:=F1: The area of Rizal Park is 5.759800E+05 m**2.=F2: The area of Post-it® Note (3M) is 9.034268E-14 times that of Lake Huron.=F3: The area of Lake Huron is 5.964180E+10 m**2.", "answer": "1.068966E+08", "program": "PROGRAM:=Q1: What is the area of Rizal Park?=Q2: What is the area of Post-it® Note (3M)?=Q3: What is the area of Lake Huron?=Q4: What is the ratio of the area of Post-it® Note (3M) and that of Lake Huron?=A1: 5.759800E+05 m**2=A2: 5.964180E+10 m**2=A3: 9.034268E-14=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Rizal Park", "area" ] ], [ ".", [ "Post-it® Note (3M)", "area" ] ] ] ] ] }, { "question": "How many Car can 195 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+11 times that of Mars Bars.=F2: The cost of Car is $4.000000E+04.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "6.357000E+08", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is the cost of Mars Bars?=Q4: What is 195 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Mars Bars?=A1: $4.000000E+04=A2: $1.000000E+00=A3: 1.304000E+11=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 195)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "195" ] ] ] ] ] }, { "question": "How many Spaceship Earth (EPCOT Center) have the same volume as Houston Astrodome?", "context": "CONTEXT:=F1: The volume of Houston Astrodome is 3.396000E+10 m**3.=F2: The volume of Spaceship Earth (EPCOT Center) is 1.754600E+09 m**3.", "answer": "1.935484E+01", "program": "PROGRAM:=Q1: What is the volume of Houston Astrodome?=Q2: What is the volume of Spaceship Earth (EPCOT Center)?=A1: 3.396000E+10 m**3=A2: 1.754600E+09 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "Spaceship Earth (EPCOT Center)", "volume" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's volume is half its value. How many Elephant fit in Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F2: The volume of Elephant is 4.213796E-03 times that of Beer Keg.=F3: The volume of Beer Keg is 1.661210E+03 m**3.", "answer": "5.174857E+07", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Elephant?=Q3: What is the volume of Beer Keg?=Q4: What is half the volume of Lincoln Memorial Reflecting Pool?=Q5: What is the ratio of the volume of Elephant and that of Beer Keg?=A1: 7.244800E+08 m**3=A2: 1.661210E+03 m**3=A3: 4.213796E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Elephant", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Soccer City 's area is half its value. How many Trafalgar Square have the same area as Soccer City ?", "context": "CONTEXT:=F1: The area of Soccer City is 2.415400E+05 m**2.=F2: The area of Trafalgar Square is 4.577465E-05 times that of Edinburgh.=F3: The area of Edinburgh is 2.638360E+08 m**2.", "answer": "1.000000E+01", "program": "PROGRAM:=Q1: What is the area of Soccer City ?=Q2: What is the area of Trafalgar Square?=Q3: What is the area of Edinburgh?=Q4: What is half the area of Soccer City ?=Q5: What is the ratio of the area of Trafalgar Square and that of Edinburgh?=A1: 2.415400E+05 m**2=A2: 2.638360E+08 m**2=A3: 4.577465E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Soccer City ", "area" ] ], [ ".", [ "Trafalgar Square", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Mount Logan's length is half its value. How many Car have the same length as Mount Logan?", "context": "CONTEXT:=F1: The length of Mount Logan is 1.816303E+03 m.=F2: The length of Car is 5.000000E+04 times that of sheet of Paper.=F3: The length of sheet of Paper is 3.048000E-05 m.", "answer": "5.959000E+02", "program": "PROGRAM:=Q1: What is the length of Mount Logan?=Q2: What is the length of Car?=Q3: What is the length of sheet of Paper?=Q4: What is half the length of Mount Logan?=Q5: What is the ratio of the length of Car and that of sheet of Paper?=A1: 1.816303E+03 m=A2: 3.048000E-05 m=A3: 5.000000E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Logan", "length" ] ], [ ".", [ "Car", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Shaq have the same length as Bill Gates?", "context": "CONTEXT:=F1: The length of Bill Gates is 1.778000E+00 m.=F2: The length of Shaq is 3.859649E-01 times that of Giraffe.=F3: The length of Giraffe is 1.737360E+00 m.", "answer": "2.651515E+00", "program": "PROGRAM:=Q1: What is the length of Bill Gates?=Q2: What is the length of Shaq?=Q3: What is the length of Giraffe?=Q4: What is the ratio of the length of Shaq and that of Giraffe?=A1: 1.778000E+00 m=A2: 1.737360E+00 m=A3: 3.859649E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Bill Gates", "length" ] ], [ ".", [ "Shaq", "length" ] ] ] ] ] }, { "question": "How many Person make up 324 kgs?", "context": "CONTEXT:=F1: The mass of Person is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 324 kg.", "answer": "4.984615E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 324 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "324" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many Child fit in Baseball?", "context": "CONTEXT:=F1: The volume of Baseball is 5.953600E+00 m**3.=F2: The volume of Child is 1.796730E-03 times that of STARBUCKS Venti Coffee.=F3: The volume of STARBUCKS Venti Coffee is 1.669700E+01 m**3.", "answer": "1.984533E+02", "program": "PROGRAM:=Q1: What is the volume of Baseball?=Q2: What is the volume of Child?=Q3: What is the volume of STARBUCKS Venti Coffee?=Q4: What is the ratio of the volume of Child and that of STARBUCKS Venti Coffee?=A1: 5.953600E+00 m**3=A2: 1.669700E+01 m**3=A3: 1.796730E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Baseball", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ] ] }, { "question": "How many Disneyland fit on Earth?", "context": "CONTEXT:=F1: The area of Earth is 5.100000E+14 m**2.=F2: The area of Disneyland is 1.624884E+07 times that of Apple iPad.=F3: The area of Apple iPad is 4.002132E-02 m**2.", "answer": "7.842534E+08", "program": "PROGRAM:=Q1: What is the area of Earth?=Q2: What is the area of Disneyland?=Q3: What is the area of Apple iPad?=Q4: What is the ratio of the area of Disneyland and that of Apple iPad?=A1: 5.100000E+14 m**2=A2: 4.002132E-02 m**2=A3: 1.624884E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Earth", "area" ] ], [ ".", [ "Disneyland", "area" ] ] ] ] ] }, { "question": "If 460 of Gulf of Mexico were to have the same density as steel, how much would it weigh?", "context": "CONTEXT:=F1: The density of steel is 6.888220E+19 kg * m ** -3.=F2: The volume of Gulf of Mexico is 6.888220E+19 m**3.", "answer": "2.487336E+32 kg", "program": "PROGRAM:=Q1: What is the density of steel?=Q2: What is the volume of Gulf of Mexico?=Q3: What is 460 times the volume of Gulf of Mexico?=A1: 6.888220E+19 kg * m ** -3=A2: 6.888220E+19 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 460)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "steel", "density" ] ] ] ], [ "", [ "460" ] ] ] ] ] }, { "question": "Assume Ostankino Tower's length is half its value. How many Man's Footstep have the same length as Ostankino Tower?", "context": "CONTEXT:=F1: The length of Ostankino Tower is 1.645920E+02 m.=F2: The length of Man's Footstep is 2.407920E-01 m.", "answer": "3.417722E+02", "program": "PROGRAM:=Q1: What is the length of Ostankino Tower?=Q2: What is the length of Man's Footstep?=Q3: What is half the length of Ostankino Tower?=A1: 1.645920E+02 m=A2: 2.407920E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Ostankino Tower", "length" ] ], [ ".", [ "Man's Footstep", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Circumfrence of Earth's length is half its value. How many sheet of Paper have the same length as Circumfrence of Earth?", "context": "CONTEXT:=F1: The length of Circumfrence of Earth is 1.221486E+07 m.=F2: The length of sheet of Paper is 3.048000E-05 m.", "answer": "2.003751E+11", "program": "PROGRAM:=Q1: What is the length of Circumfrence of Earth?=Q2: What is the length of sheet of Paper?=Q3: What is half the length of Circumfrence of Earth?=A1: 1.221486E+07 m=A2: 3.048000E-05 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Circumfrence of Earth", "length" ] ], [ ".", [ "sheet of Paper", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Great Wall of China (wall only)'s length is half its value. How many Washington Monument have the same length as Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 1.393987E+00 times that of Distance from L.A. to New York.=F2: The length of Washington Monument is 5.159959E+01 m.=F3: The length of Distance from L.A. to New York is 1.368552E+06 m.", "answer": "1.848603E+04", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the length of Washington Monument?=Q3: What is the length of Distance from L.A. to New York?=Q4: What is half the length of Great Wall of China (wall only)?=Q5: What is the ratio of the length of Great Wall of China (wall only) and that of Distance from L.A. to New York?=A1: 5.159959E+01 m=A2: 1.368552E+06 m=A3: 1.393987E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Washington Monument", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 320 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.952000E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 320 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(320, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "320" ] ] ] ] ] }, { "question": "How many Google Earth database put together contain the same information as 28 of Ancestry.com's Census Records?", "context": "CONTEXT:=F1: The data of Google Earth database is 6.200000E+14 bytes.=F2: The data of Ancestry.com's Census Records is 6.250000E+00 times that of LHC Data Generated per Second.=F3: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "2.258065E+02", "program": "PROGRAM:=Q1: What is the data of Google Earth database?=Q2: What is the data of Ancestry.com's Census Records?=Q3: What is the data of LHC Data Generated per Second?=Q4: What is 28 times the data of Ancestry.com's Census Records?=Q5: What is the ratio of the data of Ancestry.com's Census Records and that of LHC Data Generated per Second?=A1: 6.200000E+14 bytes=A2: 8.000000E+14 bytes=A3: 6.250000E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 28)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Ancestry.com's Census Records", "data" ] ], [ ".", [ "Google Earth database", "data" ] ] ] ], [ "", [ "28" ] ] ] ] ] }, { "question": "How long does it take for CRH (train) to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 9.123680E+05 times that of Person.=F2: The speed of CRH (train) is 9.834880E+01 m/s.=F3: The length of Person is 1.500000E+00 m.", "answer": "1.391529E+04 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of CRH (train)?=Q3: What is the length of Person?=Q4: What is the ratio of the length of Distance from L.A. to New York and the length of Person?=A1: 9.834880E+01 m/s=A2: 1.500000E+00 m=A3: 9.123680E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "CRH (train)", "speed" ] ] ] ] ] }, { "question": "How many Dog make up 152 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 152 kg.", "answer": "5.066667E+00", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 152 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "152" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How many Nucleus (Cellular) have the same length as Preakness Stakes?", "context": "CONTEXT:=F1: The length of Preakness Stakes is 1.016540E+09 times that of Mitochondrion.=F2: The length of Nucleus (Cellular) is 1.828800E-06 m.=F3: The length of Mitochondrion is 5.730240E-07 m.", "answer": "3.185160E+08", "program": "PROGRAM:=Q1: What is the length of Preakness Stakes?=Q2: What is the length of Nucleus (Cellular)?=Q3: What is the length of Mitochondrion?=Q4: What is the ratio of the length of Preakness Stakes and that of Mitochondrion?=A1: 1.828800E-06 m=A2: 5.730240E-07 m=A3: 1.016540E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Preakness Stakes", "length" ] ], [ ".", [ "Nucleus (Cellular)", "length" ] ] ] ] ] }, { "question": "How long does it take for bolt of Lightning to travel across Diameter of Earth?", "context": "CONTEXT:=F1: The length of Diameter of Earth is 3.888112E+06 m.=F2: The speed of bolt of Lightning is 9.834880E+04 m/s.", "answer": "3.953390E+01 s", "program": "PROGRAM:=Q1: What is the length of Diameter of Earth?=Q2: What is the speed of bolt of Lightning?=A1: 3.888112E+06 m=A2: 9.834880E+04 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Diameter of Earth", "length" ] ], [ ".", [ "bolt of Lightning", "speed" ] ] ] ] ] }, { "question": "Assume Football (Soccer)'s volume is half its value. How many Marshmallow have the same volume as Football (Soccer)?", "context": "CONTEXT:=F1: The volume of Football (Soccer) is 9.375000E-04 times that of Bathtub.=F2: The volume of Marshmallow is 8.490000E-01 m**3.=F3: The volume of Bathtub is 4.528000E+03 m**3.", "answer": "2.500000E+00", "program": "PROGRAM:=Q1: What is the volume of Football (Soccer)?=Q2: What is the volume of Marshmallow?=Q3: What is the volume of Bathtub?=Q4: What is half the volume of Football (Soccer)?=Q5: What is the ratio of the volume of Football (Soccer) and that of Bathtub?=A1: 8.490000E-01 m**3=A2: 4.528000E+03 m**3=A3: 9.375000E-04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Football (Soccer)", "volume" ] ], [ ".", [ "Marshmallow", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Lake Huron's area is half its value. How many Buckingham Palace fit on Lake Huron?", "context": "CONTEXT:=F1: The area of Lake Huron is 5.964180E+10 m**2.=F2: The area of Buckingham Palace is 6.287879E-05 times that of Phoenix.=F3: The area of Phoenix is 1.226280E+09 m**2.", "answer": "3.867470E+05", "program": "PROGRAM:=Q1: What is the area of Lake Huron?=Q2: What is the area of Buckingham Palace?=Q3: What is the area of Phoenix?=Q4: What is half the area of Lake Huron?=Q5: What is the ratio of the area of Buckingham Palace and that of Phoenix?=A1: 5.964180E+10 m**2=A2: 1.226280E+09 m**2=A3: 6.287879E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lake Huron", "area" ] ], [ ".", [ "Buckingham Palace", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 713 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 2.500000E-06 times that of Car.=F2: The mass of Car is 2.000000E+03 kg.=F3: The total mass that needs to be reached is 713 kg.", "answer": "1.426000E+05", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Car?=Q3: What is the total mass that needs to be reached?=A1: 2.000000E+03 kg=A2: 713 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 2.500000E-06)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "713" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Bill Gates can 144 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is 2.650407E-03 times that of Polonium-241.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "1.440000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Polonium-241?=Q4: What is 144 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Polonium-241?=A1: $1.304000E+11=A2: $4.920000E+13=A3: 2.650407E-03=Q1 -> A1 | F1=Q4 -> Mul(Q1, 144)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "144" ] ] ] ] ] }, { "question": "Assume Brazil's area is half its value. How many Palace of Holyroodhouse have the same area as Brazil?", "context": "CONTEXT:=F1: The area of Brazil is 5.237335E+08 times that of Biltmore Estate.=F2: The area of Palace of Holyroodhouse is 8.082300E+03 m**2.=F3: The area of Biltmore Estate is 1.625750E+04 m**2.", "answer": "5.267435E+08", "program": "PROGRAM:=Q1: What is the area of Brazil?=Q2: What is the area of Palace of Holyroodhouse?=Q3: What is the area of Biltmore Estate?=Q4: What is half the area of Brazil?=Q5: What is the ratio of the area of Brazil and that of Biltmore Estate?=A1: 8.082300E+03 m**2=A2: 1.625750E+04 m**2=A3: 5.237335E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Brazil", "area" ] ], [ ".", [ "Palace of Holyroodhouse", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 281 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.714100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 281 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(281, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "281" ] ] ] ] ] }, { "question": "How long does it take for Cheetah to travel across Challenger Deep (Marianas Trench)?", "context": "CONTEXT:=F1: The length of Challenger Deep (Marianas Trench) is 3.322930E+03 m.=F2: The speed of Cheetah is 2.367241E+01 times that of Walking Pedestrians (in Manhattan).=F3: The speed of Walking Pedestrians (in Manhattan) is 1.296416E+00 m/s.", "answer": "1.082765E+02 s", "program": "PROGRAM:=Q1: What is the length of Challenger Deep (Marianas Trench)?=Q2: What is the speed of Cheetah?=Q3: What is the speed of Walking Pedestrians (in Manhattan)?=Q4: What is the ratio of the speed of Cheetah and the speed of Walking Pedestrians (in Manhattan)?=A1: 3.322930E+03 m=A2: 1.296416E+00 m/s=A3: 2.367241E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Challenger Deep (Marianas Trench)", "length" ] ], [ ".", [ "Cheetah", "speed" ] ] ] ] ] }, { "question": "How many Mitochondrion have the same length as Wingspan of a 747?", "context": "CONTEXT:=F1: The length of Wingspan of a 747 is 3.405114E+00 times that of Cricket Pitch.=F2: The length of Mitochondrion is 5.730240E-07 m.=F3: The length of Cricket Pitch is 6.131601E+00 m.", "answer": "3.643617E+07", "program": "PROGRAM:=Q1: What is the length of Wingspan of a 747?=Q2: What is the length of Mitochondrion?=Q3: What is the length of Cricket Pitch?=Q4: What is the ratio of the length of Wingspan of a 747 and that of Cricket Pitch?=A1: 5.730240E-07 m=A2: 6.131601E+00 m=A3: 3.405114E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Wingspan of a 747", "length" ] ], [ ".", [ "Mitochondrion", "length" ] ] ] ] ] }, { "question": "How long to digest 369 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.250900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 369 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(369, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "369" ] ] ] ] ] }, { "question": "Assume Phoenix's area is half its value. How many Central Park have the same area as Phoenix?", "context": "CONTEXT:=F1: The area of Phoenix is 9.810240E+05 times that of Olympic Pool.=F2: The area of Central Park is 3.409430E+06 m**2.=F3: The area of Olympic Pool is 1.250000E+03 m**2.", "answer": "1.798365E+02", "program": "PROGRAM:=Q1: What is the area of Phoenix?=Q2: What is the area of Central Park?=Q3: What is the area of Olympic Pool?=Q4: What is half the area of Phoenix?=Q5: What is the ratio of the area of Phoenix and that of Olympic Pool?=A1: 3.409430E+06 m**2=A2: 1.250000E+03 m**2=A3: 9.810240E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Phoenix", "area" ] ], [ ".", [ "Central Park", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Crocodile to travel across Diameter of Earth?", "context": "CONTEXT:=F1: The length of Diameter of Earth is 2.750364E+00 times that of I-80.=F2: The speed of Crocodile is 2.682240E+00 m/s.=F3: The length of I-80 is 1.413672E+06 m.", "answer": "1.449576E+06 s", "program": "PROGRAM:=Q1: What is the length of Diameter of Earth?=Q2: What is the speed of Crocodile?=Q3: What is the length of I-80?=Q4: What is the ratio of the length of Diameter of Earth and the length of I-80?=A1: 2.682240E+00 m/s=A2: 1.413672E+06 m=A3: 2.750364E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Diameter of Earth", "length" ] ], [ ".", [ "Crocodile", "speed" ] ] ] ] ] }, { "question": "How long to digest 614 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.745400E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 614 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(614, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "614" ] ] ] ] ] }, { "question": "How many suitcase have the same length as Queen Size Bed?", "context": "CONTEXT:=F1: The length of Queen Size Bed is 2.185181E-02 times that of Statue of Liberty.=F2: The length of suitcase is 1.828800E-01 m.=F3: The length of Statue of Liberty is 2.834335E+01 m.", "answer": "3.386667E+00", "program": "PROGRAM:=Q1: What is the length of Queen Size Bed?=Q2: What is the length of suitcase?=Q3: What is the length of Statue of Liberty?=Q4: What is the ratio of the length of Queen Size Bed and that of Statue of Liberty?=A1: 1.828800E-01 m=A2: 2.834335E+01 m=A3: 2.185181E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Queen Size Bed", "length" ] ], [ ".", [ "suitcase", "length" ] ] ] ] ] }, { "question": "If 481 of Sun were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 1.400000E+27 kg * m ** -3.=F2: The volume of Sun is 1.400000E+27 m**3.", "answer": "6.181812E+38 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Sun?=Q3: What is 481 times the volume of Sun?=A1: 1.400000E+27 kg * m ** -3=A2: 1.400000E+27 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 481)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Sun", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "481" ] ] ] ] ] }, { "question": "How many Hairs can 501 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 3.260000E+06 times that of Car.=F2: The cost of Hairs is $5.000000E+01.=F3: The cost of Car is $4.000000E+04.", "answer": "1.306608E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Car?=Q4: What is 501 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Car?=A1: $5.000000E+01=A2: $4.000000E+04=A3: 3.260000E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 501)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "501" ] ] ] ] ] }, { "question": "How many Hairs can 425 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is $5.000000E+01.", "answer": "1.108400E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is 425 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $5.000000E+01=Q1 -> A1 | F1=Q3 -> Mul(Q1, 425)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "425" ] ] ] ] ] }, { "question": "Assume Moon's area is half its value. How many Dime have the same area as Moon?", "context": "CONTEXT:=F1: The area of Moon is 3.800000E+13 m**2.=F2: The area of Dime is 2.518519E-04 m**2.", "answer": "7.544116E+16", "program": "PROGRAM:=Q1: What is the area of Moon?=Q2: What is the area of Dime?=Q3: What is half the area of Dime?=A1: 3.800000E+13 m**2=A2: 2.518519E-04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "area" ] ], [ ".", [ "Dime", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Ancestry.com's Census Records put together contain the same information as 795 of US Census Bureau?", "context": "CONTEXT:=F1: The data of Ancestry.com's Census Records is 6.250000E+00 times that of LHC Data Generated per Second.=F2: The data of US Census Bureau is 2.300000E+16 bytes.=F3: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "3.657000E+03", "program": "PROGRAM:=Q1: What is the data of Ancestry.com's Census Records?=Q2: What is the data of US Census Bureau?=Q3: What is the data of LHC Data Generated per Second?=Q4: What is 795 times the data of US Census Bureau?=Q5: What is the ratio of the data of Ancestry.com's Census Records and that of LHC Data Generated per Second?=A1: 2.300000E+16 bytes=A2: 8.000000E+14 bytes=A3: 6.250000E+00=Q2 -> A1 | F2=Q4 -> Mul(Q2, 795)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "US Census Bureau", "data" ] ], [ ".", [ "Ancestry.com's Census Records", "data" ] ] ] ], [ "", [ "795" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 108 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 5.000000E-03 kg.=F2: The total mass that needs to be reached is 108 kg.", "answer": "2.160000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 108 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "108" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Person make Tennis Ball?", "context": "CONTEXT:=F1: The volume of Tennis Ball is 4.457250E+00 m**3.=F2: The volume of Person is 6.000000E-02 m**3.", "answer": "7.428750E+01", "program": "PROGRAM:=Q1: What is the volume of Tennis Ball?=Q2: What is the volume of Person?=A1: 4.457250E+00 m**3=A2: 6.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Tennis Ball", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ] ] }, { "question": "Assume Manchester Cathedral's area is half its value. How many Apple iPad fit on Manchester Cathedral?", "context": "CONTEXT:=F1: The area of Manchester Cathedral is 1.238357E+03 m**2.=F2: The area of Apple iPad is 4.002132E-02 m**2.", "answer": "1.547122E+04", "program": "PROGRAM:=Q1: What is the area of Manchester Cathedral?=Q2: What is the area of Apple iPad?=Q3: What is half the area of Apple iPad?=A1: 1.238357E+03 m**2=A2: 4.002132E-02 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Manchester Cathedral", "area" ] ], [ ".", [ "Apple iPad", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 697 of Houston Astrodome were to have the same density as carbon dioxide, how much would it weigh?", "context": "CONTEXT:=F1: The density of carbon dioxide is 2.159686E-03 times that of ice.=F2: The volume of Houston Astrodome is 3.396000E+10 m**3.=F3: The density of ice is 9.168000E+08 kg * m ** -3.", "answer": "4.686684E+19 kg", "program": "PROGRAM:=Q1: What is the density of carbon dioxide?=Q2: What is the volume of Houston Astrodome?=Q3: What is the density of ice?=Q4: What is 697 times the volume of Houston Astrodome?=Q5: What is the ratio of the density of carbon dioxide and that of ice?=A1: 3.396000E+10 m**3=A2: 9.168000E+08 kg * m ** -3=A3: 2.159686E-03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 697)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "carbon dioxide", "density" ] ] ] ], [ "", [ "697" ] ] ] ] ] }, { "question": "How many Soccer City fit on Inis M\u00f3r?", "context": "CONTEXT:=F1: The area of Inis M\u00f3r is 3.065700E+07 m**2.=F2: The area of Soccer City is 2.415400E+05 m**2.", "answer": "1.269231E+02", "program": "PROGRAM:=Q1: What is the area of Inis M\u00f3r?=Q2: What is the area of Soccer City ?=A1: 3.065700E+07 m**2=A2: 2.415400E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Inis M\u00f3r", "area" ] ], [ ".", [ "Soccer City ", "area" ] ] ] ] ] }, { "question": "If 40 of Great Pyramid of Giza were to have the same density as carbon dioxide, how much would it weigh?", "context": "CONTEXT:=F1: The density of carbon dioxide is 6.870148E+10 kg * m ** -3.=F2: The volume of Great Pyramid of Giza is 6.870148E+10 m**3.", "answer": "5.441157E+18 kg", "program": "PROGRAM:=Q1: What is the density of carbon dioxide?=Q2: What is the volume of Great Pyramid of Giza?=Q3: What is 40 times the volume of Great Pyramid of Giza?=A1: 6.870148E+10 kg * m ** -3=A2: 6.870148E+10 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 40)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Great Pyramid of Giza", "volume" ] ], [ ".", [ "carbon dioxide", "density" ] ] ] ], [ "", [ "40" ] ] ] ] ] }, { "question": "How many Child make Sydney Harbour?", "context": "CONTEXT:=F1: The volume of Sydney Harbour is 1.590460E+13 m**3.=F2: The volume of Child is 1.796730E-03 times that of STARBUCKS Venti Coffee.=F3: The volume of STARBUCKS Venti Coffee is 1.669700E+01 m**3.", "answer": "5.301533E+14", "program": "PROGRAM:=Q1: What is the volume of Sydney Harbour?=Q2: What is the volume of Child?=Q3: What is the volume of STARBUCKS Venti Coffee?=Q4: What is the ratio of the volume of Child and that of STARBUCKS Venti Coffee?=A1: 1.590460E+13 m**3=A2: 1.669700E+01 m**3=A3: 1.796730E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ] ] }, { "question": "Assume Hot Air Balloon's volume is half its value. How many Tennis Ball have the same volume as Hot Air Balloon?", "context": "CONTEXT:=F1: The volume of Hot Air Balloon is 4.175093E+05 times that of Bowling Ball.=F2: The volume of Tennis Ball is 4.457250E+00 m**3.=F3: The volume of Bowling Ball is 1.491224E+02 m**3.", "answer": "6.984127E+06", "program": "PROGRAM:=Q1: What is the volume of Hot Air Balloon?=Q2: What is the volume of Tennis Ball?=Q3: What is the volume of Bowling Ball?=Q4: What is half the volume of Hot Air Balloon?=Q5: What is the ratio of the volume of Hot Air Balloon and that of Bowling Ball?=A1: 4.457250E+00 m**3=A2: 1.491224E+02 m**3=A3: 4.175093E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hot Air Balloon", "volume" ] ], [ ".", [ "Tennis Ball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Curveball (baseball) to travel across Daytona International Speedway?", "context": "CONTEXT:=F1: The length of Daytona International Speedway is 1.226320E+03 m.=F2: The speed of Curveball (baseball) is 4.750000E-01 times that of Skydiver (headfirst).=F3: The speed of Skydiver (headfirst) is 7.152640E+01 m/s.", "answer": "3.609474E+01 s", "program": "PROGRAM:=Q1: What is the length of Daytona International Speedway?=Q2: What is the speed of Curveball (baseball)?=Q3: What is the speed of Skydiver (headfirst)?=Q4: What is the ratio of the speed of Curveball (baseball) and the speed of Skydiver (headfirst)?=A1: 1.226320E+03 m=A2: 7.152640E+01 m/s=A3: 4.750000E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Daytona International Speedway", "length" ] ], [ ".", [ "Curveball (baseball)", "speed" ] ] ] ] ] }, { "question": "How many Baseball make Blood Donation?", "context": "CONTEXT:=F1: The volume of Blood Donation is 7.038074E-02 times that of Basketball.=F2: The volume of Baseball is 5.953600E+00 m**3.=F3: The volume of Basketball is 2.010493E+02 m**3.", "answer": "2.376713E+00", "program": "PROGRAM:=Q1: What is the volume of Blood Donation?=Q2: What is the volume of Baseball?=Q3: What is the volume of Basketball?=Q4: What is the ratio of the volume of Blood Donation and that of Basketball?=A1: 5.953600E+00 m**3=A2: 2.010493E+02 m**3=A3: 7.038074E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Blood Donation", "volume" ] ], [ ".", [ "Baseball", "volume" ] ] ] ] ] }, { "question": "If 866 of Gumball (packed) were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 2.830000E-01 kg * m ** -3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "2.249816E+11 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Gumball (packed)?=Q3: What is 866 times the volume of Gumball (packed)?=A1: 2.830000E-01 kg * m ** -3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 866)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Gumball (packed)", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "866" ] ] ] ] ] }, { "question": "How long does it take for Porsche 911 to travel across Mississippi River?", "context": "CONTEXT:=F1: The length of Mississippi River is 1.147877E+06 m.=F2: The speed of Porsche 911 is 9.119616E+01 m/s.", "answer": "1.258690E+04 s", "program": "PROGRAM:=Q1: What is the length of Mississippi River?=Q2: What is the speed of Porsche 911?=A1: 1.147877E+06 m=A2: 9.119616E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mississippi River", "length" ] ], [ ".", [ "Porsche 911", "speed" ] ] ] ] ] }, { "question": "How many Bill Gates can 142 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Bill Gates is $1.304000E+11.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "1.420000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Bathtub?=Q4: What is 142 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $1.304000E+11=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 142)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "142" ] ] ] ] ] }, { "question": "How many dollar bill have the same length as Spring Temple Buddha?", "context": "CONTEXT:=F1: The length of Spring Temple Buddha is 1.275000E-03 times that of Hadrian's Wall.=F2: The length of dollar bill is 4.645152E-02 m.=F3: The length of Hadrian's Wall is 3.657600E+04 m.", "answer": "1.003937E+03", "program": "PROGRAM:=Q1: What is the length of Spring Temple Buddha?=Q2: What is the length of dollar bill?=Q3: What is the length of Hadrian's Wall?=Q4: What is the ratio of the length of Spring Temple Buddha and that of Hadrian's Wall?=A1: 4.645152E-02 m=A2: 3.657600E+04 m=A3: 1.275000E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Spring Temple Buddha", "length" ] ], [ ".", [ "dollar bill", "length" ] ] ] ] ] }, { "question": "How many Dog make up 232 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 8.571429E-03 times that of Elephant.=F2: The mass of Elephant is 3.500000E+03 kg.=F3: The total mass that needs to be reached is 232 kg.", "answer": "7.733333E+00", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Elephant?=Q3: What is the total mass that needs to be reached?=A1: 3.500000E+03 kg=A2: 232 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 8.571429E-03)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "232" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How long to digest 45 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.745000E+00 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 45 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(45, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "45" ] ] ] ] ] }, { "question": "Assume Burj Dubai's length is half its value. How many Empire State Building have the same length as Burj Dubai?", "context": "CONTEXT:=F1: The length of Burj Dubai is 5.914286E+02 times that of Gary Coleman.=F2: The length of Empire State Building is 1.161318E+02 m.=F3: The length of Gary Coleman is 4.267200E-01 m.", "answer": "1.086586E+00", "program": "PROGRAM:=Q1: What is the length of Burj Dubai?=Q2: What is the length of Empire State Building?=Q3: What is the length of Gary Coleman?=Q4: What is half the length of Burj Dubai?=Q5: What is the ratio of the length of Burj Dubai and that of Gary Coleman?=A1: 1.161318E+02 m=A2: 4.267200E-01 m=A3: 5.914286E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Burj Dubai", "length" ] ], [ ".", [ "Empire State Building", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hairs make up 197 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 197 kg.", "answer": "6.566667E+03", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 197 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "197" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How long does it take for Tornado to travel across Hollywood Walk of Fame?", "context": "CONTEXT:=F1: The length of Hollywood Walk of Fame is 1.188720E+03 m.=F2: The speed of Tornado is 5.520944E+01 m/s.", "answer": "2.153110E+01 s", "program": "PROGRAM:=Q1: What is the length of Hollywood Walk of Fame?=Q2: What is the speed of Tornado?=A1: 1.188720E+03 m=A2: 5.520944E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hollywood Walk of Fame", "length" ] ], [ ".", [ "Tornado", "speed" ] ] ] ] ] }, { "question": "How long to digest 260 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.586000E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 260 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(260, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "260" ] ] ] ] ] }, { "question": "How long does it take for Skydiver (headfirst) to travel across Circumfrence of Earth?", "context": "CONTEXT:=F1: The length of Circumfrence of Earth is 3.035986E+01 times that of Rhine.=F2: The speed of Skydiver (headfirst) is 7.152640E+01 m/s.=F3: The length of Rhine is 4.023360E+05 m.", "answer": "1.707742E+05 s", "program": "PROGRAM:=Q1: What is the length of Circumfrence of Earth?=Q2: What is the speed of Skydiver (headfirst)?=Q3: What is the length of Rhine?=Q4: What is the ratio of the length of Circumfrence of Earth and the length of Rhine?=A1: 7.152640E+01 m/s=A2: 4.023360E+05 m=A3: 3.035986E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Circumfrence of Earth", "length" ] ], [ ".", [ "Skydiver (headfirst)", "speed" ] ] ] ] ] }, { "question": "If 719 of dollar bill were to have the same density as carbon dioxide, how much would it weigh?", "context": "CONTEXT:=F1: The density of carbon dioxide is 2.159686E-03 times that of ice.=F2: The volume of dollar bill is 3.169600E-02 m**3.=F3: The density of ice is 9.168000E+08 kg * m ** -3.", "answer": "4.512306E+07 kg", "program": "PROGRAM:=Q1: What is the density of carbon dioxide?=Q2: What is the volume of dollar bill?=Q3: What is the density of ice?=Q4: What is 719 times the volume of dollar bill?=Q5: What is the ratio of the density of carbon dioxide and that of ice?=A1: 3.169600E-02 m**3=A2: 9.168000E+08 kg * m ** -3=A3: 2.159686E-03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 719)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "dollar bill", "volume" ] ], [ ".", [ "carbon dioxide", "density" ] ] ] ], [ "", [ "719" ] ] ] ] ] }, { "question": "If 129 of Concrete Mixer Truck were to have the same density as air, how much would it weigh?", "context": "CONTEXT:=F1: The density of air is 3.113000E+05 kg * m ** -3.=F2: The volume of Concrete Mixer Truck is 1.873935E+02 times that of Beer Keg.=F3: The volume of Beer Keg is 1.661210E+03 m**3.", "answer": "4.919318E+13 kg", "program": "PROGRAM:=Q1: What is the density of air?=Q2: What is the volume of Concrete Mixer Truck?=Q3: What is the volume of Beer Keg?=Q4: What is 129 times the volume of Concrete Mixer Truck?=Q5: What is the ratio of the volume of Concrete Mixer Truck and that of Beer Keg?=A1: 3.113000E+05 kg * m ** -3=A2: 1.661210E+03 m**3=A3: 1.873935E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 129)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Concrete Mixer Truck", "volume" ] ], [ ".", [ "air", "density" ] ] ] ], [ "", [ "129" ] ] ] ] ] }, { "question": "If 364 of Lincoln Memorial Reflecting Pool were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 7.244800E+08 kg * m ** -3.=F2: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.", "answer": "2.109686E+20 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Lincoln Memorial Reflecting Pool?=Q3: What is 364 times the volume of Lincoln Memorial Reflecting Pool?=A1: 7.244800E+08 kg * m ** -3=A2: 7.244800E+08 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 364)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "364" ] ] ] ] ] }, { "question": "How many Complete Works of William Shakespeare put together contain the same information as 882 of Magnetic Stripe Card?", "context": "CONTEXT:=F1: The data of Complete Works of William Shakespeare is 4.400000E+07 bytes.=F2: The data of Magnetic Stripe Card is 8.000000E+02 bytes.", "answer": "1.603636E-02", "program": "PROGRAM:=Q1: What is the data of Complete Works of William Shakespeare?=Q2: What is the data of Magnetic Stripe Card?=Q3: What is 882 times the data of Magnetic Stripe Card?=A1: 4.400000E+07 bytes=A2: 8.000000E+02 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 882)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Magnetic Stripe Card", "data" ] ], [ ".", [ "Complete Works of William Shakespeare", "data" ] ] ] ], [ "", [ "882" ] ] ] ] ] }, { "question": "Assume Hot Air Balloon's volume is half its value. How many Mars Bars make Hot Air Balloon?", "context": "CONTEXT:=F1: The volume of Hot Air Balloon is 6.226000E+07 m**3.=F2: The volume of Mars Bars is 3.000000E-03 m**3.", "answer": "1.037667E+10", "program": "PROGRAM:=Q1: What is the volume of Hot Air Balloon?=Q2: What is the volume of Mars Bars?=Q3: What is half the volume of Hot Air Balloon?=A1: 6.226000E+07 m**3=A2: 3.000000E-03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hot Air Balloon", "volume" ] ], [ ".", [ "Mars Bars", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Usain Bolt to travel across Great Wall of China (total)?", "context": "CONTEXT:=F1: The length of Great Wall of China (total) is 2.697480E+06 m.=F2: The speed of Usain Bolt is 2.500000E-01 times that of Fastball (baseball).=F3: The speed of Fastball (baseball) is 4.112768E+01 m/s.", "answer": "2.623518E+05 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (total)?=Q2: What is the speed of Usain Bolt?=Q3: What is the speed of Fastball (baseball)?=Q4: What is the ratio of the speed of Usain Bolt and the speed of Fastball (baseball)?=A1: 2.697480E+06 m=A2: 4.112768E+01 m/s=A3: 2.500000E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (total)", "length" ] ], [ ".", [ "Usain Bolt", "speed" ] ] ] ] ] }, { "question": "How many London fit on Hawaii (Island)?", "context": "CONTEXT:=F1: The area of Hawaii (Island) is 6.235092E+02 times that of O. R. Tambo International Airport (JNB).=F2: The area of London is 1.579300E+09 m**2.=F3: The area of O. R. Tambo International Airport (JNB) is 1.673129E+07 m**2.", "answer": "6.605529E+00", "program": "PROGRAM:=Q1: What is the area of Hawaii (Island)?=Q2: What is the area of London?=Q3: What is the area of O. R. Tambo International Airport (JNB)?=Q4: What is the ratio of the area of Hawaii (Island) and that of O. R. Tambo International Airport (JNB)?=A1: 1.579300E+09 m**2=A2: 1.673129E+07 m**2=A3: 6.235092E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Hawaii (Island)", "area" ] ], [ ".", [ "London", "area" ] ] ] ] ] }, { "question": "How many dollar bill have the same volume as Blood Donation?", "context": "CONTEXT:=F1: The volume of Blood Donation is 1.000000E-02 times that of suitcase.=F2: The volume of dollar bill is 3.169600E-02 m**3.=F3: The volume of suitcase is 1.415000E+03 m**3.", "answer": "4.464286E+02", "program": "PROGRAM:=Q1: What is the volume of Blood Donation?=Q2: What is the volume of dollar bill?=Q3: What is the volume of suitcase?=Q4: What is the ratio of the volume of Blood Donation and that of suitcase?=A1: 3.169600E-02 m**3=A2: 1.415000E+03 m**3=A3: 1.000000E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Blood Donation", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ] ] }, { "question": "How many Person make up 736 kgs?", "context": "CONTEXT:=F1: The mass of Person is 2.166667E+00 times that of Dog.=F2: The mass of Dog is 3.000000E+01 kg.=F3: The total mass that needs to be reached is 736 kg.", "answer": "1.132308E+01", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the mass of Dog?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 736 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 2.166667E+00)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "736" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many Human Brain put together contain the same information as 247 of Page of Text?", "context": "CONTEXT:=F1: The data of Human Brain is 8.127208E-01 times that of Netflix's Watch Instantly catalog.=F2: The data of Page of Text is 1.900000E+04 bytes.=F3: The data of Netflix's Watch Instantly catalog is 2.830000E+16 bytes.", "answer": "2.040435E-10", "program": "PROGRAM:=Q1: What is the data of Human Brain?=Q2: What is the data of Page of Text?=Q3: What is the data of Netflix's Watch Instantly catalog?=Q4: What is 247 times the data of Page of Text?=Q5: What is the ratio of the data of Human Brain and that of Netflix's Watch Instantly catalog?=A1: 1.900000E+04 bytes=A2: 2.830000E+16 bytes=A3: 8.127208E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 247)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Page of Text", "data" ] ], [ ".", [ "Human Brain", "data" ] ] ] ], [ "", [ "247" ] ] ] ] ] }, { "question": "Assume Bangalore's area is half its value. How many Soccer City fit on Bangalore?", "context": "CONTEXT:=F1: The area of Bangalore is 3.909848E-02 times that of Lake Ontario.=F2: The area of Soccer City is 2.415400E+05 m**2.=F3: The area of Lake Ontario is 1.896089E+10 m**2.", "answer": "1.534615E+03", "program": "PROGRAM:=Q1: What is the area of Bangalore?=Q2: What is the area of Soccer City ?=Q3: What is the area of Lake Ontario?=Q4: What is half the area of Bangalore?=Q5: What is the ratio of the area of Bangalore and that of Lake Ontario?=A1: 2.415400E+05 m**2=A2: 1.896089E+10 m**2=A3: 3.909848E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Bangalore", "area" ] ], [ ".", [ "Soccer City ", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 392 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 5.000000E-03 kg.=F2: The total mass that needs to be reached is 392 kg.", "answer": "7.840000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 392 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "392" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many dollar bill have the same length as Bill Gates?", "context": "CONTEXT:=F1: The length of Bill Gates is 1.778000E+00 m.=F2: The length of dollar bill is 4.645152E-02 m.", "answer": "3.827647E+01", "program": "PROGRAM:=Q1: What is the length of Bill Gates?=Q2: What is the length of dollar bill?=A1: 1.778000E+00 m=A2: 4.645152E-02 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Bill Gates", "length" ] ], [ ".", [ "dollar bill", "length" ] ] ] ] ] }, { "question": "How many Melbourne Cricket Ground make Great Pyramid of Giza?", "context": "CONTEXT:=F1: The volume of Great Pyramid of Giza is 6.870148E+10 m**3.=F2: The volume of Melbourne Cricket Ground is 8.500000E+08 times that of Human Stomach.=F3: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "1.428008E+00", "program": "PROGRAM:=Q1: What is the volume of Great Pyramid of Giza?=Q2: What is the volume of Melbourne Cricket Ground?=Q3: What is the volume of Human Stomach?=Q4: What is the ratio of the volume of Melbourne Cricket Ground and that of Human Stomach?=A1: 6.870148E+10 m**3=A2: 5.660000E+01 m**3=A3: 8.500000E+08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Great Pyramid of Giza", "volume" ] ], [ ".", [ "Melbourne Cricket Ground", "volume" ] ] ] ] ] }, { "question": "Assume Sydney's area is half its value. How many San Jose fit on Sydney?", "context": "CONTEXT:=F1: The area of Sydney is 2.917124E-02 times that of California.=F2: The area of San Jose is 4.533520E+08 m**2.=F3: The area of California is 4.239557E+11 m**2.", "answer": "1.363986E+01", "program": "PROGRAM:=Q1: What is the area of Sydney?=Q2: What is the area of San Jose?=Q3: What is the area of California?=Q4: What is half the area of Sydney?=Q5: What is the ratio of the area of Sydney and that of California?=A1: 4.533520E+08 m**2=A2: 4.239557E+11 m**2=A3: 2.917124E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sydney", "area" ] ], [ ".", [ "San Jose", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume California's area is half its value. How many Island of Ireland have the same area as California?", "context": "CONTEXT:=F1: The area of California is 4.239557E+11 m**2.=F2: The area of Island of Ireland is 1.916280E+01 times that of Kangaroo Island.=F3: The area of Kangaroo Island is 4.405318E+09 m**2.", "answer": "2.511044E+00", "program": "PROGRAM:=Q1: What is the area of California?=Q2: What is the area of Island of Ireland?=Q3: What is the area of Kangaroo Island?=Q4: What is half the area of California?=Q5: What is the ratio of the area of Island of Ireland and that of Kangaroo Island?=A1: 4.239557E+11 m**2=A2: 4.405318E+09 m**2=A3: 1.916280E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "California", "area" ] ], [ ".", [ "Island of Ireland", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 768 of Earth's Oceans were to have the same density as air, how much would it weigh?", "context": "CONTEXT:=F1: The density of air is 3.962000E+22 kg * m ** -3.=F2: The volume of Earth's Oceans is 2.800000E+21 times that of Blood Donation.=F3: The volume of Blood Donation is 1.415000E+01 m**3.", "answer": "3.727450E+31 kg", "program": "PROGRAM:=Q1: What is the density of air?=Q2: What is the volume of Earth's Oceans?=Q3: What is the volume of Blood Donation?=Q4: What is 768 times the volume of Earth's Oceans?=Q5: What is the ratio of the volume of Earth's Oceans and that of Blood Donation?=A1: 3.962000E+22 kg * m ** -3=A2: 1.415000E+01 m**3=A3: 2.800000E+21=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 768)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "air", "density" ] ] ] ], [ "", [ "768" ] ] ] ] ] }, { "question": "How many World of Warcraft put together contain the same information as 402 of Amazon.com's databases?", "context": "CONTEXT:=F1: The data of World of Warcraft is 1.100000E+16 bytes.=F2: The data of Amazon.com's databases is 8.656047E+02 times that of Blu-ray Disc.=F3: The data of Blu-ray Disc is 4.300000E+11 bytes.", "answer": "1.360258E+01", "program": "PROGRAM:=Q1: What is the data of World of Warcraft?=Q2: What is the data of Amazon.com's databases?=Q3: What is the data of Blu-ray Disc?=Q4: What is 402 times the data of Amazon.com's databases?=Q5: What is the ratio of the data of Amazon.com's databases and that of Blu-ray Disc?=A1: 1.100000E+16 bytes=A2: 4.300000E+11 bytes=A3: 8.656047E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 402)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Amazon.com's databases", "data" ] ], [ ".", [ "World of Warcraft", "data" ] ] ] ], [ "", [ "402" ] ] ] ] ] }, { "question": "Assume Alaska's area is half its value. How many Washington National Cathedral have the same area as Alaska?", "context": "CONTEXT:=F1: The area of Alaska is 1.717798E+12 m**2.=F2: The area of Washington National Cathedral is 1.552795E+04 times that of Parking Space.=F3: The area of Parking Space is 1.495690E+01 m**2.", "answer": "3.698166E+06", "program": "PROGRAM:=Q1: What is the area of Alaska?=Q2: What is the area of Washington National Cathedral?=Q3: What is the area of Parking Space?=Q4: What is half the area of Alaska?=Q5: What is the ratio of the area of Washington National Cathedral and that of Parking Space?=A1: 1.717798E+12 m**2=A2: 1.495690E+01 m**2=A3: 1.552795E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Alaska", "area" ] ], [ ".", [ "Washington National Cathedral", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Napoleon have the same length as Daytona International Speedway?", "context": "CONTEXT:=F1: The length of Daytona International Speedway is 1.226320E+03 m.=F2: The length of Napoleon is 5.181600E-01 m.", "answer": "2.366682E+03", "program": "PROGRAM:=Q1: What is the length of Daytona International Speedway?=Q2: What is the length of Napoleon?=A1: 1.226320E+03 m=A2: 5.181600E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Daytona International Speedway", "length" ] ], [ ".", [ "Napoleon", "length" ] ] ] ] ] }, { "question": "How many LHC Data Generated per Second put together contain the same information as 702 of YouTube's video database?", "context": "CONTEXT:=F1: The data of LHC Data Generated per Second is 8.000000E+14 bytes.=F2: The data of YouTube's video database is 4.700000E+15 bytes.", "answer": "4.124250E+03", "program": "PROGRAM:=Q1: What is the data of LHC Data Generated per Second?=Q2: What is the data of YouTube's video database?=Q3: What is 702 times the data of YouTube's video database?=A1: 8.000000E+14 bytes=A2: 4.700000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 702)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "YouTube's video database", "data" ] ], [ ".", [ "LHC Data Generated per Second", "data" ] ] ] ], [ "", [ "702" ] ] ] ] ] }, { "question": "If 662 of Grand Canyon were to have the same density as carbon dioxide, how much would it weigh?", "context": "CONTEXT:=F1: The density of carbon dioxide is 1.650000E-03 times that of Gallon of Paint.=F2: The volume of Grand Canyon is 1.180110E+17 m**3.=F3: The density of Gallon of Paint is 1.200000E+09 kg * m ** -3.", "answer": "1.546841E+26 kg", "program": "PROGRAM:=Q1: What is the density of carbon dioxide?=Q2: What is the volume of Grand Canyon?=Q3: What is the density of Gallon of Paint?=Q4: What is 662 times the volume of Grand Canyon?=Q5: What is the ratio of the density of carbon dioxide and that of Gallon of Paint?=A1: 1.180110E+17 m**3=A2: 1.200000E+09 kg * m ** -3=A3: 1.650000E-03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 662)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "carbon dioxide", "density" ] ] ] ], [ "", [ "662" ] ] ] ] ] }, { "question": "Assume Mackinac Island's area is half its value. How many King Shaka International Airport (DUR) have the same area as Mackinac Island?", "context": "CONTEXT:=F1: The area of Mackinac Island is 1.130686E+07 m**2.=F2: The area of King Shaka International Airport (DUR) is 1.031190E+05 m**2.", "answer": "5.482432E+01", "program": "PROGRAM:=Q1: What is the area of Mackinac Island?=Q2: What is the area of King Shaka International Airport (DUR)?=Q3: What is half the area of King Shaka International Airport (DUR)?=A1: 1.130686E+07 m**2=A2: 1.031190E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mackinac Island", "area" ] ], [ ".", [ "King Shaka International Airport (DUR)", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dog can 335 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 3.260000E+06 times that of Car.=F2: The cost of Dog is $1.000000E+03.=F3: The cost of Car is $4.000000E+04.", "answer": "4.368400E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Dog?=Q3: What is the cost of Car?=Q4: What is 335 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Car?=A1: $1.000000E+03=A2: $4.000000E+04=A3: 3.260000E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 335)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Dog", "cost" ] ] ] ], [ "", [ "335" ] ] ] ] ] }, { "question": "Assume Diameter of Earth's length is half its value. How many Dog have the same length as Diameter of Earth?", "context": "CONTEXT:=F1: The length of Diameter of Earth is 3.888112E+06 m.=F2: The length of Dog is 4.050420E+00 times that of Verne Troyer.=F3: The length of Verne Troyer is 2.468880E-01 m.", "answer": "1.944056E+06", "program": "PROGRAM:=Q1: What is the length of Diameter of Earth?=Q2: What is the length of Dog?=Q3: What is the length of Verne Troyer?=Q4: What is half the length of Diameter of Earth?=Q5: What is the ratio of the length of Dog and that of Verne Troyer?=A1: 3.888112E+06 m=A2: 2.468880E-01 m=A3: 4.050420E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Diameter of Earth", "length" ] ], [ ".", [ "Dog", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume San Marino's area is half its value. How many pizza fit on San Marino?", "context": "CONTEXT:=F1: The area of San Marino is 6.131400E+07 m**2.=F2: The area of pizza is 7.432000E-02 m**2.", "answer": "4.125000E+08", "program": "PROGRAM:=Q1: What is the area of San Marino?=Q2: What is the area of pizza?=Q3: What is half the area of pizza?=A1: 6.131400E+07 m**2=A2: 7.432000E-02 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "San Marino", "area" ] ], [ ".", [ "pizza", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many MP3 Song put together contain the same information as 693 of Digital Photo?", "context": "CONTEXT:=F1: The data of MP3 Song is 3.750000E-08 times that of LHC Data Generated per Second.=F2: The data of Digital Photo is 1.300000E+07 bytes.=F3: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "3.003000E+02", "program": "PROGRAM:=Q1: What is the data of MP3 Song?=Q2: What is the data of Digital Photo?=Q3: What is the data of LHC Data Generated per Second?=Q4: What is 693 times the data of Digital Photo?=Q5: What is the ratio of the data of MP3 Song and that of LHC Data Generated per Second?=A1: 1.300000E+07 bytes=A2: 8.000000E+14 bytes=A3: 3.750000E-08=Q2 -> A1 | F2=Q4 -> Mul(Q2, 693)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "MP3 Song", "data" ] ] ] ], [ "", [ "693" ] ] ] ] ] }, { "question": "Assume Minnesota's area is half its value. How many Dublin fit on Minnesota?", "context": "CONTEXT:=F1: The area of Minnesota is 2.251632E+11 m**2.=F2: The area of Dublin is 1.008260E+04 times that of Lincoln Memorial Reflecting Pool.=F3: The area of Lincoln Memorial Reflecting Pool is 3.149310E+04 m**2.", "answer": "3.545518E+02", "program": "PROGRAM:=Q1: What is the area of Minnesota?=Q2: What is the area of Dublin?=Q3: What is the area of Lincoln Memorial Reflecting Pool?=Q4: What is half the area of Minnesota?=Q5: What is the ratio of the area of Dublin and that of Lincoln Memorial Reflecting Pool?=A1: 2.251632E+11 m**2=A2: 3.149310E+04 m**2=A3: 1.008260E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Minnesota", "area" ] ], [ ".", [ "Dublin", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Lamborghini Gallardo to travel across Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 1.171762E+08 m.=F2: The speed of Lamborghini Gallardo is 8.940800E+01 m/s.", "answer": "1.310579E+06 s", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the speed of Lamborghini Gallardo?=A1: 1.171762E+08 m=A2: 8.940800E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Lamborghini Gallardo", "speed" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's volume is half its value. How many Hot Air Balloon make Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 2.954414E-01 times that of Royal Albert Hall.=F2: The volume of Hot Air Balloon is 6.226000E+07 m**3.=F3: The volume of Royal Albert Hall is 2.452195E+09 m**3.", "answer": "5.818182E+00", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Hot Air Balloon?=Q3: What is the volume of Royal Albert Hall?=Q4: What is half the volume of Lincoln Memorial Reflecting Pool?=Q5: What is the ratio of the volume of Lincoln Memorial Reflecting Pool and that of Royal Albert Hall?=A1: 6.226000E+07 m**3=A2: 2.452195E+09 m**3=A3: 2.954414E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Hot Air Balloon", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many London have the same area as Lake Michigan?", "context": "CONTEXT:=F1: The area of Lake Michigan is 1.488038E+02 times that of Isle of Wight.=F2: The area of London is 1.579300E+09 m**2.=F3: The area of Isle of Wight is 3.883220E+08 m**2.", "answer": "3.658824E+01", "program": "PROGRAM:=Q1: What is the area of Lake Michigan?=Q2: What is the area of London?=Q3: What is the area of Isle of Wight?=Q4: What is the ratio of the area of Lake Michigan and that of Isle of Wight?=A1: 1.579300E+09 m**2=A2: 3.883220E+08 m**2=A3: 1.488038E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Lake Michigan", "area" ] ], [ ".", [ "London", "area" ] ] ] ] ] }, { "question": "How long does it take for TGV (train) to travel across Maxwell Montes?", "context": "CONTEXT:=F1: The length of Maxwell Montes is 3.352800E+03 m.=F2: The speed of TGV (train) is 8.940800E+01 m/s.", "answer": "3.750000E+01 s", "program": "PROGRAM:=Q1: What is the length of Maxwell Montes?=Q2: What is the speed of TGV (train)?=A1: 3.352800E+03 m=A2: 8.940800E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Maxwell Montes", "length" ] ], [ ".", [ "TGV (train)", "speed" ] ] ] ] ] }, { "question": "How many Telephone Pole have the same length as Mauna Loa?", "context": "CONTEXT:=F1: The length of Mauna Loa is 2.794406E+03 m.=F2: The length of Telephone Pole is 2.696739E+00 times that of Beetle (Volkswagen).=F3: The length of Beetle (Volkswagen) is 1.243279E+00 m.", "answer": "8.334545E+02", "program": "PROGRAM:=Q1: What is the length of Mauna Loa?=Q2: What is the length of Telephone Pole?=Q3: What is the length of Beetle (Volkswagen)?=Q4: What is the ratio of the length of Telephone Pole and that of Beetle (Volkswagen)?=A1: 2.794406E+03 m=A2: 1.243279E+00 m=A3: 2.696739E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Mauna Loa", "length" ] ], [ ".", [ "Telephone Pole", "length" ] ] ] ] ] }, { "question": "How many Christchurch have the same area as Michigan?", "context": "CONTEXT:=F1: The area of Michigan is 2.504854E+11 m**2.=F2: The area of Christchurch is 6.066370E+08 m**2.", "answer": "4.129083E+02", "program": "PROGRAM:=Q1: What is the area of Michigan?=Q2: What is the area of Christchurch?=A1: 2.504854E+11 m**2=A2: 6.066370E+08 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Michigan", "area" ] ], [ ".", [ "Christchurch", "area" ] ] ] ] ] }, { "question": "How many Car can 6 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is $4.000000E+04.", "answer": "1.956000E+07", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is 6 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.000000E+04=Q1 -> A1 | F1=Q3 -> Mul(Q1, 6)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "6" ] ] ] ] ] }, { "question": "How many Leaning Tower of Pisa have the same length as Beast (Roller Coaster)?", "context": "CONTEXT:=F1: The length of Beast (Roller Coaster) is 4.592547E-01 times that of Puncak Jaya.=F2: The length of Leaning Tower of Pisa is 1.719072E+01 m.=F3: The length of Puncak Jaya is 1.488643E+03 m.", "answer": "3.976950E+01", "program": "PROGRAM:=Q1: What is the length of Beast (Roller Coaster)?=Q2: What is the length of Leaning Tower of Pisa?=Q3: What is the length of Puncak Jaya?=Q4: What is the ratio of the length of Beast (Roller Coaster) and that of Puncak Jaya?=A1: 1.719072E+01 m=A2: 1.488643E+03 m=A3: 4.592547E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Beast (Roller Coaster)", "length" ] ], [ ".", [ "Leaning Tower of Pisa", "length" ] ] ] ] ] }, { "question": "How long to digest 886 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.404600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 886 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(886, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "886" ] ] ] ] ] }, { "question": "How many Bill Gates make up 706 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 2.166667E+03 times that of Hairs.=F2: The mass of Hairs is 3.000000E-02 kg.=F3: The total mass that needs to be reached is 706 kg.", "answer": "1.086154E+01", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the mass of Hairs?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 706 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 2.166667E+03)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "706" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "How many US Census Bureau put together contain the same information as 604 of LHC Data Generated per Second?", "context": "CONTEXT:=F1: The data of US Census Bureau is 5.227273E+08 times that of Complete Works of William Shakespeare.=F2: The data of LHC Data Generated per Second is 8.000000E+14 bytes.=F3: The data of Complete Works of William Shakespeare is 4.400000E+07 bytes.", "answer": "2.100870E+01", "program": "PROGRAM:=Q1: What is the data of US Census Bureau?=Q2: What is the data of LHC Data Generated per Second?=Q3: What is the data of Complete Works of William Shakespeare?=Q4: What is 604 times the data of LHC Data Generated per Second?=Q5: What is the ratio of the data of US Census Bureau and that of Complete Works of William Shakespeare?=A1: 8.000000E+14 bytes=A2: 4.400000E+07 bytes=A3: 5.227273E+08=Q2 -> A1 | F2=Q4 -> Mul(Q2, 604)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "LHC Data Generated per Second", "data" ] ], [ ".", [ "US Census Bureau", "data" ] ] ] ], [ "", [ "604" ] ] ] ] ] }, { "question": "How long does it take for Secretariat to travel across Circumfrence of Earth?", "context": "CONTEXT:=F1: The length of Circumfrence of Earth is 1.221486E+07 m.=F2: The speed of Secretariat is 1.680870E+01 m/s.", "answer": "7.266988E+05 s", "program": "PROGRAM:=Q1: What is the length of Circumfrence of Earth?=Q2: What is the speed of Secretariat?=A1: 1.221486E+07 m=A2: 1.680870E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Circumfrence of Earth", "length" ] ], [ ".", [ "Secretariat", "speed" ] ] ] ] ] }, { "question": "How many Arc de Triomphe have the same length as Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 4.490000E+05 times that of classroom.=F2: The length of Arc de Triomphe is 1.493520E+01 m.=F3: The length of classroom is 3.048000E+00 m.", "answer": "9.163265E+04", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the length of Arc de Triomphe?=Q3: What is the length of classroom?=Q4: What is the ratio of the length of Distance from L.A. to New York and that of classroom?=A1: 1.493520E+01 m=A2: 3.048000E+00 m=A3: 4.490000E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Arc de Triomphe", "length" ] ] ] ] ] }, { "question": "If 816 of Olympic Swimming Pool were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 8.875121E-01 times that of milk.=F2: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.=F3: The density of milk is 1.033000E+09 kg * m ** -3.", "answer": "5.292870E+19 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Olympic Swimming Pool?=Q3: What is the density of milk?=Q4: What is 816 times the volume of Olympic Swimming Pool?=Q5: What is the ratio of the density of ice and that of milk?=A1: 7.075000E+07 m**3=A2: 1.033000E+09 kg * m ** -3=A3: 8.875121E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 816)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Olympic Swimming Pool", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "816" ] ] ] ] ] }, { "question": "How many Brick have the same length as Sheet of paper?", "context": "CONTEXT:=F1: The length of Sheet of paper is 2.000000E-01 m.=F2: The length of Brick is 5.128205E-05 times that of Hollywood Walk of Fame.=F3: The length of Hollywood Walk of Fame is 1.188720E+03 m.", "answer": "3.280840E+00", "program": "PROGRAM:=Q1: What is the length of Sheet of paper?=Q2: What is the length of Brick?=Q3: What is the length of Hollywood Walk of Fame?=Q4: What is the ratio of the length of Brick and that of Hollywood Walk of Fame?=A1: 2.000000E-01 m=A2: 1.188720E+03 m=A3: 5.128205E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Sheet of paper", "length" ] ], [ ".", [ "Brick", "length" ] ] ] ] ] }, { "question": "How many Dog make up 807 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 6.000000E+02 times that of Mars Bars.=F2: The mass of Mars Bars is 5.000000E-02 kg.=F3: The total mass that needs to be reached is 807 kg.", "answer": "2.690000E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Mars Bars?=Q3: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 807 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 6.000000E+02)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "807" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "Assume pencil's length is half its value. How many Golf Tee have the same length as pencil?", "context": "CONTEXT:=F1: The length of pencil is 4.572000E-02 m.=F2: The length of Golf Tee is 1.097561E-04 times that of Shanghai World Financial Center.=F3: The length of Shanghai World Financial Center is 1.499616E+02 m.", "answer": "1.388889E+00", "program": "PROGRAM:=Q1: What is the length of pencil?=Q2: What is the length of Golf Tee?=Q3: What is the length of Shanghai World Financial Center?=Q4: What is half the length of pencil?=Q5: What is the ratio of the length of Golf Tee and that of Shanghai World Financial Center?=A1: 4.572000E-02 m=A2: 1.499616E+02 m=A3: 1.097561E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "pencil", "length" ] ], [ ".", [ "Golf Tee", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Egg (Chicken) make Blood Donation?", "context": "CONTEXT:=F1: The volume of Blood Donation is 1.415000E+01 m**3.=F2: The volume of Egg (Chicken) is 9.457580E-05 times that of Hot Tub.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "7.352941E+00", "program": "PROGRAM:=Q1: What is the volume of Blood Donation?=Q2: What is the volume of Egg (Chicken)?=Q3: What is the volume of Hot Tub?=Q4: What is the ratio of the volume of Egg (Chicken) and that of Hot Tub?=A1: 1.415000E+01 m**3=A2: 2.034770E+04 m**3=A3: 9.457580E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Blood Donation", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ] ] }, { "question": "How many Golf Tee have the same length as Herv\u00e9 Villechaize?", "context": "CONTEXT:=F1: The length of Herv\u00e9 Villechaize is 4.081633E-03 times that of QE2.=F2: The length of Golf Tee is 1.645920E-02 m.=F3: The length of QE2 is 8.961120E+01 m.", "answer": "2.222222E+01", "program": "PROGRAM:=Q1: What is the length of Herv\u00e9 Villechaize?=Q2: What is the length of Golf Tee?=Q3: What is the length of QE2?=Q4: What is the ratio of the length of Herv\u00e9 Villechaize and that of QE2?=A1: 1.645920E-02 m=A2: 8.961120E+01 m=A3: 4.081633E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Herv\u00e9 Villechaize", "length" ] ], [ ".", [ "Golf Tee", "length" ] ] ] ] ] }, { "question": "How many Polo field fit on Michigan?", "context": "CONTEXT:=F1: The area of Michigan is 2.504854E+11 m**2.=F2: The area of Polo field is 5.016600E+04 m**2.", "answer": "4.993131E+06", "program": "PROGRAM:=Q1: What is the area of Michigan?=Q2: What is the area of Polo field?=A1: 2.504854E+11 m**2=A2: 5.016600E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Michigan", "area" ] ], [ ".", [ "Polo field", "area" ] ] ] ] ] }, { "question": "How many Spring Temple Buddha have the same length as Willis Tower?", "context": "CONTEXT:=F1: The length of Willis Tower is 1.584960E+02 m.=F2: The length of Spring Temple Buddha is 5.577428E+00 times that of Baseball base distances.=F3: The length of Baseball base distances is 8.361274E+00 m.", "answer": "3.398693E+00", "program": "PROGRAM:=Q1: What is the length of Willis Tower?=Q2: What is the length of Spring Temple Buddha?=Q3: What is the length of Baseball base distances?=Q4: What is the ratio of the length of Spring Temple Buddha and that of Baseball base distances?=A1: 1.584960E+02 m=A2: 8.361274E+00 m=A3: 5.577428E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Willis Tower", "length" ] ], [ ".", [ "Spring Temple Buddha", "length" ] ] ] ] ] }, { "question": "How many Bathtub can 627 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bathtub is 1.000000E+03 times that of Mars Bars.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "8.176080E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bathtub?=Q3: What is the cost of Mars Bars?=Q4: What is 627 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bathtub and the cost of Mars Bars?=A1: $1.304000E+11=A2: $1.000000E+00=A3: 1.000000E+03=Q1 -> A1 | F1=Q4 -> Mul(Q1, 627)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bathtub", "cost" ] ] ] ], [ "", [ "627" ] ] ] ] ] }, { "question": "How many Coron Island have the same area as Earth?", "context": "CONTEXT:=F1: The area of Earth is 5.100000E+14 m**2.=F2: The area of Coron Island is 5.629630E+00 times that of Auckland International Airport (AKL).=F3: The area of Auckland International Airport (AKL) is 1.254150E+07 m**2.", "answer": "7.223387E+06", "program": "PROGRAM:=Q1: What is the area of Earth?=Q2: What is the area of Coron Island?=Q3: What is the area of Auckland International Airport (AKL)?=Q4: What is the ratio of the area of Coron Island and that of Auckland International Airport (AKL)?=A1: 5.100000E+14 m**2=A2: 1.254150E+07 m**2=A3: 5.629630E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Earth", "area" ] ], [ ".", [ "Coron Island", "area" ] ] ] ] ] }, { "question": "How many pencil have the same length as Circumfrence of Earth?", "context": "CONTEXT:=F1: The length of Circumfrence of Earth is 1.221486E+07 m.=F2: The length of pencil is 4.572000E-02 m.", "answer": "2.671668E+08", "program": "PROGRAM:=Q1: What is the length of Circumfrence of Earth?=Q2: What is the length of pencil?=A1: 1.221486E+07 m=A2: 4.572000E-02 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Circumfrence of Earth", "length" ] ], [ ".", [ "pencil", "length" ] ] ] ] ] }, { "question": "How many Mozy put together contain the same information as 3 of Floppy Disk (3½-in)?", "context": "CONTEXT:=F1: The data of Mozy is 4.000000E+17 bytes.=F2: The data of Floppy Disk (3½-in) is 1.179650E+07 bytes.", "answer": "8.847375E-11", "program": "PROGRAM:=Q1: What is the data of Mozy?=Q2: What is the data of Floppy Disk (3½-in)?=Q3: What is 3 times the data of Floppy Disk (3½-in)?=A1: 4.000000E+17 bytes=A2: 1.179650E+07 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 3)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Floppy Disk (3½-in)", "data" ] ], [ ".", [ "Mozy", "data" ] ] ] ], [ "", [ "3" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 813 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 7.692308E-05 times that of Person.=F2: The mass of Person is 6.500000E+01 kg.=F3: The total mass that needs to be reached is 813 kg.", "answer": "1.626000E+05", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Person?=Q3: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 813 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 7.692308E-05)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "813" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "If 107 of Ostrich Egg were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 4.618560E+01 kg * m ** -3.=F2: The volume of Ostrich Egg is 4.964859E+00 times that of Baseball (packed).=F3: The volume of Baseball (packed) is 9.302500E+00 m**3.", "answer": "4.927034E+12 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Ostrich Egg?=Q3: What is the volume of Baseball (packed)?=Q4: What is 107 times the volume of Ostrich Egg?=Q5: What is the ratio of the volume of Ostrich Egg and that of Baseball (packed)?=A1: 4.618560E+01 kg * m ** -3=A2: 9.302500E+00 m**3=A3: 4.964859E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 107)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Ostrich Egg", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "107" ] ] ] ] ] }, { "question": "How long does it take for Cheetah to travel across Oregon Trail?", "context": "CONTEXT:=F1: The length of Oregon Trail is 3.323810E+04 times that of Football (Soccer) Pitch.=F2: The speed of Cheetah is 3.068930E+01 m/s.=F3: The length of Football (Soccer) Pitch is 3.200400E+01 m.", "answer": "3.466199E+04 s", "program": "PROGRAM:=Q1: What is the length of Oregon Trail?=Q2: What is the speed of Cheetah?=Q3: What is the length of Football (Soccer) Pitch?=Q4: What is the ratio of the length of Oregon Trail and the length of Football (Soccer) Pitch?=A1: 3.068930E+01 m/s=A2: 3.200400E+01 m=A3: 3.323810E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Oregon Trail", "length" ] ], [ ".", [ "Cheetah", "speed" ] ] ] ] ] }, { "question": "If 154 of Bathtub were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 4.528000E+03 kg * m ** -3.=F2: The volume of Bathtub is 4.528000E+03 m**3.", "answer": "6.392956E+14 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Bathtub?=Q3: What is 154 times the volume of Bathtub?=A1: 4.528000E+03 kg * m ** -3=A2: 4.528000E+03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 154)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bathtub", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "154" ] ] ] ] ] }, { "question": "How many US Census Bureau put together contain the same information as 138 of Digital Photo?", "context": "CONTEXT:=F1: The data of US Census Bureau is 2.300000E+16 bytes.=F2: The data of Digital Photo is 2.166667E-11 times that of Books in the Library of Congress.=F3: The data of Books in the Library of Congress is 6.000000E+17 bytes.", "answer": "7.800000E-08", "program": "PROGRAM:=Q1: What is the data of US Census Bureau?=Q2: What is the data of Digital Photo?=Q3: What is the data of Books in the Library of Congress?=Q4: What is 138 times the data of Digital Photo?=Q5: What is the ratio of the data of Digital Photo and that of Books in the Library of Congress?=A1: 2.300000E+16 bytes=A2: 6.000000E+17 bytes=A3: 2.166667E-11=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 138)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "US Census Bureau", "data" ] ] ] ], [ "", [ "138" ] ] ] ] ] }, { "question": "Assume Olympic Swimming Pool's volume is half its value. How many Car fit in Olympic Swimming Pool?", "context": "CONTEXT:=F1: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.=F2: The volume of Car is 8.000000E+00 m**3.", "answer": "4.421875E+06", "program": "PROGRAM:=Q1: What is the volume of Olympic Swimming Pool?=Q2: What is the volume of Car?=Q3: What is half the volume of Olympic Swimming Pool?=A1: 7.075000E+07 m**3=A2: 8.000000E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympic Swimming Pool", "volume" ] ], [ ".", [ "Car", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars can 58 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Dog.=F2: The cost of Mars Bars is $1.000000E+00.=F3: The cost of Dog is $1.000000E+03.", "answer": "7.563200E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is the cost of Dog?=Q4: What is 58 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Dog?=A1: $1.000000E+00=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 58)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "58" ] ] ] ] ] }, { "question": "How many Hairs make up 489 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 5.025126E-27 times that of Earth.=F2: The mass of Earth is 5.970000E+24 kg.=F3: The total mass that needs to be reached is 489 kg.", "answer": "1.630000E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the mass of Earth?=Q3: What is the total mass that needs to be reached?=A1: 5.970000E+24 kg=A2: 489 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 5.025126E-27)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "489" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "Assume Phoenix's area is half its value. How many Bath Towel have the same area as Phoenix?", "context": "CONTEXT:=F1: The area of Phoenix is 1.226280E+09 m**2.=F2: The area of Bath Towel is 1.083771E+00 m**2.", "answer": "5.657466E+08", "program": "PROGRAM:=Q1: What is the area of Phoenix?=Q2: What is the area of Bath Towel?=Q3: What is half the area of Bath Towel?=A1: 1.226280E+09 m**2=A2: 1.083771E+00 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Phoenix", "area" ] ], [ ".", [ "Bath Towel", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Mauna Loa's length is half its value. How many Queen Size Bed have the same length as Mauna Loa?", "context": "CONTEXT:=F1: The length of Mauna Loa is 2.794406E+03 m.=F2: The length of Queen Size Bed is 2.508642E+00 times that of Verne Troyer.=F3: The length of Verne Troyer is 2.468880E-01 m.", "answer": "2.255906E+03", "program": "PROGRAM:=Q1: What is the length of Mauna Loa?=Q2: What is the length of Queen Size Bed?=Q3: What is the length of Verne Troyer?=Q4: What is half the length of Mauna Loa?=Q5: What is the ratio of the length of Queen Size Bed and that of Verne Troyer?=A1: 2.794406E+03 m=A2: 2.468880E-01 m=A3: 2.508642E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mauna Loa", "length" ] ], [ ".", [ "Queen Size Bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dog can 40 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.650407E-03 times that of Polonium-241.=F2: The cost of Dog is $1.000000E+03.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "5.216000E+09", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Dog?=Q3: What is the cost of Polonium-241?=Q4: What is 40 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Polonium-241?=A1: $1.000000E+03=A2: $4.920000E+13=A3: 2.650407E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 40)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Dog", "cost" ] ] ] ], [ "", [ "40" ] ] ] ] ] }, { "question": "Assume Great Barrier Reef's area is half its value. How many San Diego have the same area as Great Barrier Reef?", "context": "CONTEXT:=F1: The area of Great Barrier Reef is 7.978723E+04 times that of Ninoy Aquino International Airport (MNL).=F2: The area of San Diego is 8.399089E+08 m**2.=F3: The area of Ninoy Aquino International Airport (MNL) is 4.366300E+06 m**2.", "answer": "2.073886E+02", "program": "PROGRAM:=Q1: What is the area of Great Barrier Reef?=Q2: What is the area of San Diego?=Q3: What is the area of Ninoy Aquino International Airport (MNL)?=Q4: What is half the area of Great Barrier Reef?=Q5: What is the ratio of the area of Great Barrier Reef and that of Ninoy Aquino International Airport (MNL)?=A1: 8.399089E+08 m**2=A2: 4.366300E+06 m**2=A3: 7.978723E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Great Barrier Reef", "area" ] ], [ ".", [ "San Diego", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hubble Telescope put together contain the same information as 574 of US Census Bureau?", "context": "CONTEXT:=F1: The data of Hubble Telescope is 2.820513E-09 times that of All Spoken Words in Human History (recorded).=F2: The data of US Census Bureau is 2.300000E+16 bytes.=F3: The data of All Spoken Words in Human History (recorded) is 3.900000E+23 bytes.", "answer": "1.200182E+04", "program": "PROGRAM:=Q1: What is the data of Hubble Telescope?=Q2: What is the data of US Census Bureau?=Q3: What is the data of All Spoken Words in Human History (recorded)?=Q4: What is 574 times the data of US Census Bureau?=Q5: What is the ratio of the data of Hubble Telescope and that of All Spoken Words in Human History (recorded)?=A1: 2.300000E+16 bytes=A2: 3.900000E+23 bytes=A3: 2.820513E-09=Q2 -> A1 | F2=Q4 -> Mul(Q2, 574)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "US Census Bureau", "data" ] ], [ ".", [ "Hubble Telescope", "data" ] ] ] ], [ "", [ "574" ] ] ] ] ] }, { "question": "How many Chicago Water Tower have the same length as I-80?", "context": "CONTEXT:=F1: The length of I-80 is 2.520668E+04 times that of Space Needle.=F2: The length of Chicago Water Tower is 1.429512E+01 m.=F3: The length of Space Needle is 5.608320E+01 m.", "answer": "9.889190E+04", "program": "PROGRAM:=Q1: What is the length of I-80?=Q2: What is the length of Chicago Water Tower?=Q3: What is the length of Space Needle?=Q4: What is the ratio of the length of I-80 and that of Space Needle?=A1: 1.429512E+01 m=A2: 5.608320E+01 m=A3: 2.520668E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "I-80", "length" ] ], [ ".", [ "Chicago Water Tower", "length" ] ] ] ] ] }, { "question": "Assume Kansas's area is half its value. How many Forbidden City fit on Kansas?", "context": "CONTEXT:=F1: The area of Kansas is 2.130894E+11 m**2.=F2: The area of Forbidden City is 1.507374E-04 times that of Grand Canyon National Park.=F3: The area of Grand Canyon National Park is 4.930430E+09 m**2.", "answer": "1.433594E+05", "program": "PROGRAM:=Q1: What is the area of Kansas?=Q2: What is the area of Forbidden City?=Q3: What is the area of Grand Canyon National Park?=Q4: What is half the area of Kansas?=Q5: What is the ratio of the area of Forbidden City and that of Grand Canyon National Park?=A1: 2.130894E+11 m**2=A2: 4.930430E+09 m**2=A3: 1.507374E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Kansas", "area" ] ], [ ".", [ "Forbidden City", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Child have the same volume as Great Pyramid of Giza?", "context": "CONTEXT:=F1: The volume of Great Pyramid of Giza is 4.319598E-03 times that of Sydney Harbour.=F2: The volume of Child is 3.000000E-02 m**3.=F3: The volume of Sydney Harbour is 1.590460E+13 m**3.", "answer": "2.290049E+12", "program": "PROGRAM:=Q1: What is the volume of Great Pyramid of Giza?=Q2: What is the volume of Child?=Q3: What is the volume of Sydney Harbour?=Q4: What is the ratio of the volume of Great Pyramid of Giza and that of Sydney Harbour?=A1: 3.000000E-02 m**3=A2: 1.590460E+13 m**3=A3: 4.319598E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Great Pyramid of Giza", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ] ] }, { "question": "How long to digest 498 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.037800E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 498 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(498, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "498" ] ] ] ] ] }, { "question": "Assume Minnesota's area is half its value. How many Mars Bars have the same area as Minnesota?", "context": "CONTEXT:=F1: The area of Minnesota is 2.251632E+11 m**2.=F2: The area of Mars Bars is 3.203650E-11 times that of Indianapolis.=F3: The area of Indianapolis is 9.364320E+08 m**2.", "answer": "3.752720E+12", "program": "PROGRAM:=Q1: What is the area of Minnesota?=Q2: What is the area of Mars Bars?=Q3: What is the area of Indianapolis?=Q4: What is half the area of Minnesota?=Q5: What is the ratio of the area of Mars Bars and that of Indianapolis?=A1: 2.251632E+11 m**2=A2: 9.364320E+08 m**2=A3: 3.203650E-11=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Minnesota", "area" ] ], [ ".", [ "Mars Bars", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Gap, Inc. Customer Database put together contain the same information as 775 of Digital Photo?", "context": "CONTEXT:=F1: The data of Gap, Inc. Customer Database is 9.700889E+03 times that of Compact Disc.=F2: The data of Digital Photo is 1.300000E+07 bytes.=F3: The data of Compact Disc is 6.185000E+09 bytes.", "answer": "1.679167E-04", "program": "PROGRAM:=Q1: What is the data of Gap, Inc. Customer Database?=Q2: What is the data of Digital Photo?=Q3: What is the data of Compact Disc?=Q4: What is 775 times the data of Digital Photo?=Q5: What is the ratio of the data of Gap, Inc. Customer Database and that of Compact Disc?=A1: 1.300000E+07 bytes=A2: 6.185000E+09 bytes=A3: 9.700889E+03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 775)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "Gap, Inc. Customer Database", "data" ] ] ] ], [ "", [ "775" ] ] ] ] ] }, { "question": "How long does it take for Michael Johnson to travel across Great Wall of China (total)?", "context": "CONTEXT:=F1: The length of Great Wall of China (total) is 2.697480E+06 m.=F2: The speed of Michael Johnson is 1.929167E-01 times that of Skydiver (belly-to-earth).=F3: The speed of Skydiver (belly-to-earth) is 5.364480E+01 m/s.", "answer": "2.606519E+05 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (total)?=Q2: What is the speed of Michael Johnson?=Q3: What is the speed of Skydiver (belly-to-earth)?=Q4: What is the ratio of the speed of Michael Johnson and the speed of Skydiver (belly-to-earth)?=A1: 2.697480E+06 m=A2: 5.364480E+01 m/s=A3: 1.929167E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (total)", "length" ] ], [ ".", [ "Michael Johnson", "speed" ] ] ] ] ] }, { "question": "Assume head's volume is half its value. How many Tennis Ball make head?", "context": "CONTEXT:=F1: The volume of head is 2.702620E-01 times that of Basketball (packed).=F2: The volume of Tennis Ball is 4.457250E+00 m**3.=F3: The volume of Basketball (packed) is 3.141396E+02 m**3.", "answer": "9.523810E+00", "program": "PROGRAM:=Q1: What is the volume of head?=Q2: What is the volume of Tennis Ball?=Q3: What is the volume of Basketball (packed)?=Q4: What is half the volume of head?=Q5: What is the ratio of the volume of head and that of Basketball (packed)?=A1: 4.457250E+00 m**3=A2: 3.141396E+02 m**3=A3: 2.702620E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "head", "volume" ] ], [ ".", [ "Tennis Ball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Forbidden City's area is half its value. How many Principality Stadium have the same area as Forbidden City?", "context": "CONTEXT:=F1: The area of Forbidden City is 1.843318E+05 times that of King Size Bed.=F2: The area of Principality Stadium is 3.716000E+04 m**2.=F3: The area of King Size Bed is 4.031860E+00 m**2.", "answer": "1.000000E+01", "program": "PROGRAM:=Q1: What is the area of Forbidden City?=Q2: What is the area of Principality Stadium?=Q3: What is the area of King Size Bed?=Q4: What is half the area of Forbidden City?=Q5: What is the ratio of the area of Forbidden City and that of King Size Bed?=A1: 3.716000E+04 m**2=A2: 4.031860E+00 m**2=A3: 1.843318E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Forbidden City", "area" ] ], [ ".", [ "Principality Stadium", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Blood in a Human Body make Olympic Pool?", "context": "CONTEXT:=F1: The volume of Olympic Pool is 2.500000E+03 m**3.=F2: The volume of Blood in a Human Body is 2.000000E-02 times that of boulder.=F3: The volume of boulder is 7.075000E+03 m**3.", "answer": "1.766784E+01", "program": "PROGRAM:=Q1: What is the volume of Olympic Pool?=Q2: What is the volume of Blood in a Human Body?=Q3: What is the volume of boulder?=Q4: What is the ratio of the volume of Blood in a Human Body and that of boulder?=A1: 2.500000E+03 m**3=A2: 7.075000E+03 m**3=A3: 2.000000E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Olympic Pool", "volume" ] ], [ ".", [ "Blood in a Human Body", "volume" ] ] ] ] ] }, { "question": "How many Polo field have the same area as Disneyland?", "context": "CONTEXT:=F1: The area of Disneyland is 6.503000E+05 m**2.=F2: The area of Polo field is 5.016600E+04 m**2.", "answer": "1.296296E+01", "program": "PROGRAM:=Q1: What is the area of Disneyland?=Q2: What is the area of Polo field?=A1: 6.503000E+05 m**2=A2: 5.016600E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Disneyland", "area" ] ], [ ".", [ "Polo field", "area" ] ] ] ] ] }, { "question": "How many Baseball (packed) make head?", "context": "CONTEXT:=F1: The volume of head is 8.490000E+01 m**3.=F2: The volume of Baseball (packed) is 9.302500E+00 m**3.", "answer": "9.126579E+00", "program": "PROGRAM:=Q1: What is the volume of head?=Q2: What is the volume of Baseball (packed)?=A1: 8.490000E+01 m**3=A2: 9.302500E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "head", "volume" ] ], [ ".", [ "Baseball (packed)", "volume" ] ] ] ] ] }, { "question": "Assume Fort Bliss's area is half its value. How many Washington National Cathedral have the same area as Fort Bliss?", "context": "CONTEXT:=F1: The area of Fort Bliss is 4.533520E+09 m**2.=F2: The area of Washington National Cathedral is 6.111842E-09 times that of Moon.=F3: The area of Moon is 3.800000E+13 m**2.", "answer": "9.760000E+03", "program": "PROGRAM:=Q1: What is the area of Fort Bliss?=Q2: What is the area of Washington National Cathedral?=Q3: What is the area of Moon?=Q4: What is half the area of Fort Bliss?=Q5: What is the ratio of the area of Washington National Cathedral and that of Moon?=A1: 4.533520E+09 m**2=A2: 3.800000E+13 m**2=A3: 6.111842E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Fort Bliss", "area" ] ], [ ".", [ "Washington National Cathedral", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 514 of suitcase were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 1.415000E+03 kg * m ** -3.=F2: The volume of suitcase is 1.415000E+03 m**3.", "answer": "6.667978E+14 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of suitcase?=Q3: What is 514 times the volume of suitcase?=A1: 1.415000E+03 kg * m ** -3=A2: 1.415000E+03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 514)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "suitcase", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "514" ] ] ] ] ] }, { "question": "How many Blood in a Human Body fit in Olympic Swimming Pool?", "context": "CONTEXT:=F1: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.=F2: The volume of Blood in a Human Body is 4.716667E+04 times that of Mars Bars.=F3: The volume of Mars Bars is 3.000000E-03 m**3.", "answer": "5.000000E+05", "program": "PROGRAM:=Q1: What is the volume of Olympic Swimming Pool?=Q2: What is the volume of Blood in a Human Body?=Q3: What is the volume of Mars Bars?=Q4: What is the ratio of the volume of Blood in a Human Body and that of Mars Bars?=A1: 7.075000E+07 m**3=A2: 3.000000E-03 m**3=A3: 4.716667E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Olympic Swimming Pool", "volume" ] ], [ ".", [ "Blood in a Human Body", "volume" ] ] ] ] ] }, { "question": "How long to digest 325 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.982500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 325 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(325, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "325" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 669 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 5.000000E-03 kg.=F2: The total mass that needs to be reached is 669 kg.", "answer": "1.338000E+05", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 669 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "669" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Napoleon have the same length as Dog?", "context": "CONTEXT:=F1: The length of Dog is 1.000000E+00 m.=F2: The length of Napoleon is 5.181600E-01 m.", "answer": "1.929906E+00", "program": "PROGRAM:=Q1: What is the length of Dog?=Q2: What is the length of Napoleon?=A1: 1.000000E+00 m=A2: 5.181600E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Dog", "length" ] ], [ ".", [ "Napoleon", "length" ] ] ] ] ] }, { "question": "How many Netflix's Watch Instantly catalog put together contain the same information as 215 of Pandora?", "context": "CONTEXT:=F1: The data of Netflix's Watch Instantly catalog is 1.489474E+12 times that of Page of Text.=F2: The data of Pandora is 2.200000E+15 bytes.=F3: The data of Page of Text is 1.900000E+04 bytes.", "answer": "1.671378E+01", "program": "PROGRAM:=Q1: What is the data of Netflix's Watch Instantly catalog?=Q2: What is the data of Pandora?=Q3: What is the data of Page of Text?=Q4: What is 215 times the data of Pandora?=Q5: What is the ratio of the data of Netflix's Watch Instantly catalog and that of Page of Text?=A1: 2.200000E+15 bytes=A2: 1.900000E+04 bytes=A3: 1.489474E+12=Q2 -> A1 | F2=Q4 -> Mul(Q2, 215)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Pandora", "data" ] ], [ ".", [ "Netflix's Watch Instantly catalog", "data" ] ] ] ], [ "", [ "215" ] ] ] ] ] }, { "question": "How many Hairs make up 127 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 127 kg.", "answer": "4.233333E+03", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 127 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "127" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How many Child make up 748 kgs?", "context": "CONTEXT:=F1: The mass of Child is 1.200000E-05 times that of Olympic Pool.=F2: The mass of Olympic Pool is 2.500000E+06 kg.=F3: The total mass that needs to be reached is 748 kg.", "answer": "2.493333E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the mass of Olympic Pool?=Q3: What is the total mass that needs to be reached?=A1: 2.500000E+06 kg=A2: 748 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.200000E-05)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "748" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's volume is half its value. How many Gumball (packed) fit in Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "1.280000E+09", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Gumball (packed)?=Q3: What is half the volume of Lincoln Memorial Reflecting Pool?=A1: 7.244800E+08 m**3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dog make up 720 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 720 kg.", "answer": "2.400000E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 720 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "720" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How many Bill Gates make up 460 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 1.088777E-23 times that of Earth.=F2: The mass of Earth is 5.970000E+24 kg.=F3: The total mass that needs to be reached is 460 kg.", "answer": "7.076923E+00", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the mass of Earth?=Q3: What is the total mass that needs to be reached?=A1: 5.970000E+24 kg=A2: 460 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.088777E-23)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "460" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "How many Dog can 881 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Dog is $1.000000E+03.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "1.148824E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Dog?=Q3: What is the cost of Bathtub?=Q4: What is 881 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $1.000000E+03=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 881)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Dog", "cost" ] ] ] ], [ "", [ "881" ] ] ] ] ] }, { "question": "How many Christmas Tree (artificial) have the same length as Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 1.907743E+06 m.=F2: The length of Christmas Tree (artificial) is 7.010400E-01 times that of Dog.=F3: The length of Dog is 1.000000E+00 m.", "answer": "2.721304E+06", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the length of Christmas Tree (artificial)?=Q3: What is the length of Dog?=Q4: What is the ratio of the length of Christmas Tree (artificial) and that of Dog?=A1: 1.907743E+06 m=A2: 1.000000E+00 m=A3: 7.010400E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Christmas Tree (artificial)", "length" ] ] ] ] ] }, { "question": "How many City Block (Manhattan) fit on Hawaii?", "context": "CONTEXT:=F1: The area of Hawaii is 1.218953E+05 times that of Washington National Cathedral.=F2: The area of City Block (Manhattan) is 9.290000E+03 m**2.=F3: The area of Washington National Cathedral is 2.322500E+05 m**2.", "answer": "3.047383E+06", "program": "PROGRAM:=Q1: What is the area of Hawaii?=Q2: What is the area of City Block (Manhattan)?=Q3: What is the area of Washington National Cathedral?=Q4: What is the ratio of the area of Hawaii and that of Washington National Cathedral?=A1: 9.290000E+03 m**2=A2: 2.322500E+05 m**2=A3: 1.218953E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Hawaii", "area" ] ], [ ".", [ "City Block (Manhattan)", "area" ] ] ] ] ] }, { "question": "How many Amazon.com's databases put together contain the same information as 555 of Letters Delivered by the US Postal Service in 2010?", "context": "CONTEXT:=F1: The data of Amazon.com's databases is 4.962800E-02 times that of Google database.=F2: The data of Letters Delivered by the US Postal Service in 2010 is 4.000000E+16 bytes.=F3: The data of Google database is 7.500000E+15 bytes.", "answer": "5.964375E+04", "program": "PROGRAM:=Q1: What is the data of Amazon.com's databases?=Q2: What is the data of Letters Delivered by the US Postal Service in 2010?=Q3: What is the data of Google database?=Q4: What is 555 times the data of Letters Delivered by the US Postal Service in 2010?=Q5: What is the ratio of the data of Amazon.com's databases and that of Google database?=A1: 4.000000E+16 bytes=A2: 7.500000E+15 bytes=A3: 4.962800E-02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 555)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Letters Delivered by the US Postal Service in 2010", "data" ] ], [ ".", [ "Amazon.com's databases", "data" ] ] ] ], [ "", [ "555" ] ] ] ] ] }, { "question": "How many Avatar put together contain the same information as 609 of Amazon.com's databases?", "context": "CONTEXT:=F1: The data of Avatar is 8.000000E+15 bytes.=F2: The data of Amazon.com's databases is 3.722100E+14 bytes.", "answer": "2.833449E+01", "program": "PROGRAM:=Q1: What is the data of Avatar?=Q2: What is the data of Amazon.com's databases?=Q3: What is 609 times the data of Amazon.com's databases?=A1: 8.000000E+15 bytes=A2: 3.722100E+14 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 609)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Amazon.com's databases", "data" ] ], [ ".", [ "Avatar", "data" ] ] ] ], [ "", [ "609" ] ] ] ] ] }, { "question": "Assume Brachiosaurus's length is half its value. How many suitcase have the same length as Brachiosaurus?", "context": "CONTEXT:=F1: The length of Brachiosaurus is 3.962400E+00 m.=F2: The length of suitcase is 1.828800E-01 m.", "answer": "1.083333E+01", "program": "PROGRAM:=Q1: What is the length of Brachiosaurus?=Q2: What is the length of suitcase?=Q3: What is half the length of Brachiosaurus?=A1: 3.962400E+00 m=A2: 1.828800E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Brachiosaurus", "length" ] ], [ ".", [ "suitcase", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Seventeenth hole of Pebble Beach's length is half its value. How many Glucose Molecule have the same length as Seventeenth hole of Pebble Beach?", "context": "CONTEXT:=F1: The length of Seventeenth hole of Pebble Beach is 1.296000E+05 times that of Grain of Sand.=F2: The length of Glucose Molecule is 4.572000E-10 m.=F3: The length of Grain of Sand is 3.810000E-04 m.", "answer": "5.400000E+10", "program": "PROGRAM:=Q1: What is the length of Seventeenth hole of Pebble Beach?=Q2: What is the length of Glucose Molecule?=Q3: What is the length of Grain of Sand?=Q4: What is half the length of Seventeenth hole of Pebble Beach?=Q5: What is the ratio of the length of Seventeenth hole of Pebble Beach and that of Grain of Sand?=A1: 4.572000E-10 m=A2: 3.810000E-04 m=A3: 1.296000E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Seventeenth hole of Pebble Beach", "length" ] ], [ ".", [ "Glucose Molecule", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 939 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.727900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 939 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(939, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "939" ] ] ] ] ] }, { "question": "Assume Washington National Cathedral's area is half its value. How many Rogers Centre have the same area as Washington National Cathedral?", "context": "CONTEXT:=F1: The area of Washington National Cathedral is 2.322500E+05 m**2.=F2: The area of Rogers Centre is 5.137370E+04 m**2.", "answer": "2.260398E+00", "program": "PROGRAM:=Q1: What is the area of Washington National Cathedral?=Q2: What is the area of Rogers Centre?=Q3: What is half the area of Rogers Centre?=A1: 2.322500E+05 m**2=A2: 5.137370E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Washington National Cathedral", "area" ] ], [ ".", [ "Rogers Centre", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's area is half its value. How many Parking Space fit on Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The area of Lincoln Memorial Reflecting Pool is 4.842857E-02 times that of Disneyland.=F2: The area of Parking Space is 1.495690E+01 m**2.=F3: The area of Disneyland is 6.503000E+05 m**2.", "answer": "1.052795E+03", "program": "PROGRAM:=Q1: What is the area of Lincoln Memorial Reflecting Pool?=Q2: What is the area of Parking Space?=Q3: What is the area of Disneyland?=Q4: What is half the area of Lincoln Memorial Reflecting Pool?=Q5: What is the ratio of the area of Lincoln Memorial Reflecting Pool and that of Disneyland?=A1: 1.495690E+01 m**2=A2: 6.503000E+05 m**2=A3: 4.842857E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "area" ] ], [ ".", [ "Parking Space", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Gumball (packed) have the same volume as Golf Ball?", "context": "CONTEXT:=F1: The volume of Golf Ball is 1.151368E+00 m**3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "4.068437E+00", "program": "PROGRAM:=Q1: What is the volume of Golf Ball?=Q2: What is the volume of Gumball (packed)?=A1: 1.151368E+00 m**3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Golf Ball", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ] ] }, { "question": "How many Netflix's Watch Instantly catalog put together contain the same information as 516 of Amazon.com's databases?", "context": "CONTEXT:=F1: The data of Netflix's Watch Instantly catalog is 9.433333E+08 times that of MP3 Song.=F2: The data of Amazon.com's databases is 3.722100E+14 bytes.=F3: The data of MP3 Song is 3.000000E+07 bytes.", "answer": "6.786585E+00", "program": "PROGRAM:=Q1: What is the data of Netflix's Watch Instantly catalog?=Q2: What is the data of Amazon.com's databases?=Q3: What is the data of MP3 Song?=Q4: What is 516 times the data of Amazon.com's databases?=Q5: What is the ratio of the data of Netflix's Watch Instantly catalog and that of MP3 Song?=A1: 3.722100E+14 bytes=A2: 3.000000E+07 bytes=A3: 9.433333E+08=Q2 -> A1 | F2=Q4 -> Mul(Q2, 516)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Amazon.com's databases", "data" ] ], [ ".", [ "Netflix's Watch Instantly catalog", "data" ] ] ] ], [ "", [ "516" ] ] ] ] ] }, { "question": "How many United States Capitol fit on Kangaroo Island?", "context": "CONTEXT:=F1: The area of Kangaroo Island is 4.405318E+09 m**2.=F2: The area of United States Capitol is 3.870833E+04 times that of Car.=F3: The area of Car is 6.000000E+00 m**2.", "answer": "1.896800E+04", "program": "PROGRAM:=Q1: What is the area of Kangaroo Island?=Q2: What is the area of United States Capitol?=Q3: What is the area of Car?=Q4: What is the ratio of the area of United States Capitol and that of Car?=A1: 4.405318E+09 m**2=A2: 6.000000E+00 m**2=A3: 3.870833E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Kangaroo Island", "area" ] ], [ ".", [ "United States Capitol", "area" ] ] ] ] ] }, { "question": "How many Bill Gates can 33 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Bill Gates is $1.304000E+11.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "3.300000E+01", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Bathtub?=Q4: What is 33 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $1.304000E+11=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 33)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "33" ] ] ] ] ] }, { "question": "How many Car Gas Tank fit in Olympic Pool?", "context": "CONTEXT:=F1: The volume of Olympic Pool is 8.333333E+09 times that of Hairs.=F2: The volume of Car Gas Tank is 2.142310E+03 m**3.=F3: The volume of Hairs is 3.000000E-07 m**3.", "answer": "1.166965E+00", "program": "PROGRAM:=Q1: What is the volume of Olympic Pool?=Q2: What is the volume of Car Gas Tank?=Q3: What is the volume of Hairs?=Q4: What is the ratio of the volume of Olympic Pool and that of Hairs?=A1: 2.142310E+03 m**3=A2: 3.000000E-07 m**3=A3: 8.333333E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Olympic Pool", "volume" ] ], [ ".", [ "Car Gas Tank", "volume" ] ] ] ] ] }, { "question": "How many Person have the same length as Giant Sequoia (tree)?", "context": "CONTEXT:=F1: The length of Giant Sequoia (tree) is 8.016878E-02 times that of Tugela Falls.=F2: The length of Person is 1.500000E+00 m.=F3: The length of Tugela Falls is 2.889504E+02 m.", "answer": "1.544320E+01", "program": "PROGRAM:=Q1: What is the length of Giant Sequoia (tree)?=Q2: What is the length of Person?=Q3: What is the length of Tugela Falls?=Q4: What is the ratio of the length of Giant Sequoia (tree) and that of Tugela Falls?=A1: 1.500000E+00 m=A2: 2.889504E+02 m=A3: 8.016878E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Giant Sequoia (tree)", "length" ] ], [ ".", [ "Person", "length" ] ] ] ] ] }, { "question": "Assume Birmingham's area is half its value. How many coin have the same area as Birmingham?", "context": "CONTEXT:=F1: The area of Birmingham is 2.678000E+08 m**2.=F2: The area of coin is 5.385965E-09 times that of Windsor Castle.=F3: The area of Windsor Castle is 5.295300E+04 m**2.", "answer": "4.694902E+11", "program": "PROGRAM:=Q1: What is the area of Birmingham?=Q2: What is the area of coin?=Q3: What is the area of Windsor Castle?=Q4: What is half the area of Birmingham?=Q5: What is the ratio of the area of coin and that of Windsor Castle?=A1: 2.678000E+08 m**2=A2: 5.295300E+04 m**2=A3: 5.385965E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Birmingham", "area" ] ], [ ".", [ "coin", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 715 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.361500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 715 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(715, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "715" ] ] ] ] ] }, { "question": "How many Facebook's Photo Storage put together contain the same information as 641 of DVD?", "context": "CONTEXT:=F1: The data of Facebook's Photo Storage is 8.000000E+15 bytes.=F2: The data of DVD is 1.000000E-09 times that of Internet.=F3: The data of Internet is 4.000000E+19 bytes.", "answer": "3.205000E-03", "program": "PROGRAM:=Q1: What is the data of Facebook's Photo Storage?=Q2: What is the data of DVD?=Q3: What is the data of Internet?=Q4: What is 641 times the data of DVD?=Q5: What is the ratio of the data of DVD and that of Internet?=A1: 8.000000E+15 bytes=A2: 4.000000E+19 bytes=A3: 1.000000E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 641)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "DVD", "data" ] ], [ ".", [ "Facebook's Photo Storage", "data" ] ] ] ], [ "", [ "641" ] ] ] ] ] }, { "question": "How long does it take for Lamborghini Gallardo to travel across Mauna Loa?", "context": "CONTEXT:=F1: The length of Mauna Loa is 1.035932E-03 times that of Great Wall of China (total).=F2: The speed of Lamborghini Gallardo is 8.940800E+01 m/s.=F3: The length of Great Wall of China (total) is 2.697480E+06 m.", "answer": "3.125455E+01 s", "program": "PROGRAM:=Q1: What is the length of Mauna Loa?=Q2: What is the speed of Lamborghini Gallardo?=Q3: What is the length of Great Wall of China (total)?=Q4: What is the ratio of the length of Mauna Loa and the length of Great Wall of China (total)?=A1: 8.940800E+01 m/s=A2: 2.697480E+06 m=A3: 1.035932E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mauna Loa", "length" ] ], [ ".", [ "Lamborghini Gallardo", "speed" ] ] ] ] ] }, { "question": "Assume Egg (Chicken)'s volume is half its value. How many dollar bill make Egg (Chicken)?", "context": "CONTEXT:=F1: The volume of Egg (Chicken) is 7.847663E-10 times that of Royal Albert Hall.=F2: The volume of dollar bill is 3.169600E-02 m**3.=F3: The volume of Royal Albert Hall is 2.452195E+09 m**3.", "answer": "3.035714E+01", "program": "PROGRAM:=Q1: What is the volume of Egg (Chicken)?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Royal Albert Hall?=Q4: What is half the volume of Egg (Chicken)?=Q5: What is the ratio of the volume of Egg (Chicken) and that of Royal Albert Hall?=A1: 3.169600E-02 m**3=A2: 2.452195E+09 m**3=A3: 7.847663E-10=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Egg (Chicken)", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars can 477 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Mars Bars is $1.000000E+00.", "answer": "6.220080E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is 477 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+00=Q1 -> A1 | F1=Q3 -> Mul(Q1, 477)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "477" ] ] ] ] ] }, { "question": "Assume Houston Astrodome's volume is half its value. How many Olympic Pool fit in Houston Astrodome?", "context": "CONTEXT:=F1: The volume of Houston Astrodome is 1.035971E+10 times that of Puck (Hockey).=F2: The volume of Olympic Pool is 2.500000E+03 m**3.=F3: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "6.792000E+06", "program": "PROGRAM:=Q1: What is the volume of Houston Astrodome?=Q2: What is the volume of Olympic Pool?=Q3: What is the volume of Puck (Hockey)?=Q4: What is half the volume of Houston Astrodome?=Q5: What is the ratio of the volume of Houston Astrodome and that of Puck (Hockey)?=A1: 2.500000E+03 m**3=A2: 3.278083E+00 m**3=A3: 1.035971E+10=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "Olympic Pool", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Bathtub can 487 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bathtub is $1.000000E+03.", "answer": "6.350480E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bathtub?=Q3: What is 487 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+03=Q1 -> A1 | F1=Q3 -> Mul(Q1, 487)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bathtub", "cost" ] ] ] ], [ "", [ "487" ] ] ] ] ] }, { "question": "How many Mars Bars can 379 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Mars Bars is $1.000000E+00.", "answer": "4.942160E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is 379 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+00=Q1 -> A1 | F1=Q3 -> Mul(Q1, 379)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "379" ] ] ] ] ] }, { "question": "Assume Moon's volume is half its value. How many dollar bill make Moon?", "context": "CONTEXT:=F1: The volume of Moon is 2.190000E+19 m**3.=F2: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "3.454695E+20", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of dollar bill?=Q3: What is half the volume of Moon?=A1: 2.190000E+19 m**3=A2: 3.169600E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Beer Keg fit in Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 3.603494E+06 times that of Basketball.=F2: The volume of Beer Keg is 1.661210E+03 m**3.=F3: The volume of Basketball is 2.010493E+02 m**3.", "answer": "4.361158E+05", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Beer Keg?=Q3: What is the volume of Basketball?=Q4: What is the ratio of the volume of Lincoln Memorial Reflecting Pool and that of Basketball?=A1: 1.661210E+03 m**3=A2: 2.010493E+02 m**3=A3: 3.603494E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Beer Keg", "volume" ] ] ] ] ] }, { "question": "If 339 of Beer Keg were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 4.630303E+02 times that of carbon dioxide.=F2: The volume of Beer Keg is 1.661210E+03 m**3.=F3: The density of carbon dioxide is 1.980000E+06 kg * m ** -3.", "answer": "5.162961E+14 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Beer Keg?=Q3: What is the density of carbon dioxide?=Q4: What is 339 times the volume of Beer Keg?=Q5: What is the ratio of the density of ice and that of carbon dioxide?=A1: 1.661210E+03 m**3=A2: 1.980000E+06 kg * m ** -3=A3: 4.630303E+02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 339)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Beer Keg", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "339" ] ] ] ] ] }, { "question": "How long does it take for Hare to travel across Olympus Mons?", "context": "CONTEXT:=F1: The length of Olympus Mons is 8.229600E+03 m.=F2: The speed of Hare is 1.788160E+01 m/s.", "answer": "4.602273E+02 s", "program": "PROGRAM:=Q1: What is the length of Olympus Mons?=Q2: What is the speed of Hare?=A1: 8.229600E+03 m=A2: 1.788160E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Olympus Mons", "length" ] ], [ ".", [ "Hare", "speed" ] ] ] ] ] }, { "question": "How many New York City fit on Florida?", "context": "CONTEXT:=F1: The area of Florida is 1.702981E+11 m**2.=F2: The area of New York City is 7.854695E+08 m**2.", "answer": "2.168105E+02", "program": "PROGRAM:=Q1: What is the area of Florida?=Q2: What is the area of New York City?=A1: 1.702981E+11 m**2=A2: 7.854695E+08 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Florida", "area" ] ], [ ".", [ "New York City", "area" ] ] ] ] ] }, { "question": "How many Dog make up 808 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 808 kg.", "answer": "2.693333E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 808 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "808" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "Assume Croke Park's area is half its value. How many Person fit on Croke Park?", "context": "CONTEXT:=F1: The area of Croke Park is 6.513203E-09 times that of Canada.=F2: The area of Person is 1.700000E+00 m**2.=F3: The area of Canada is 9.984335E+12 m**2.", "answer": "1.912647E+04", "program": "PROGRAM:=Q1: What is the area of Croke Park?=Q2: What is the area of Person?=Q3: What is the area of Canada?=Q4: What is half the area of Croke Park?=Q5: What is the ratio of the area of Croke Park and that of Canada?=A1: 1.700000E+00 m**2=A2: 9.984335E+12 m**2=A3: 6.513203E-09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Croke Park", "area" ] ], [ ".", [ "Person", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Porsche 911 to travel across Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 1.907743E+06 m.=F2: The speed of Porsche 911 is 9.119616E+01 m/s.", "answer": "2.091912E+04 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the speed of Porsche 911?=A1: 1.907743E+06 m=A2: 9.119616E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Porsche 911", "speed" ] ] ] ] ] }, { "question": "How many Polonium-241 can 809 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Polonium-241 is $4.920000E+13.", "answer": "2.144179E+00", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Polonium-241?=Q3: What is 809 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.920000E+13=Q1 -> A1 | F1=Q3 -> Mul(Q1, 809)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Polonium-241", "cost" ] ] ] ], [ "", [ "809" ] ] ] ] ] }, { "question": "Assume QE2's length is half its value. How many Telephone Pole have the same length as QE2?", "context": "CONTEXT:=F1: The length of QE2 is 1.470000E+02 times that of Michael Jordan.=F2: The length of Telephone Pole is 3.352800E+00 m.=F3: The length of Michael Jordan is 6.096000E-01 m.", "answer": "1.336364E+01", "program": "PROGRAM:=Q1: What is the length of QE2?=Q2: What is the length of Telephone Pole?=Q3: What is the length of Michael Jordan?=Q4: What is half the length of QE2?=Q5: What is the ratio of the length of QE2 and that of Michael Jordan?=A1: 3.352800E+00 m=A2: 6.096000E-01 m=A3: 1.470000E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "QE2", "length" ] ], [ ".", [ "Telephone Pole", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Gazelle to travel across I-80?", "context": "CONTEXT:=F1: The length of I-80 is 4.684879E+10 times that of Strand of Hair.=F2: The speed of Gazelle is 1.788160E+01 m/s.=F3: The length of Strand of Hair is 3.017520E-05 m.", "answer": "7.905733E+04 s", "program": "PROGRAM:=Q1: What is the length of I-80?=Q2: What is the speed of Gazelle?=Q3: What is the length of Strand of Hair?=Q4: What is the ratio of the length of I-80 and the length of Strand of Hair?=A1: 1.788160E+01 m/s=A2: 3.017520E-05 m=A3: 4.684879E+10=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "I-80", "length" ] ], [ ".", [ "Gazelle", "speed" ] ] ] ] ] }, { "question": "How many Queen Size Bed have the same length as Football field?", "context": "CONTEXT:=F1: The length of Football field is 3.344509E+01 m.=F2: The length of Queen Size Bed is 1.010101E-03 times that of Kentucky Derby.=F3: The length of Kentucky Derby is 6.131601E+02 m.", "answer": "5.400000E+01", "program": "PROGRAM:=Q1: What is the length of Football field?=Q2: What is the length of Queen Size Bed?=Q3: What is the length of Kentucky Derby?=Q4: What is the ratio of the length of Queen Size Bed and that of Kentucky Derby?=A1: 3.344509E+01 m=A2: 6.131601E+02 m=A3: 1.010101E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Football field", "length" ] ], [ ".", [ "Queen Size Bed", "length" ] ] ] ] ] }, { "question": "How many Eden Park fit on Bangalore?", "context": "CONTEXT:=F1: The area of Bangalore is 7.413420E+08 m**2.=F2: The area of Eden Park is 1.495690E+05 m**2.", "answer": "4.956522E+03", "program": "PROGRAM:=Q1: What is the area of Bangalore?=Q2: What is the area of Eden Park?=A1: 7.413420E+08 m**2=A2: 1.495690E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Bangalore", "area" ] ], [ ".", [ "Eden Park", "area" ] ] ] ] ] }, { "question": "How long to digest 306 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.866600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 306 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(306, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "306" ] ] ] ] ] }, { "question": "How long to digest 577 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.519700E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 577 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(577, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "577" ] ] ] ] ] }, { "question": "How many Daytona International Speedway have the same length as Las Vegas Strip?", "context": "CONTEXT:=F1: The length of Las Vegas Strip is 2.072640E+03 m.=F2: The length of Daytona International Speedway is 1.226320E+03 m.", "answer": "1.690130E+00", "program": "PROGRAM:=Q1: What is the length of Las Vegas Strip?=Q2: What is the length of Daytona International Speedway?=A1: 2.072640E+03 m=A2: 1.226320E+03 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Las Vegas Strip", "length" ] ], [ ".", [ "Daytona International Speedway", "length" ] ] ] ] ] }, { "question": "How many MP3 Song put together contain the same information as 188 of Digital Photo?", "context": "CONTEXT:=F1: The data of MP3 Song is 3.000000E+07 bytes.=F2: The data of Digital Photo is 2.765957E-09 times that of YouTube's video database.=F3: The data of YouTube's video database is 4.700000E+15 bytes.", "answer": "8.146667E+01", "program": "PROGRAM:=Q1: What is the data of MP3 Song?=Q2: What is the data of Digital Photo?=Q3: What is the data of YouTube's video database?=Q4: What is 188 times the data of Digital Photo?=Q5: What is the ratio of the data of Digital Photo and that of YouTube's video database?=A1: 3.000000E+07 bytes=A2: 4.700000E+15 bytes=A3: 2.765957E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 188)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "MP3 Song", "data" ] ] ] ], [ "", [ "188" ] ] ] ] ] }, { "question": "How many Mars Bars make up 606 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 1.000000E+01 times that of Sheet of paper.=F2: The mass of Sheet of paper is 5.000000E-03 kg.=F3: The total mass that needs to be reached is 606 kg.", "answer": "1.212000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the mass of Sheet of paper?=Q3: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 606 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E+01)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "606" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many IRS Compliance Database put together contain the same information as 98 of Gap, Inc. Customer Database?", "context": "CONTEXT:=F1: The data of IRS Compliance Database is 1.300000E+15 bytes.=F2: The data of Gap, Inc. Customer Database is 6.000000E+13 bytes.", "answer": "4.523077E+00", "program": "PROGRAM:=Q1: What is the data of IRS Compliance Database?=Q2: What is the data of Gap, Inc. Customer Database?=Q3: What is 98 times the data of Gap, Inc. Customer Database?=A1: 1.300000E+15 bytes=A2: 6.000000E+13 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 98)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Gap, Inc. Customer Database", "data" ] ], [ ".", [ "IRS Compliance Database", "data" ] ] ] ], [ "", [ "98" ] ] ] ] ] }, { "question": "How many Complete Works of William Shakespeare put together contain the same information as 24 of Magnetic Stripe Card?", "context": "CONTEXT:=F1: The data of Complete Works of William Shakespeare is 4.400000E+07 bytes.=F2: The data of Magnetic Stripe Card is 2.149324E-12 times that of Amazon.com's databases.=F3: The data of Amazon.com's databases is 3.722100E+14 bytes.", "answer": "4.363636E-04", "program": "PROGRAM:=Q1: What is the data of Complete Works of William Shakespeare?=Q2: What is the data of Magnetic Stripe Card?=Q3: What is the data of Amazon.com's databases?=Q4: What is 24 times the data of Magnetic Stripe Card?=Q5: What is the ratio of the data of Magnetic Stripe Card and that of Amazon.com's databases?=A1: 4.400000E+07 bytes=A2: 3.722100E+14 bytes=A3: 2.149324E-12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 24)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Magnetic Stripe Card", "data" ] ], [ ".", [ "Complete Works of William Shakespeare", "data" ] ] ] ], [ "", [ "24" ] ] ] ] ] }, { "question": "Assume Moon's volume is half its value. How many Bowling Ball (packed) fit in Moon?", "context": "CONTEXT:=F1: The volume of Moon is 2.190000E+19 m**3.=F2: The volume of Bowling Ball (packed) is 3.883397E+03 times that of Person.=F3: The volume of Person is 6.000000E-02 m**3.", "answer": "4.699494E+16", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of Bowling Ball (packed)?=Q3: What is the volume of Person?=Q4: What is half the volume of Moon?=Q5: What is the ratio of the volume of Bowling Ball (packed) and that of Person?=A1: 2.190000E+19 m**3=A2: 6.000000E-02 m**3=A3: 3.883397E+03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "Bowling Ball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 325 of Gumball (packed) were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 8.035057E-01 times that of oxygen.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.=F3: The density of oxygen is 1.141000E+09 kg * m ** -3.", "answer": "8.432268E+10 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Gumball (packed)?=Q3: What is the density of oxygen?=Q4: What is 325 times the volume of Gumball (packed)?=Q5: What is the ratio of the density of ice and that of oxygen?=A1: 2.830000E-01 m**3=A2: 1.141000E+09 kg * m ** -3=A3: 8.035057E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 325)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Gumball (packed)", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "325" ] ] ] ] ] }, { "question": "Assume Hollywood Walk of Fame's length is half its value. How many Red Blood Cell have the same length as Hollywood Walk of Fame?", "context": "CONTEXT:=F1: The length of Hollywood Walk of Fame is 1.188720E+03 m.=F2: The length of Red Blood Cell is 2.286000E-06 m.", "answer": "2.600000E+08", "program": "PROGRAM:=Q1: What is the length of Hollywood Walk of Fame?=Q2: What is the length of Red Blood Cell?=Q3: What is half the length of Hollywood Walk of Fame?=A1: 1.188720E+03 m=A2: 2.286000E-06 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hollywood Walk of Fame", "length" ] ], [ ".", [ "Red Blood Cell", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Blood in a Human Body's volume is half its value. How many Egg (Chicken) make Blood in a Human Body?", "context": "CONTEXT:=F1: The volume of Blood in a Human Body is 1.415000E+02 m**3.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.", "answer": "3.676471E+01", "program": "PROGRAM:=Q1: What is the volume of Blood in a Human Body?=Q2: What is the volume of Egg (Chicken)?=Q3: What is half the volume of Blood in a Human Body?=A1: 1.415000E+02 m**3=A2: 1.924400E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Blood in a Human Body", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 998 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "6.087800E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 998 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(998, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "998" ] ] ] ] ] }, { "question": "How long does it take for Bullet (Rifle) to travel across Kilimanjaro?", "context": "CONTEXT:=F1: The length of Kilimanjaro is 1.795513E+03 m.=F2: The speed of Bullet (Rifle) is 9.164320E+02 m/s.", "answer": "1.959243E+00 s", "program": "PROGRAM:=Q1: What is the length of Kilimanjaro?=Q2: What is the speed of Bullet (Rifle)?=A1: 1.795513E+03 m=A2: 9.164320E+02 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Kilimanjaro", "length" ] ], [ ".", [ "Bullet (Rifle)", "speed" ] ] ] ] ] }, { "question": "How many Ancestry.com's Census Records put together contain the same information as 162 of Amazon.com's databases?", "context": "CONTEXT:=F1: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.=F2: The data of Amazon.com's databases is 9.305250E-06 times that of Internet.=F3: The data of Internet is 4.000000E+19 bytes.", "answer": "1.205960E+01", "program": "PROGRAM:=Q1: What is the data of Ancestry.com's Census Records?=Q2: What is the data of Amazon.com's databases?=Q3: What is the data of Internet?=Q4: What is 162 times the data of Amazon.com's databases?=Q5: What is the ratio of the data of Amazon.com's databases and that of Internet?=A1: 5.000000E+15 bytes=A2: 4.000000E+19 bytes=A3: 9.305250E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 162)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Amazon.com's databases", "data" ] ], [ ".", [ "Ancestry.com's Census Records", "data" ] ] ] ], [ "", [ "162" ] ] ] ] ] }, { "question": "Assume United States Capitol's area is half its value. How many Hockey rink have the same area as United States Capitol?", "context": "CONTEXT:=F1: The area of United States Capitol is 2.322500E+05 m**2.=F2: The area of Hockey rink is 1.248242E-06 times that of Los Angeles.=F3: The area of Los Angeles is 1.215132E+09 m**2.", "answer": "7.656026E+01", "program": "PROGRAM:=Q1: What is the area of United States Capitol?=Q2: What is the area of Hockey rink?=Q3: What is the area of Los Angeles?=Q4: What is half the area of United States Capitol?=Q5: What is the ratio of the area of Hockey rink and that of Los Angeles?=A1: 2.322500E+05 m**2=A2: 1.215132E+09 m**2=A3: 1.248242E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "United States Capitol", "area" ] ], [ ".", [ "Hockey rink", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hollywood Walk of Fame have the same length as Mount Logan?", "context": "CONTEXT:=F1: The length of Mount Logan is 3.519995E+01 times that of Washington Monument.=F2: The length of Hollywood Walk of Fame is 1.188720E+03 m.=F3: The length of Washington Monument is 5.159959E+01 m.", "answer": "1.527949E+00", "program": "PROGRAM:=Q1: What is the length of Mount Logan?=Q2: What is the length of Hollywood Walk of Fame?=Q3: What is the length of Washington Monument?=Q4: What is the ratio of the length of Mount Logan and that of Washington Monument?=A1: 1.188720E+03 m=A2: 5.159959E+01 m=A3: 3.519995E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Mount Logan", "length" ] ], [ ".", [ "Hollywood Walk of Fame", "length" ] ] ] ] ] }, { "question": "How long does it take for Usain Bolt to travel across Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 1.907743E+06 m.=F2: The speed of Usain Bolt is 1.028192E+01 m/s.", "answer": "1.855435E+05 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the speed of Usain Bolt?=A1: 1.907743E+06 m=A2: 1.028192E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Usain Bolt", "speed" ] ] ] ] ] }, { "question": "How many Philippine Arena fit on California?", "context": "CONTEXT:=F1: The area of California is 4.239557E+11 m**2.=F2: The area of Philippine Arena is 3.684662E-03 times that of Dublin International Airport (DUB).=F3: The area of Dublin International Airport (DUB) is 1.084143E+07 m**2.", "answer": "1.061295E+07", "program": "PROGRAM:=Q1: What is the area of California?=Q2: What is the area of Philippine Arena?=Q3: What is the area of Dublin International Airport (DUB)?=Q4: What is the ratio of the area of Philippine Arena and that of Dublin International Airport (DUB)?=A1: 4.239557E+11 m**2=A2: 1.084143E+07 m**2=A3: 3.684662E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "California", "area" ] ], [ ".", [ "Philippine Arena", "area" ] ] ] ] ] }, { "question": "How many Golf Tee have the same length as Elephant?", "context": "CONTEXT:=F1: The length of Elephant is 6.000000E+00 m.=F2: The length of Golf Tee is 8.181818E-02 times that of Woman's Footstep.=F3: The length of Woman's Footstep is 2.011680E-01 m.", "answer": "3.645378E+02", "program": "PROGRAM:=Q1: What is the length of Elephant?=Q2: What is the length of Golf Tee?=Q3: What is the length of Woman's Footstep?=Q4: What is the ratio of the length of Golf Tee and that of Woman's Footstep?=A1: 6.000000E+00 m=A2: 2.011680E-01 m=A3: 8.181818E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Elephant", "length" ] ], [ ".", [ "Golf Tee", "length" ] ] ] ] ] }, { "question": "How many school have the same area as Coron Island?", "context": "CONTEXT:=F1: The area of Coron Island is 2.332648E-02 times that of Yosemite National Park.=F2: The area of school is 4.645000E+04 m**2.=F3: The area of Yosemite National Park is 3.026775E+09 m**2.", "answer": "1.520000E+03", "program": "PROGRAM:=Q1: What is the area of Coron Island?=Q2: What is the area of school?=Q3: What is the area of Yosemite National Park?=Q4: What is the ratio of the area of Coron Island and that of Yosemite National Park?=A1: 4.645000E+04 m**2=A2: 3.026775E+09 m**2=A3: 2.332648E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Coron Island", "area" ] ], [ ".", [ "school", "area" ] ] ] ] ] }, { "question": "Assume Basketball court's area is half its value. How many Car fit on Basketball court?", "context": "CONTEXT:=F1: The area of Basketball court is 4.956215E+02 m**2.=F2: The area of Car is 1.917909E-10 times that of Vancouver Island.=F3: The area of Vancouver Island is 3.128408E+10 m**2.", "answer": "4.130179E+01", "program": "PROGRAM:=Q1: What is the area of Basketball court?=Q2: What is the area of Car?=Q3: What is the area of Vancouver Island?=Q4: What is half the area of Basketball court?=Q5: What is the ratio of the area of Car and that of Vancouver Island?=A1: 4.956215E+02 m**2=A2: 3.128408E+10 m**2=A3: 1.917909E-10=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Basketball court", "area" ] ], [ ".", [ "Car", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 252 of STARBUCKS Venti Coffee were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 1.669700E+01 kg * m ** -3.=F2: The volume of STARBUCKS Venti Coffee is 4.916667E-10 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "4.195021E+12 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of STARBUCKS Venti Coffee?=Q3: What is the volume of Houston Astrodome?=Q4: What is 252 times the volume of STARBUCKS Venti Coffee?=Q5: What is the ratio of the volume of STARBUCKS Venti Coffee and that of Houston Astrodome?=A1: 1.669700E+01 kg * m ** -3=A2: 3.396000E+10 m**3=A3: 4.916667E-10=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 252)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "252" ] ] ] ] ] }, { "question": "Assume Earth's Oceans's volume is half its value. How many Lincoln Memorial Reflecting Pool have the same volume as Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 3.962000E+22 m**3.=F2: The volume of Lincoln Memorial Reflecting Pool is 1.505882E-02 times that of Melbourne Cricket Ground.=F3: The volume of Melbourne Cricket Ground is 4.811000E+10 m**3.", "answer": "2.734375E+13", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of Lincoln Memorial Reflecting Pool?=Q3: What is the volume of Melbourne Cricket Ground?=Q4: What is half the volume of Earth's Oceans?=Q5: What is the ratio of the volume of Lincoln Memorial Reflecting Pool and that of Melbourne Cricket Ground?=A1: 3.962000E+22 m**3=A2: 4.811000E+10 m**3=A3: 1.505882E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's volume is half its value. How many Car have the same volume as Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F2: The volume of Car is 3.200000E-03 times that of Olympic Pool.=F3: The volume of Olympic Pool is 2.500000E+03 m**3.", "answer": "4.528000E+07", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Car?=Q3: What is the volume of Olympic Pool?=Q4: What is half the volume of Lincoln Memorial Reflecting Pool?=Q5: What is the ratio of the volume of Car and that of Olympic Pool?=A1: 7.244800E+08 m**3=A2: 2.500000E+03 m**3=A3: 3.200000E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Car", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Bill Gates make up 249 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 1.857143E-02 times that of Elephant.=F2: The mass of Elephant is 3.500000E+03 kg.=F3: The total mass that needs to be reached is 249 kg.", "answer": "3.830769E+00", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the mass of Elephant?=Q3: What is the total mass that needs to be reached?=A1: 3.500000E+03 kg=A2: 249 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.857143E-02)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "249" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "Assume Diameter of Earth's length is half its value. How many English Channel have the same length as Diameter of Earth?", "context": "CONTEXT:=F1: The length of Diameter of Earth is 3.888112E+06 m.=F2: The length of English Channel is 3.261360E+04 m.", "answer": "5.960875E+01", "program": "PROGRAM:=Q1: What is the length of Diameter of Earth?=Q2: What is the length of English Channel?=Q3: What is half the length of Diameter of Earth?=A1: 3.888112E+06 m=A2: 3.261360E+04 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Diameter of Earth", "length" ] ], [ ".", [ "English Channel", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hubble Telescope put together contain the same information as 22 of Google database?", "context": "CONTEXT:=F1: The data of Hubble Telescope is 3.038674E+04 times that of HDTV Television Show (30 Minutes).=F2: The data of Google database is 7.500000E+15 bytes.=F3: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.", "answer": "1.500000E+02", "program": "PROGRAM:=Q1: What is the data of Hubble Telescope?=Q2: What is the data of Google database?=Q3: What is the data of HDTV Television Show (30 Minutes)?=Q4: What is 22 times the data of Google database?=Q5: What is the ratio of the data of Hubble Telescope and that of HDTV Television Show (30 Minutes)?=A1: 7.500000E+15 bytes=A2: 3.620000E+10 bytes=A3: 3.038674E+04=Q2 -> A1 | F2=Q4 -> Mul(Q2, 22)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google database", "data" ] ], [ ".", [ "Hubble Telescope", "data" ] ] ] ], [ "", [ "22" ] ] ] ] ] }, { "question": "Assume Halley's Comet's volume is half its value. How many STARBUCKS Venti Coffee make Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 1.132000E+17 m**3.=F2: The volume of STARBUCKS Venti Coffee is 5.093525E+00 times that of Puck (Hockey).=F3: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "3.389831E+15", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of STARBUCKS Venti Coffee?=Q3: What is the volume of Puck (Hockey)?=Q4: What is half the volume of Halley's Comet?=Q5: What is the ratio of the volume of STARBUCKS Venti Coffee and that of Puck (Hockey)?=A1: 1.132000E+17 m**3=A2: 3.278083E+00 m**3=A3: 5.093525E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many King Size Bed fit on Soccer City ?", "context": "CONTEXT:=F1: The area of Soccer City is 2.415400E+05 m**2.=F2: The area of King Size Bed is 9.234043E-07 times that of Ninoy Aquino International Airport (MNL).=F3: The area of Ninoy Aquino International Airport (MNL) is 4.366300E+06 m**2.", "answer": "5.990783E+04", "program": "PROGRAM:=Q1: What is the area of Soccer City ?=Q2: What is the area of King Size Bed?=Q3: What is the area of Ninoy Aquino International Airport (MNL)?=Q4: What is the ratio of the area of King Size Bed and that of Ninoy Aquino International Airport (MNL)?=A1: 2.415400E+05 m**2=A2: 4.366300E+06 m**2=A3: 9.234043E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Soccer City ", "area" ] ], [ ".", [ "King Size Bed", "area" ] ] ] ] ] }, { "question": "Assume Mississippi River's length is half its value. How many Man's Footstep have the same length as Mississippi River?", "context": "CONTEXT:=F1: The length of Mississippi River is 1.147877E+06 m.=F2: The length of Man's Footstep is 2.407920E-01 m.", "answer": "2.383544E+06", "program": "PROGRAM:=Q1: What is the length of Mississippi River?=Q2: What is the length of Man's Footstep?=Q3: What is half the length of Mississippi River?=A1: 1.147877E+06 m=A2: 2.407920E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mississippi River", "length" ] ], [ ".", [ "Man's Footstep", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Bill Gates make up 775 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 775 kg.", "answer": "1.192308E+01", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 775 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "775" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "Assume Marshmallow's volume is half its value. How many Person have the same volume as Marshmallow?", "context": "CONTEXT:=F1: The volume of Marshmallow is 8.490000E-01 m**3.=F2: The volume of Person is 6.000000E-02 m**3.", "answer": "7.075000E+00", "program": "PROGRAM:=Q1: What is the volume of Marshmallow?=Q2: What is the volume of Person?=Q3: What is half the volume of Marshmallow?=A1: 8.490000E-01 m**3=A2: 6.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Marshmallow", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 285 of Earth were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 3.988000E-01 times that of glass.=F2: The volume of Earth is 1.100000E+21 m**3.=F3: The density of glass is 2.500000E+09 kg * m ** -3.", "answer": "3.125595E+32 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Earth?=Q3: What is the density of glass?=Q4: What is 285 times the volume of Earth?=Q5: What is the ratio of the density of water and that of glass?=A1: 1.100000E+21 m**3=A2: 2.500000E+09 kg * m ** -3=A3: 3.988000E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 285)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Earth", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "285" ] ] ] ] ] }, { "question": "How many Great Banyan Tree have the same area as United States?", "context": "CONTEXT:=F1: The area of United States is 9.826349E+12 m**2.=F2: The area of Great Banyan Tree is 2.070088E-08 times that of Texas.=F3: The area of Texas is 6.955984E+11 m**2.", "answer": "6.824090E+08", "program": "PROGRAM:=Q1: What is the area of United States?=Q2: What is the area of Great Banyan Tree?=Q3: What is the area of Texas?=Q4: What is the ratio of the area of Great Banyan Tree and that of Texas?=A1: 9.826349E+12 m**2=A2: 6.955984E+11 m**2=A3: 2.070088E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "United States", "area" ] ], [ ".", [ "Great Banyan Tree", "area" ] ] ] ] ] }, { "question": "How many Baseball make Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 1.132000E+17 m**3.=F2: The volume of Baseball is 8.665898E-11 times that of Great Pyramid of Giza.=F3: The volume of Great Pyramid of Giza is 6.870148E+10 m**3.", "answer": "1.901371E+16", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of Baseball?=Q3: What is the volume of Great Pyramid of Giza?=Q4: What is the ratio of the volume of Baseball and that of Great Pyramid of Giza?=A1: 1.132000E+17 m**3=A2: 6.870148E+10 m**3=A3: 8.665898E-11=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "Baseball", "volume" ] ] ] ] ] }, { "question": "Assume Auckland International Airport (AKL)'s area is half its value. How many Hockey rink have the same area as Auckland International Airport (AKL)?", "context": "CONTEXT:=F1: The area of Auckland International Airport (AKL) is 1.493198E-02 times that of San Diego.=F2: The area of Hockey rink is 1.516779E+03 m**2.=F3: The area of San Diego is 8.399089E+08 m**2.", "answer": "4.134254E+03", "program": "PROGRAM:=Q1: What is the area of Auckland International Airport (AKL)?=Q2: What is the area of Hockey rink?=Q3: What is the area of San Diego?=Q4: What is half the area of Auckland International Airport (AKL)?=Q5: What is the ratio of the area of Auckland International Airport (AKL) and that of San Diego?=A1: 1.516779E+03 m**2=A2: 8.399089E+08 m**2=A3: 1.493198E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Auckland International Airport (AKL)", "area" ] ], [ ".", [ "Hockey rink", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 529 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.226900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 529 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(529, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "529" ] ] ] ] ] }, { "question": "Assume Houston's area is half its value. How many Mars Bars have the same area as Houston?", "context": "CONTEXT:=F1: The area of Houston is 1.501264E+09 m**2.=F2: The area of Mars Bars is 2.875736E-12 times that of Hawaii (Island).=F3: The area of Hawaii (Island) is 1.043211E+10 m**2.", "answer": "2.502107E+10", "program": "PROGRAM:=Q1: What is the area of Houston?=Q2: What is the area of Mars Bars?=Q3: What is the area of Hawaii (Island)?=Q4: What is half the area of Houston?=Q5: What is the ratio of the area of Mars Bars and that of Hawaii (Island)?=A1: 1.501264E+09 m**2=A2: 1.043211E+10 m**2=A3: 2.875736E-12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Houston", "area" ] ], [ ".", [ "Mars Bars", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 355 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.165500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 355 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(355, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "355" ] ] ] ] ] }, { "question": "If 473 of Marshmallow were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 8.490000E-01 kg * m ** -3.=F2: The volume of Marshmallow is 8.108108E-10 times that of Capitol Rotunda (US).=F3: The volume of Capitol Rotunda (US) is 1.047100E+09 m**3.", "answer": "3.686477E+11 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Marshmallow?=Q3: What is the volume of Capitol Rotunda (US)?=Q4: What is 473 times the volume of Marshmallow?=Q5: What is the ratio of the volume of Marshmallow and that of Capitol Rotunda (US)?=A1: 8.490000E-01 kg * m ** -3=A2: 1.047100E+09 m**3=A3: 8.108108E-10=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 473)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Marshmallow", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "473" ] ] ] ] ] }, { "question": "How many Isle of Wight fit on Kansas?", "context": "CONTEXT:=F1: The area of Kansas is 2.130894E+11 m**2.=F2: The area of Isle of Wight is 1.222937E+00 times that of Dublin.=F3: The area of Dublin is 3.175322E+08 m**2.", "answer": "5.487440E+02", "program": "PROGRAM:=Q1: What is the area of Kansas?=Q2: What is the area of Isle of Wight?=Q3: What is the area of Dublin?=Q4: What is the ratio of the area of Isle of Wight and that of Dublin?=A1: 2.130894E+11 m**2=A2: 3.175322E+08 m**2=A3: 1.222937E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Kansas", "area" ] ], [ ".", [ "Isle of Wight", "area" ] ] ] ] ] }, { "question": "Assume Volga's length is half its value. How many Bathtub have the same length as Volga?", "context": "CONTEXT:=F1: The length of Volga is 1.075944E+06 m.=F2: The length of Bathtub is 1.700000E+00 m.", "answer": "3.164541E+05", "program": "PROGRAM:=Q1: What is the length of Volga?=Q2: What is the length of Bathtub?=Q3: What is half the length of Volga?=A1: 1.075944E+06 m=A2: 1.700000E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Volga", "length" ] ], [ ".", [ "Bathtub", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Nelson's Column's length is half its value. How many Cell's Nucleus have the same length as Nelson's Column?", "context": "CONTEXT:=F1: The length of Nelson's Column is 1.573987E+01 m.=F2: The length of Cell's Nucleus is 1.828800E-06 m.", "answer": "4.303333E+06", "program": "PROGRAM:=Q1: What is the length of Nelson's Column?=Q2: What is the length of Cell's Nucleus?=Q3: What is half the length of Nelson's Column?=A1: 1.573987E+01 m=A2: 1.828800E-06 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Nelson's Column", "length" ] ], [ ".", [ "Cell's Nucleus", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume classroom's length is half its value. How many Human hair, Strand of have the same length as classroom?", "context": "CONTEXT:=F1: The length of classroom is 7.575758E-06 times that of Rhine.=F2: The length of Human hair, Strand of is 3.017520E-05 m.=F3: The length of Rhine is 4.023360E+05 m.", "answer": "5.050505E+04", "program": "PROGRAM:=Q1: What is the length of classroom?=Q2: What is the length of Human hair, Strand of?=Q3: What is the length of Rhine?=Q4: What is half the length of classroom?=Q5: What is the ratio of the length of classroom and that of Rhine?=A1: 3.017520E-05 m=A2: 4.023360E+05 m=A3: 7.575758E-06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "classroom", "length" ] ], [ ".", [ "Human hair, Strand of", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 986 of Hot Air Balloon were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 7.011394E-01 times that of oxygen.=F2: The volume of Hot Air Balloon is 6.226000E+07 m**3.=F3: The density of oxygen is 1.141000E+09 kg * m ** -3.", "answer": "4.911069E+19 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Hot Air Balloon?=Q3: What is the density of oxygen?=Q4: What is 986 times the volume of Hot Air Balloon?=Q5: What is the ratio of the density of gasoline and that of oxygen?=A1: 6.226000E+07 m**3=A2: 1.141000E+09 kg * m ** -3=A3: 7.011394E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 986)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Hot Air Balloon", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "986" ] ] ] ] ] }, { "question": "How many YouTube's video database put together contain the same information as 258 of iPod?", "context": "CONTEXT:=F1: The data of YouTube's video database is 4.700000E+15 bytes.=F2: The data of iPod is 1.380000E+12 bytes.", "answer": "7.575319E-02", "program": "PROGRAM:=Q1: What is the data of YouTube's video database?=Q2: What is the data of iPod?=Q3: What is 258 times the data of iPod?=A1: 4.700000E+15 bytes=A2: 1.380000E+12 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 258)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "iPod", "data" ] ], [ ".", [ "YouTube's video database", "data" ] ] ] ], [ "", [ "258" ] ] ] ] ] }, { "question": "How many Spring Temple Buddha have the same length as Golden Gate Bridge?", "context": "CONTEXT:=F1: The length of Golden Gate Bridge is 4.613821E-01 times that of Shanghai World Financial Center.=F2: The length of Spring Temple Buddha is 4.663440E+01 m.=F3: The length of Shanghai World Financial Center is 1.499616E+02 m.", "answer": "1.483660E+00", "program": "PROGRAM:=Q1: What is the length of Golden Gate Bridge?=Q2: What is the length of Spring Temple Buddha?=Q3: What is the length of Shanghai World Financial Center?=Q4: What is the ratio of the length of Golden Gate Bridge and that of Shanghai World Financial Center?=A1: 4.663440E+01 m=A2: 1.499616E+02 m=A3: 4.613821E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Golden Gate Bridge", "length" ] ], [ ".", [ "Spring Temple Buddha", "length" ] ] ] ] ] }, { "question": "Assume Puck (Hockey)'s volume is half its value. How many Child have the same volume as Puck (Hockey)?", "context": "CONTEXT:=F1: The volume of Puck (Hockey) is 3.278083E+00 m**3.=F2: The volume of Child is 3.000000E-02 m**3.", "answer": "5.463472E+01", "program": "PROGRAM:=Q1: What is the volume of Puck (Hockey)?=Q2: What is the volume of Child?=Q3: What is half the volume of Puck (Hockey)?=A1: 3.278083E+00 m**3=A2: 3.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Puck (Hockey)", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Nelson's Column's length is half its value. How many Bowling Pin have the same length as Nelson's Column?", "context": "CONTEXT:=F1: The length of Nelson's Column is 5.379167E-01 times that of Big Ben.=F2: The length of Bowling Pin is 1.161288E-01 m.=F3: The length of Big Ben is 2.926080E+01 m.", "answer": "6.776903E+01", "program": "PROGRAM:=Q1: What is the length of Nelson's Column?=Q2: What is the length of Bowling Pin?=Q3: What is the length of Big Ben?=Q4: What is half the length of Nelson's Column?=Q5: What is the ratio of the length of Nelson's Column and that of Big Ben?=A1: 1.161288E-01 m=A2: 2.926080E+01 m=A3: 5.379167E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Nelson's Column", "length" ] ], [ ".", [ "Bowling Pin", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 281 of boulder were to have the same density as glass, how much would it weigh?", "context": "CONTEXT:=F1: The density of glass is 7.075000E+03 kg * m ** -3.=F2: The volume of boulder is 7.075000E+07 times that of Sheet of paper.=F3: The volume of Sheet of paper is 1.000000E-04 m**3.", "answer": "4.970188E+15 kg", "program": "PROGRAM:=Q1: What is the density of glass?=Q2: What is the volume of boulder?=Q3: What is the volume of Sheet of paper?=Q4: What is 281 times the volume of boulder?=Q5: What is the ratio of the volume of boulder and that of Sheet of paper?=A1: 7.075000E+03 kg * m ** -3=A2: 1.000000E-04 m**3=A3: 7.075000E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 281)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "boulder", "volume" ] ], [ ".", [ "glass", "density" ] ] ] ], [ "", [ "281" ] ] ] ] ] }, { "question": "Assume Philadelphia's area is half its value. How many Olympic Pool have the same area as Philadelphia?", "context": "CONTEXT:=F1: The area of Philadelphia is 3.498614E+08 m**2.=F2: The area of Olympic Pool is 3.289474E-11 times that of Moon.=F3: The area of Moon is 3.800000E+13 m**2.", "answer": "1.399446E+05", "program": "PROGRAM:=Q1: What is the area of Philadelphia?=Q2: What is the area of Olympic Pool?=Q3: What is the area of Moon?=Q4: What is half the area of Philadelphia?=Q5: What is the ratio of the area of Olympic Pool and that of Moon?=A1: 3.498614E+08 m**2=A2: 3.800000E+13 m**2=A3: 3.289474E-11=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Philadelphia", "area" ] ], [ ".", [ "Olympic Pool", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume STARBUCKS Venti Coffee's volume is half its value. How many Golf Ball (packed) make STARBUCKS Venti Coffee?", "context": "CONTEXT:=F1: The volume of STARBUCKS Venti Coffee is 8.205841E-04 times that of Hot Tub.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "4.640603E+00", "program": "PROGRAM:=Q1: What is the volume of STARBUCKS Venti Coffee?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is the volume of Hot Tub?=Q4: What is half the volume of STARBUCKS Venti Coffee?=Q5: What is the ratio of the volume of STARBUCKS Venti Coffee and that of Hot Tub?=A1: 1.799012E+00 m**3=A2: 2.034770E+04 m**3=A3: 8.205841E-04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ], [ ".", [ "Golf Ball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hairs can 695 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Dog.=F2: The cost of Hairs is $5.000000E+01.=F3: The cost of Dog is $1.000000E+03.", "answer": "1.812560E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Dog?=Q4: What is 695 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Dog?=A1: $5.000000E+01=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 695)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "695" ] ] ] ] ] }, { "question": "How many Indira Gandhi International Airport (DEL) fit on Minnesota?", "context": "CONTEXT:=F1: The area of Minnesota is 2.251632E+11 m**2.=F2: The area of Indira Gandhi International Airport (DEL) is 2.066096E+07 m**2.", "answer": "1.089800E+04", "program": "PROGRAM:=Q1: What is the area of Minnesota?=Q2: What is the area of Indira Gandhi International Airport (DEL)?=A1: 2.251632E+11 m**2=A2: 2.066096E+07 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Minnesota", "area" ] ], [ ".", [ "Indira Gandhi International Airport (DEL)", "area" ] ] ] ] ] }, { "question": "How many Bill Gates can 115 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is 1.304000E+11 times that of Mars Bars.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "1.150000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Mars Bars?=Q4: What is 115 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Mars Bars?=A1: $1.304000E+11=A2: $1.000000E+00=A3: 1.304000E+11=Q1 -> A1 | F1=Q4 -> Mul(Q1, 115)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "115" ] ] ] ] ] }, { "question": "How many Internet put together contain the same information as 484 of smartphone?", "context": "CONTEXT:=F1: The data of Internet is 4.000000E+19 bytes.=F2: The data of smartphone is 5.120000E+11 bytes.", "answer": "6.195200E-06", "program": "PROGRAM:=Q1: What is the data of Internet?=Q2: What is the data of smartphone?=Q3: What is 484 times the data of smartphone?=A1: 4.000000E+19 bytes=A2: 5.120000E+11 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 484)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "smartphone", "data" ] ], [ ".", [ "Internet", "data" ] ] ] ], [ "", [ "484" ] ] ] ] ] }, { "question": "How many Bowling Pin have the same length as suitcase?", "context": "CONTEXT:=F1: The length of suitcase is 1.828800E-01 m.=F2: The length of Bowling Pin is 2.241176E+02 times that of Strand of Spaghetti (thickness).=F3: The length of Strand of Spaghetti (thickness) is 5.181600E-04 m.", "answer": "1.574803E+00", "program": "PROGRAM:=Q1: What is the length of suitcase?=Q2: What is the length of Bowling Pin?=Q3: What is the length of Strand of Spaghetti (thickness)?=Q4: What is the ratio of the length of Bowling Pin and that of Strand of Spaghetti (thickness)?=A1: 1.828800E-01 m=A2: 5.181600E-04 m=A3: 2.241176E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "suitcase", "length" ] ], [ ".", [ "Bowling Pin", "length" ] ] ] ] ] }, { "question": "How long to digest 516 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.147600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 516 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(516, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "516" ] ] ] ] ] }, { "question": "How many HDTV Television Show (30 Minutes) put together contain the same information as 775 of iPod?", "context": "CONTEXT:=F1: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.=F2: The data of iPod is 1.380000E+12 bytes.", "answer": "2.954420E+04", "program": "PROGRAM:=Q1: What is the data of HDTV Television Show (30 Minutes)?=Q2: What is the data of iPod?=Q3: What is 775 times the data of iPod?=A1: 3.620000E+10 bytes=A2: 1.380000E+12 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 775)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "iPod", "data" ] ], [ ".", [ "HDTV Television Show (30 Minutes)", "data" ] ] ] ], [ "", [ "775" ] ] ] ] ] }, { "question": "How long to digest 197 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.201700E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 197 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(197, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "197" ] ] ] ] ] }, { "question": "How many Wikipedia put together contain the same information as 395 of MP3 Song?", "context": "CONTEXT:=F1: The data of Wikipedia is 4.500000E+11 bytes.=F2: The data of MP3 Song is 6.976744E-05 times that of Blu-ray Disc.=F3: The data of Blu-ray Disc is 4.300000E+11 bytes.", "answer": "2.633333E-02", "program": "PROGRAM:=Q1: What is the data of Wikipedia?=Q2: What is the data of MP3 Song?=Q3: What is the data of Blu-ray Disc?=Q4: What is 395 times the data of MP3 Song?=Q5: What is the ratio of the data of MP3 Song and that of Blu-ray Disc?=A1: 4.500000E+11 bytes=A2: 4.300000E+11 bytes=A3: 6.976744E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 395)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "MP3 Song", "data" ] ], [ ".", [ "Wikipedia", "data" ] ] ] ], [ "", [ "395" ] ] ] ] ] }, { "question": "Assume Car's area is half its value. How many Postage Stamp fit on Car?", "context": "CONTEXT:=F1: The area of Car is 7.718162E+04 times that of Nailhead.=F2: The area of Postage Stamp is 3.716000E-04 m**2.=F3: The area of Nailhead is 7.773872E-05 m**2.", "answer": "8.073197E+03", "program": "PROGRAM:=Q1: What is the area of Car?=Q2: What is the area of Postage Stamp?=Q3: What is the area of Nailhead?=Q4: What is half the area of Car?=Q5: What is the ratio of the area of Car and that of Nailhead?=A1: 3.716000E-04 m**2=A2: 7.773872E-05 m**2=A3: 7.718162E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Car", "area" ] ], [ ".", [ "Postage Stamp", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Distance from L.A. to New York's length is half its value. How many Big Ben have the same length as Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 1.368552E+06 m.=F2: The length of Big Ben is 2.926080E+01 m.", "answer": "2.338542E+04", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the length of Big Ben?=Q3: What is half the length of Distance from L.A. to New York?=A1: 1.368552E+06 m=A2: 2.926080E+01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Big Ben", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume China's area is half its value. How many Phoenix fit on China?", "context": "CONTEXT:=F1: The area of China is 9.596644E+12 m**2.=F2: The area of Phoenix is 1.226280E+09 m**2.", "answer": "3.912909E+03", "program": "PROGRAM:=Q1: What is the area of China?=Q2: What is the area of Phoenix?=Q3: What is half the area of Phoenix?=A1: 9.596644E+12 m**2=A2: 1.226280E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "China", "area" ] ], [ ".", [ "Phoenix", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Grand Canyon's volume is half its value. How many Child make Grand Canyon?", "context": "CONTEXT:=F1: The volume of Grand Canyon is 1.180110E+17 m**3.=F2: The volume of Child is 3.000000E-02 m**3.", "answer": "1.966850E+18", "program": "PROGRAM:=Q1: What is the volume of Grand Canyon?=Q2: What is the volume of Child?=Q3: What is half the volume of Grand Canyon?=A1: 1.180110E+17 m**3=A2: 3.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Verne Troyer's length is half its value. How many Nucleus (Cellular) have the same length as Verne Troyer?", "context": "CONTEXT:=F1: The length of Verne Troyer is 2.468880E-01 m.=F2: The length of Nucleus (Cellular) is 5.454545E-06 times that of Kenny Baker.=F3: The length of Kenny Baker is 3.352800E-01 m.", "answer": "6.750000E+04", "program": "PROGRAM:=Q1: What is the length of Verne Troyer?=Q2: What is the length of Nucleus (Cellular)?=Q3: What is the length of Kenny Baker?=Q4: What is half the length of Verne Troyer?=Q5: What is the ratio of the length of Nucleus (Cellular) and that of Kenny Baker?=A1: 2.468880E-01 m=A2: 3.352800E-01 m=A3: 5.454545E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Verne Troyer", "length" ] ], [ ".", [ "Nucleus (Cellular)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Olympic Swimming Pool's volume is half its value. How many Bowling Ball have the same volume as Olympic Swimming Pool?", "context": "CONTEXT:=F1: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.=F2: The volume of Bowling Ball is 2.058337E-07 times that of Lincoln Memorial Reflecting Pool.=F3: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.", "answer": "2.372212E+05", "program": "PROGRAM:=Q1: What is the volume of Olympic Swimming Pool?=Q2: What is the volume of Bowling Ball?=Q3: What is the volume of Lincoln Memorial Reflecting Pool?=Q4: What is half the volume of Olympic Swimming Pool?=Q5: What is the ratio of the volume of Bowling Ball and that of Lincoln Memorial Reflecting Pool?=A1: 7.075000E+07 m**3=A2: 7.244800E+08 m**3=A3: 2.058337E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympic Swimming Pool", "volume" ] ], [ ".", [ "Bowling Ball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Speed of Light to travel across Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 1.961998E+06 m.=F2: The speed of Speed of Light is 2.997925E+08 m/s.", "answer": "6.544520E-03 s", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the speed of Speed of Light?=A1: 1.961998E+06 m=A2: 2.997925E+08 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Speed of Light", "speed" ] ] ] ] ] }, { "question": "Assume Challenger Deep (Marianas Trench)'s length is half its value. How many Matt Roloff have the same length as Challenger Deep (Marianas Trench)?", "context": "CONTEXT:=F1: The length of Challenger Deep (Marianas Trench) is 5.191429E+04 times that of plastic straw.=F2: The length of Matt Roloff is 3.962400E-01 m.=F3: The length of plastic straw is 6.400800E-02 m.", "answer": "4.193077E+03", "program": "PROGRAM:=Q1: What is the length of Challenger Deep (Marianas Trench)?=Q2: What is the length of Matt Roloff?=Q3: What is the length of plastic straw?=Q4: What is half the length of Challenger Deep (Marianas Trench)?=Q5: What is the ratio of the length of Challenger Deep (Marianas Trench) and that of plastic straw?=A1: 3.962400E-01 m=A2: 6.400800E-02 m=A3: 5.191429E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Challenger Deep (Marianas Trench)", "length" ] ], [ ".", [ "Matt Roloff", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Hawaii's area is half its value. How many Dog fit on Hawaii?", "context": "CONTEXT:=F1: The area of Hawaii is 2.831019E+10 m**2.=F2: The area of Dog is 1.000000E+00 m**2.", "answer": "1.415509E+10", "program": "PROGRAM:=Q1: What is the area of Hawaii?=Q2: What is the area of Dog?=Q3: What is half the area of Dog?=A1: 2.831019E+10 m**2=A2: 1.000000E+00 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hawaii", "area" ] ], [ ".", [ "Dog", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mitochondrion have the same length as Arc de Triomphe?", "context": "CONTEXT:=F1: The length of Arc de Triomphe is 1.493520E+01 m.=F2: The length of Mitochondrion is 1.613180E-11 times that of 405.=F3: The length of 405 is 3.552139E+04 m.", "answer": "2.606383E+07", "program": "PROGRAM:=Q1: What is the length of Arc de Triomphe?=Q2: What is the length of Mitochondrion?=Q3: What is the length of 405?=Q4: What is the ratio of the length of Mitochondrion and that of 405?=A1: 1.493520E+01 m=A2: 3.552139E+04 m=A3: 1.613180E-11=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Arc de Triomphe", "length" ] ], [ ".", [ "Mitochondrion", "length" ] ] ] ] ] }, { "question": "How long to digest 896 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.465600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 896 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(896, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "896" ] ] ] ] ] }, { "question": "Assume Sydney Harbour's volume is half its value. How many Egg (Chicken) fit in Sydney Harbour?", "context": "CONTEXT:=F1: The volume of Sydney Harbour is 1.590460E+13 m**3.=F2: The volume of Egg (Chicken) is 2.266667E-02 times that of head.=F3: The volume of head is 8.490000E+01 m**3.", "answer": "4.132353E+12", "program": "PROGRAM:=Q1: What is the volume of Sydney Harbour?=Q2: What is the volume of Egg (Chicken)?=Q3: What is the volume of head?=Q4: What is half the volume of Sydney Harbour?=Q5: What is the ratio of the volume of Egg (Chicken) and that of head?=A1: 1.590460E+13 m**3=A2: 8.490000E+01 m**3=A3: 2.266667E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Gulf of Mexico's volume is half its value. How many Ostrich Egg have the same volume as Gulf of Mexico?", "context": "CONTEXT:=F1: The volume of Gulf of Mexico is 1.431765E+09 times that of Melbourne Cricket Ground.=F2: The volume of Ostrich Egg is 4.618560E+01 m**3.=F3: The volume of Melbourne Cricket Ground is 4.811000E+10 m**3.", "answer": "7.457108E+17", "program": "PROGRAM:=Q1: What is the volume of Gulf of Mexico?=Q2: What is the volume of Ostrich Egg?=Q3: What is the volume of Melbourne Cricket Ground?=Q4: What is half the volume of Gulf of Mexico?=Q5: What is the ratio of the volume of Gulf of Mexico and that of Melbourne Cricket Ground?=A1: 4.618560E+01 m**3=A2: 4.811000E+10 m**3=A3: 1.431765E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "Ostrich Egg", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Moon's volume is half its value. How many Puck (Hockey) have the same volume as Moon?", "context": "CONTEXT:=F1: The volume of Moon is 3.179341E-01 times that of Gulf of Mexico.=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.=F3: The volume of Gulf of Mexico is 6.888220E+19 m**3.", "answer": "3.340367E+18", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of Puck (Hockey)?=Q3: What is the volume of Gulf of Mexico?=Q4: What is half the volume of Moon?=Q5: What is the ratio of the volume of Moon and that of Gulf of Mexico?=A1: 3.278083E+00 m**3=A2: 6.888220E+19 m**3=A3: 3.179341E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "Puck (Hockey)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Birmingham's area is half its value. How many Mall of America have the same area as Birmingham?", "context": "CONTEXT:=F1: The area of Birmingham is 2.678000E+08 m**2.=F2: The area of Mall of America is 3.901800E+05 m**2.", "answer": "3.431749E+02", "program": "PROGRAM:=Q1: What is the area of Birmingham?=Q2: What is the area of Mall of America?=Q3: What is half the area of Mall of America?=A1: 2.678000E+08 m**2=A2: 3.901800E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Birmingham", "area" ] ], [ ".", [ "Mall of America", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 182 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.110200E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 182 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(182, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "182" ] ] ] ] ] }, { "question": "How long does it take for Flo-Jo to travel across Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 1.171762E+08 m.=F2: The speed of Flo-Jo is 9.369958E+00 m/s.", "answer": "1.250552E+07 s", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the speed of Flo-Jo?=A1: 1.171762E+08 m=A2: 9.369958E+00 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Flo-Jo", "speed" ] ] ] ] ] }, { "question": "Assume Earth's volume is half its value. How many STARBUCKS Venti Coffee have the same volume as Earth?", "context": "CONTEXT:=F1: The volume of Earth is 5.406016E+16 times that of Hot Tub.=F2: The volume of STARBUCKS Venti Coffee is 1.669700E+01 m**3.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "3.294005E+19", "program": "PROGRAM:=Q1: What is the volume of Earth?=Q2: What is the volume of STARBUCKS Venti Coffee?=Q3: What is the volume of Hot Tub?=Q4: What is half the volume of Earth?=Q5: What is the ratio of the volume of Earth and that of Hot Tub?=A1: 1.669700E+01 m**3=A2: 2.034770E+04 m**3=A3: 5.406016E+16=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth", "volume" ] ], [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Alcatraz have the same area as Eden Gardens Cricket Grounds?", "context": "CONTEXT:=F1: The area of Eden Gardens Cricket Grounds is 6.070086E+05 m**2.=F2: The area of Alcatraz is 1.548387E-01 times that of Rizal Park.=F3: The area of Rizal Park is 5.759800E+05 m**2.", "answer": "6.806250E+00", "program": "PROGRAM:=Q1: What is the area of Eden Gardens Cricket Grounds?=Q2: What is the area of Alcatraz?=Q3: What is the area of Rizal Park?=Q4: What is the ratio of the area of Alcatraz and that of Rizal Park?=A1: 6.070086E+05 m**2=A2: 5.759800E+05 m**2=A3: 1.548387E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Eden Gardens Cricket Grounds", "area" ] ], [ ".", [ "Alcatraz", "area" ] ] ] ] ] }, { "question": "If 786 of Goodyear Blimp were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 1.624420E+08 kg * m ** -3.=F2: The volume of Goodyear Blimp is 1.624420E+08 m**3.", "answer": "1.172097E+20 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Goodyear Blimp?=Q3: What is 786 times the volume of Goodyear Blimp?=A1: 1.624420E+08 kg * m ** -3=A2: 1.624420E+08 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 786)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Goodyear Blimp", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "786" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 491 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 5.000000E-03 kg.=F2: The total mass that needs to be reached is 491 kg.", "answer": "9.820000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 491 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "491" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Child make up 613 kgs?", "context": "CONTEXT:=F1: The mass of Child is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 613 kg.", "answer": "2.043333E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 613 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "613" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How long to digest 76 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.636000E+00 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 76 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(76, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "76" ] ] ] ] ] }, { "question": "How long does it take for Lamborghini Gallardo to travel across I-80?", "context": "CONTEXT:=F1: The length of I-80 is 1.413672E+06 m.=F2: The speed of Lamborghini Gallardo is 5.319149E+00 times that of Secretariat.=F3: The speed of Secretariat is 1.680870E+01 m/s.", "answer": "1.581147E+04 s", "program": "PROGRAM:=Q1: What is the length of I-80?=Q2: What is the speed of Lamborghini Gallardo?=Q3: What is the speed of Secretariat?=Q4: What is the ratio of the speed of Lamborghini Gallardo and the speed of Secretariat?=A1: 1.413672E+06 m=A2: 1.680870E+01 m/s=A3: 5.319149E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "I-80", "length" ] ], [ ".", [ "Lamborghini Gallardo", "speed" ] ] ] ] ] }, { "question": "Assume Mount Everest's length is half its value. How many Danny DeVito have the same length as Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 6.703682E-03 times that of Rhine.=F2: The length of Danny DeVito is 4.572000E-01 m.=F3: The length of Rhine is 4.023360E+05 m.", "answer": "2.949620E+03", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the length of Danny DeVito?=Q3: What is the length of Rhine?=Q4: What is half the length of Mount Everest?=Q5: What is the ratio of the length of Mount Everest and that of Rhine?=A1: 4.572000E-01 m=A2: 4.023360E+05 m=A3: 6.703682E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Danny DeVito", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars make up 168 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 8.375209E-27 times that of Earth.=F2: The mass of Earth is 5.970000E+24 kg.=F3: The total mass that needs to be reached is 168 kg.", "answer": "3.360000E+03", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the mass of Earth?=Q3: What is the total mass that needs to be reached?=A1: 5.970000E+24 kg=A2: 168 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 8.375209E-27)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "168" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many Playing Card have the same area as Manchester Cathedral?", "context": "CONTEXT:=F1: The area of Manchester Cathedral is 3.899941E-06 times that of Dublin.=F2: The area of Playing Card is 5.574000E-03 m**2.=F3: The area of Dublin is 3.175322E+08 m**2.", "answer": "2.221667E+05", "program": "PROGRAM:=Q1: What is the area of Manchester Cathedral?=Q2: What is the area of Playing Card?=Q3: What is the area of Dublin?=Q4: What is the ratio of the area of Manchester Cathedral and that of Dublin?=A1: 5.574000E-03 m**2=A2: 3.175322E+08 m**2=A3: 3.899941E-06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Manchester Cathedral", "area" ] ], [ ".", [ "Playing Card", "area" ] ] ] ] ] }, { "question": "How many suitcase have the same length as Kentucky Derby?", "context": "CONTEXT:=F1: The length of Kentucky Derby is 6.131601E+02 m.=F2: The length of suitcase is 1.828800E-01 m.", "answer": "3.352800E+03", "program": "PROGRAM:=Q1: What is the length of Kentucky Derby?=Q2: What is the length of suitcase?=A1: 6.131601E+02 m=A2: 1.828800E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Kentucky Derby", "length" ] ], [ ".", [ "suitcase", "length" ] ] ] ] ] }, { "question": "Assume Canton Tower's length is half its value. How many Danny DeVito have the same length as Canton Tower?", "context": "CONTEXT:=F1: The length of Canton Tower is 1.859280E+02 m.=F2: The length of Danny DeVito is 4.572000E-01 m.", "answer": "2.033333E+02", "program": "PROGRAM:=Q1: What is the length of Canton Tower?=Q2: What is the length of Danny DeVito?=Q3: What is half the length of Canton Tower?=A1: 1.859280E+02 m=A2: 4.572000E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Canton Tower", "length" ] ], [ ".", [ "Danny DeVito", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Mount Elbrus's length is half its value. How many Big Ben have the same length as Mount Elbrus?", "context": "CONTEXT:=F1: The length of Mount Elbrus is 4.701667E-02 times that of Hadrian's Wall.=F2: The length of Big Ben is 2.926080E+01 m.=F3: The length of Hadrian's Wall is 3.657600E+04 m.", "answer": "2.938542E+01", "program": "PROGRAM:=Q1: What is the length of Mount Elbrus?=Q2: What is the length of Big Ben?=Q3: What is the length of Hadrian's Wall?=Q4: What is half the length of Mount Elbrus?=Q5: What is the ratio of the length of Mount Elbrus and that of Hadrian's Wall?=A1: 2.926080E+01 m=A2: 3.657600E+04 m=A3: 4.701667E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Elbrus", "length" ] ], [ ".", [ "Big Ben", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars can 521 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Mars Bars is $1.000000E+00.", "answer": "6.793840E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is 521 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+00=Q1 -> A1 | F1=Q3 -> Mul(Q1, 521)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "521" ] ] ] ] ] }, { "question": "How many Pandora put together contain the same information as 848 of Digital Photo?", "context": "CONTEXT:=F1: The data of Pandora is 6.077348E+04 times that of HDTV Television Show (30 Minutes).=F2: The data of Digital Photo is 1.300000E+07 bytes.=F3: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.", "answer": "5.010909E-06", "program": "PROGRAM:=Q1: What is the data of Pandora?=Q2: What is the data of Digital Photo?=Q3: What is the data of HDTV Television Show (30 Minutes)?=Q4: What is 848 times the data of Digital Photo?=Q5: What is the ratio of the data of Pandora and that of HDTV Television Show (30 Minutes)?=A1: 1.300000E+07 bytes=A2: 3.620000E+10 bytes=A3: 6.077348E+04=Q2 -> A1 | F2=Q4 -> Mul(Q2, 848)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "Pandora", "data" ] ] ] ], [ "", [ "848" ] ] ] ] ] }, { "question": "How many Royal Albert Hall fit in Grand Canyon?", "context": "CONTEXT:=F1: The volume of Grand Canyon is 1.180110E+17 m**3.=F2: The volume of Royal Albert Hall is 2.452195E+09 m**3.", "answer": "4.812464E+07", "program": "PROGRAM:=Q1: What is the volume of Grand Canyon?=Q2: What is the volume of Royal Albert Hall?=A1: 1.180110E+17 m**3=A2: 2.452195E+09 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Royal Albert Hall", "volume" ] ] ] ] ] }, { "question": "Assume Sheet of paper's length is half its value. How many Red Blood Cell have the same length as Sheet of paper?", "context": "CONTEXT:=F1: The length of Sheet of paper is 2.000000E-01 m.=F2: The length of Red Blood Cell is 1.250000E+00 times that of Nucleus (Cellular).=F3: The length of Nucleus (Cellular) is 1.828800E-06 m.", "answer": "4.374453E+04", "program": "PROGRAM:=Q1: What is the length of Sheet of paper?=Q2: What is the length of Red Blood Cell?=Q3: What is the length of Nucleus (Cellular)?=Q4: What is half the length of Sheet of paper?=Q5: What is the ratio of the length of Red Blood Cell and that of Nucleus (Cellular)?=A1: 2.000000E-01 m=A2: 1.828800E-06 m=A3: 1.250000E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sheet of paper", "length" ] ], [ ".", [ "Red Blood Cell", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper can 708 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Sheet of paper is $1.600000E-02.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "5.770200E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is the cost of Bathtub?=Q4: What is 708 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $1.600000E-02=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 708)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "708" ] ] ] ] ] }, { "question": "Assume Earth's Oceans's volume is half its value. How many Olympic Swimming Pool make Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 9.333333E+21 times that of Football (Soccer).=F2: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.=F3: The volume of Football (Soccer) is 4.245000E+00 m**3.", "answer": "2.800000E+14", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of Olympic Swimming Pool?=Q3: What is the volume of Football (Soccer)?=Q4: What is half the volume of Earth's Oceans?=Q5: What is the ratio of the volume of Earth's Oceans and that of Football (Soccer)?=A1: 7.075000E+07 m**3=A2: 4.245000E+00 m**3=A3: 9.333333E+21=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "Olympic Swimming Pool", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 388 of Human Stomach were to have the same density as glass, how much would it weigh?", "context": "CONTEXT:=F1: The density of glass is 3.184713E-01 times that of steel.=F2: The volume of Human Stomach is 5.660000E+01 m**3.=F3: The density of steel is 7.850000E+09 kg * m ** -3.", "answer": "5.490200E+13 kg", "program": "PROGRAM:=Q1: What is the density of glass?=Q2: What is the volume of Human Stomach?=Q3: What is the density of steel?=Q4: What is 388 times the volume of Human Stomach?=Q5: What is the ratio of the density of glass and that of steel?=A1: 5.660000E+01 m**3=A2: 7.850000E+09 kg * m ** -3=A3: 3.184713E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 388)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "glass", "density" ] ] ] ], [ "", [ "388" ] ] ] ] ] }, { "question": "How many Bill Gates have the same volume as Bathtub?", "context": "CONTEXT:=F1: The volume of Bathtub is 4.528000E+03 m**3.=F2: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "7.303226E+04", "program": "PROGRAM:=Q1: What is the volume of Bathtub?=Q2: What is the volume of Bill Gates?=A1: 4.528000E+03 m**3=A2: 6.200000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Bathtub", "volume" ] ], [ ".", [ "Bill Gates", "volume" ] ] ] ] ] }, { "question": "How many Hawaii (Island) have the same area as Island of Ireland?", "context": "CONTEXT:=F1: The area of Island of Ireland is 8.441823E+10 m**2.=F2: The area of Hawaii (Island) is 1.043211E+10 m**2.", "answer": "8.092151E+00", "program": "PROGRAM:=Q1: What is the area of Island of Ireland?=Q2: What is the area of Hawaii (Island)?=A1: 8.441823E+10 m**2=A2: 1.043211E+10 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Island of Ireland", "area" ] ], [ ".", [ "Hawaii (Island)", "area" ] ] ] ] ] }, { "question": "How many Grain of Sand have the same length as Washington Monument?", "context": "CONTEXT:=F1: The length of Washington Monument is 5.159959E+01 m.=F2: The length of Grain of Sand is 2.142857E-04 times that of Bill Gates.=F3: The length of Bill Gates is 1.778000E+00 m.", "answer": "1.354320E+05", "program": "PROGRAM:=Q1: What is the length of Washington Monument?=Q2: What is the length of Grain of Sand?=Q3: What is the length of Bill Gates?=Q4: What is the ratio of the length of Grain of Sand and that of Bill Gates?=A1: 5.159959E+01 m=A2: 1.778000E+00 m=A3: 2.142857E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Washington Monument", "length" ] ], [ ".", [ "Grain of Sand", "length" ] ] ] ] ] }, { "question": "Assume Telephone Pole's length is half its value. How many King Size Bed have the same length as Telephone Pole?", "context": "CONTEXT:=F1: The length of Telephone Pole is 3.352800E+00 m.=F2: The length of King Size Bed is 3.602837E-02 times that of Leaning Tower of Pisa.=F3: The length of Leaning Tower of Pisa is 1.719072E+01 m.", "answer": "2.706693E+00", "program": "PROGRAM:=Q1: What is the length of Telephone Pole?=Q2: What is the length of King Size Bed?=Q3: What is the length of Leaning Tower of Pisa?=Q4: What is half the length of Telephone Pole?=Q5: What is the ratio of the length of King Size Bed and that of Leaning Tower of Pisa?=A1: 3.352800E+00 m=A2: 1.719072E+01 m=A3: 3.602837E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Telephone Pole", "length" ] ], [ ".", [ "King Size Bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Polonium-241 can 754 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Polonium-241 is $4.920000E+13.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "1.998407E+00", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Polonium-241?=Q3: What is the cost of Bathtub?=Q4: What is 754 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $4.920000E+13=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 754)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Polonium-241", "cost" ] ] ] ], [ "", [ "754" ] ] ] ] ] }, { "question": "How many Egg (Chicken) have the same volume as Moon?", "context": "CONTEXT:=F1: The volume of Moon is 2.190000E+19 m**3.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.", "answer": "1.138017E+19", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of Egg (Chicken)?=A1: 2.190000E+19 m**3=A2: 1.924400E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ] ] }, { "question": "Assume Man's Footstep's length is half its value. How many pencil have the same length as Man's Footstep?", "context": "CONTEXT:=F1: The length of Man's Footstep is 2.407920E-01 m.=F2: The length of pencil is 4.572000E-02 m.", "answer": "2.633333E+00", "program": "PROGRAM:=Q1: What is the length of Man's Footstep?=Q2: What is the length of pencil?=Q3: What is half the length of Man's Footstep?=A1: 2.407920E-01 m=A2: 4.572000E-02 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Man's Footstep", "length" ] ], [ ".", [ "pencil", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Leaning Tower of Pisa's length is half its value. How many Gary Coleman have the same length as Leaning Tower of Pisa?", "context": "CONTEXT:=F1: The length of Leaning Tower of Pisa is 1.719072E+01 m.=F2: The length of Gary Coleman is 6.363636E-01 times that of Shaq.=F3: The length of Shaq is 6.705600E-01 m.", "answer": "2.014286E+01", "program": "PROGRAM:=Q1: What is the length of Leaning Tower of Pisa?=Q2: What is the length of Gary Coleman?=Q3: What is the length of Shaq?=Q4: What is half the length of Leaning Tower of Pisa?=Q5: What is the ratio of the length of Gary Coleman and that of Shaq?=A1: 1.719072E+01 m=A2: 6.705600E-01 m=A3: 6.363636E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Leaning Tower of Pisa", "length" ] ], [ ".", [ "Gary Coleman", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 253 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 6.802721E-26 times that of Moon.=F2: The mass of Moon is 7.350000E+22 kg.=F3: The total mass that needs to be reached is 253 kg.", "answer": "5.060000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Moon?=Q3: What is the total mass that needs to be reached?=A1: 7.350000E+22 kg=A2: 253 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 6.802721E-26)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "253" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Marshmallow make Moon?", "context": "CONTEXT:=F1: The volume of Moon is 2.190000E+19 m**3.=F2: The volume of Marshmallow is 8.490000E-01 m**3.", "answer": "2.579505E+19", "program": "PROGRAM:=Q1: What is the volume of Moon?=Q2: What is the volume of Marshmallow?=A1: 2.190000E+19 m**3=A2: 8.490000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Moon", "volume" ] ], [ ".", [ "Marshmallow", "volume" ] ] ] ] ] }, { "question": "How many Vatican City fit on Dublin International Airport (DUB)?", "context": "CONTEXT:=F1: The area of Dublin International Airport (DUB) is 1.039236E-03 times that of Hawaii (Island).=F2: The area of Vatican City is 4.366300E+05 m**2.=F3: The area of Hawaii (Island) is 1.043211E+10 m**2.", "answer": "2.482979E+01", "program": "PROGRAM:=Q1: What is the area of Dublin International Airport (DUB)?=Q2: What is the area of Vatican City?=Q3: What is the area of Hawaii (Island)?=Q4: What is the ratio of the area of Dublin International Airport (DUB) and that of Hawaii (Island)?=A1: 4.366300E+05 m**2=A2: 1.043211E+10 m**2=A3: 1.039236E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Dublin International Airport (DUB)", "area" ] ], [ ".", [ "Vatican City", "area" ] ] ] ] ] }, { "question": "How many Semitrailer have the same length as Elephant?", "context": "CONTEXT:=F1: The length of Elephant is 5.454545E+01 times that of Mars Bars.=F2: The length of Semitrailer is 4.459224E+00 m.=F3: The length of Mars Bars is 1.100000E-01 m.", "answer": "1.345526E+00", "program": "PROGRAM:=Q1: What is the length of Elephant?=Q2: What is the length of Semitrailer?=Q3: What is the length of Mars Bars?=Q4: What is the ratio of the length of Elephant and that of Mars Bars?=A1: 4.459224E+00 m=A2: 1.100000E-01 m=A3: 5.454545E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Elephant", "length" ] ], [ ".", [ "Semitrailer", "length" ] ] ] ] ] }, { "question": "How many LHC Data Generated per Second put together contain the same information as 367 of Digital Photo?", "context": "CONTEXT:=F1: The data of LHC Data Generated per Second is 2.000000E-01 times that of Walmart's Mainframe.=F2: The data of Digital Photo is 1.300000E+07 bytes.=F3: The data of Walmart's Mainframe is 4.000000E+15 bytes.", "answer": "5.963750E-06", "program": "PROGRAM:=Q1: What is the data of LHC Data Generated per Second?=Q2: What is the data of Digital Photo?=Q3: What is the data of Walmart's Mainframe?=Q4: What is 367 times the data of Digital Photo?=Q5: What is the ratio of the data of LHC Data Generated per Second and that of Walmart's Mainframe?=A1: 1.300000E+07 bytes=A2: 4.000000E+15 bytes=A3: 2.000000E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 367)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "LHC Data Generated per Second", "data" ] ] ] ], [ "", [ "367" ] ] ] ] ] }, { "question": "If 420 of Bowling Ball were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 1.491224E+02 kg * m ** -3.=F2: The volume of Bowling Ball is 1.491224E+02 m**3.", "answer": "5.749565E+13 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Bowling Ball?=Q3: What is 420 times the volume of Bowling Ball?=A1: 1.491224E+02 kg * m ** -3=A2: 1.491224E+02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 420)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bowling Ball", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "420" ] ] ] ] ] }, { "question": "How many Andr\u00e9 the Giant have the same length as Las Vegas Strip?", "context": "CONTEXT:=F1: The length of Las Vegas Strip is 2.072640E+03 m.=F2: The length of Andr\u00e9 the Giant is 6.705600E-01 m.", "answer": "3.090909E+03", "program": "PROGRAM:=Q1: What is the length of Las Vegas Strip?=Q2: What is the length of Andr\u00e9 the Giant?=A1: 2.072640E+03 m=A2: 6.705600E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Las Vegas Strip", "length" ] ], [ ".", [ "Andr\u00e9 the Giant", "length" ] ] ] ] ] }, { "question": "How many Manchester Cathedral have the same area as Abel Tasman National Park?", "context": "CONTEXT:=F1: The area of Abel Tasman National Park is 2.252825E+08 m**2.=F2: The area of Manchester Cathedral is 4.342020E+06 times that of coin.=F3: The area of coin is 2.852030E-04 m**2.", "answer": "1.819205E+05", "program": "PROGRAM:=Q1: What is the area of Abel Tasman National Park?=Q2: What is the area of Manchester Cathedral?=Q3: What is the area of coin?=Q4: What is the ratio of the area of Manchester Cathedral and that of coin?=A1: 2.252825E+08 m**2=A2: 2.852030E-04 m**2=A3: 4.342020E+06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Abel Tasman National Park", "area" ] ], [ ".", [ "Manchester Cathedral", "area" ] ] ] ] ] }, { "question": "How many Person make up 439 kgs?", "context": "CONTEXT:=F1: The mass of Person is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 439 kg.", "answer": "6.753846E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 439 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "439" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many Puck (Hockey) fit in Houston Astrodome?", "context": "CONTEXT:=F1: The volume of Houston Astrodome is 3.396000E+10 m**3.=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "1.035971E+10", "program": "PROGRAM:=Q1: What is the volume of Houston Astrodome?=Q2: What is the volume of Puck (Hockey)?=A1: 3.396000E+10 m**3=A2: 3.278083E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "Puck (Hockey)", "volume" ] ] ] ] ] }, { "question": "Assume Navy Pier's length is half its value. How many Mahabodhi Temple have the same length as Navy Pier?", "context": "CONTEXT:=F1: The length of Navy Pier is 2.743200E+02 m.=F2: The length of Mahabodhi Temple is 2.989130E-01 times that of Space Needle.=F3: The length of Space Needle is 5.608320E+01 m.", "answer": "8.181818E+00", "program": "PROGRAM:=Q1: What is the length of Navy Pier?=Q2: What is the length of Mahabodhi Temple?=Q3: What is the length of Space Needle?=Q4: What is half the length of Navy Pier?=Q5: What is the ratio of the length of Mahabodhi Temple and that of Space Needle?=A1: 2.743200E+02 m=A2: 5.608320E+01 m=A3: 2.989130E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Navy Pier", "length" ] ], [ ".", [ "Mahabodhi Temple", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Trafalgar Square's area is half its value. How many Bath Towel have the same area as Trafalgar Square?", "context": "CONTEXT:=F1: The area of Trafalgar Square is 1.207700E+04 m**2.=F2: The area of Bath Towel is 1.340920E-04 times that of Seal Island.=F3: The area of Seal Island is 8.082300E+03 m**2.", "answer": "5.571747E+03", "program": "PROGRAM:=Q1: What is the area of Trafalgar Square?=Q2: What is the area of Bath Towel?=Q3: What is the area of Seal Island?=Q4: What is half the area of Trafalgar Square?=Q5: What is the ratio of the area of Bath Towel and that of Seal Island?=A1: 1.207700E+04 m**2=A2: 8.082300E+03 m**2=A3: 1.340920E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Trafalgar Square", "area" ] ], [ ".", [ "Bath Towel", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Capitol Rotunda (US) fit in Royal Albert Hall?", "context": "CONTEXT:=F1: The volume of Royal Albert Hall is 2.452195E+09 m**3.=F2: The volume of Capitol Rotunda (US) is 1.047100E+09 m**3.", "answer": "2.341892E+00", "program": "PROGRAM:=Q1: What is the volume of Royal Albert Hall?=Q2: What is the volume of Capitol Rotunda (US)?=A1: 2.452195E+09 m**3=A2: 1.047100E+09 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Royal Albert Hall", "volume" ] ], [ ".", [ "Capitol Rotunda (US)", "volume" ] ] ] ] ] }, { "question": "How many Mars Bars fit in Golf Ball (packed)?", "context": "CONTEXT:=F1: The volume of Golf Ball (packed) is 7.720956E-03 times that of Bowling Ball (packed).=F2: The volume of Mars Bars is 3.000000E-03 m**3.=F3: The volume of Bowling Ball (packed) is 2.330038E+02 m**3.", "answer": "5.996707E+02", "program": "PROGRAM:=Q1: What is the volume of Golf Ball (packed)?=Q2: What is the volume of Mars Bars?=Q3: What is the volume of Bowling Ball (packed)?=Q4: What is the ratio of the volume of Golf Ball (packed) and that of Bowling Ball (packed)?=A1: 3.000000E-03 m**3=A2: 2.330038E+02 m**3=A3: 7.720956E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Golf Ball (packed)", "volume" ] ], [ ".", [ "Mars Bars", "volume" ] ] ] ] ] }, { "question": "How long to digest 809 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.934900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 809 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(809, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "809" ] ] ] ] ] }, { "question": "If 342 of Grand Canyon were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 1.180110E+17 kg * m ** -3.=F2: The volume of Grand Canyon is 1.180110E+17 m**3.", "answer": "4.843171E+28 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of Grand Canyon?=Q3: What is 342 times the volume of Grand Canyon?=A1: 1.180110E+17 kg * m ** -3=A2: 1.180110E+17 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 342)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "342" ] ] ] ] ] }, { "question": "How many virus have the same length as Aspirin?", "context": "CONTEXT:=F1: The length of Aspirin is 2.349387E-06 times that of Mount Logan.=F2: The length of virus is 3.048000E-09 m.=F3: The length of Mount Logan is 1.816303E+03 m.", "answer": "1.400000E+06", "program": "PROGRAM:=Q1: What is the length of Aspirin?=Q2: What is the length of virus?=Q3: What is the length of Mount Logan?=Q4: What is the ratio of the length of Aspirin and that of Mount Logan?=A1: 3.048000E-09 m=A2: 1.816303E+03 m=A3: 2.349387E-06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Aspirin", "length" ] ], [ ".", [ "virus", "length" ] ] ] ] ] }, { "question": "How long to digest 996 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "6.075600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 996 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(996, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "996" ] ] ] ] ] }, { "question": "Assume Hilton Head's area is half its value. How many Person have the same area as Hilton Head?", "context": "CONTEXT:=F1: The area of Hilton Head is 1.088584E+08 m**2.=F2: The area of Person is 1.700000E+00 m**2.", "answer": "3.201717E+07", "program": "PROGRAM:=Q1: What is the area of Hilton Head?=Q2: What is the area of Person?=Q3: What is half the area of Person?=A1: 1.088584E+08 m**2=A2: 1.700000E+00 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hilton Head", "area" ] ], [ ".", [ "Person", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 789 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.812900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 789 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(789, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "789" ] ] ] ] ] }, { "question": "Assume Florida's area is half its value. How many Rizal Park fit on Florida?", "context": "CONTEXT:=F1: The area of Florida is 1.702981E+11 m**2.=F2: The area of Rizal Park is 5.580558E-02 times that of Boracay Island.=F3: The area of Boracay Island is 1.032119E+07 m**2.", "answer": "1.478333E+05", "program": "PROGRAM:=Q1: What is the area of Florida?=Q2: What is the area of Rizal Park?=Q3: What is the area of Boracay Island?=Q4: What is half the area of Florida?=Q5: What is the ratio of the area of Rizal Park and that of Boracay Island?=A1: 1.702981E+11 m**2=A2: 1.032119E+07 m**2=A3: 5.580558E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Florida", "area" ] ], [ ".", [ "Rizal Park", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars make up 796 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 6.802721E-25 times that of Moon.=F2: The mass of Moon is 7.350000E+22 kg.=F3: The total mass that needs to be reached is 796 kg.", "answer": "1.592000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the mass of Moon?=Q3: What is the total mass that needs to be reached?=A1: 7.350000E+22 kg=A2: 796 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 6.802721E-25)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "796" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many Person make up 707 kgs?", "context": "CONTEXT:=F1: The mass of Person is 3.250000E-02 times that of Car.=F2: The mass of Car is 2.000000E+03 kg.=F3: The total mass that needs to be reached is 707 kg.", "answer": "1.087692E+01", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the mass of Car?=Q3: What is the total mass that needs to be reached?=A1: 2.000000E+03 kg=A2: 707 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 3.250000E-02)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "707" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many Ancestry.com's Census Records put together contain the same information as 721 of Magnetic Stripe Card?", "context": "CONTEXT:=F1: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.=F2: The data of Magnetic Stripe Card is 2.666667E-05 times that of MP3 Song.=F3: The data of MP3 Song is 3.000000E+07 bytes.", "answer": "1.153600E-10", "program": "PROGRAM:=Q1: What is the data of Ancestry.com's Census Records?=Q2: What is the data of Magnetic Stripe Card?=Q3: What is the data of MP3 Song?=Q4: What is 721 times the data of Magnetic Stripe Card?=Q5: What is the ratio of the data of Magnetic Stripe Card and that of MP3 Song?=A1: 5.000000E+15 bytes=A2: 3.000000E+07 bytes=A3: 2.666667E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 721)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Magnetic Stripe Card", "data" ] ], [ ".", [ "Ancestry.com's Census Records", "data" ] ] ] ], [ "", [ "721" ] ] ] ] ] }, { "question": "How many Gumball (packed) have the same volume as Tennis Ball?", "context": "CONTEXT:=F1: The volume of Tennis Ball is 7.159091E-08 times that of Hot Air Balloon.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.=F3: The volume of Hot Air Balloon is 6.226000E+07 m**3.", "answer": "1.575000E+01", "program": "PROGRAM:=Q1: What is the volume of Tennis Ball?=Q2: What is the volume of Gumball (packed)?=Q3: What is the volume of Hot Air Balloon?=Q4: What is the ratio of the volume of Tennis Ball and that of Hot Air Balloon?=A1: 2.830000E-01 m**3=A2: 6.226000E+07 m**3=A3: 7.159091E-08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Tennis Ball", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ] ] }, { "question": "How many Google Earth database put together contain the same information as 940 of Pandora?", "context": "CONTEXT:=F1: The data of Google Earth database is 6.200000E+14 bytes.=F2: The data of Pandora is 2.200000E+15 bytes.", "answer": "3.335484E+03", "program": "PROGRAM:=Q1: What is the data of Google Earth database?=Q2: What is the data of Pandora?=Q3: What is 940 times the data of Pandora?=A1: 6.200000E+14 bytes=A2: 2.200000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 940)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Pandora", "data" ] ], [ ".", [ "Google Earth database", "data" ] ] ] ], [ "", [ "940" ] ] ] ] ] }, { "question": "If 982 of Elephant were to have the same density as air, how much would it weigh?", "context": "CONTEXT:=F1: The density of air is 4.900000E-04 times that of glass.=F2: The volume of Elephant is 7.000000E+00 m**3.=F3: The density of glass is 2.500000E+09 kg * m ** -3.", "answer": "8.420650E+09 kg", "program": "PROGRAM:=Q1: What is the density of air?=Q2: What is the volume of Elephant?=Q3: What is the density of glass?=Q4: What is 982 times the volume of Elephant?=Q5: What is the ratio of the density of air and that of glass?=A1: 7.000000E+00 m**3=A2: 2.500000E+09 kg * m ** -3=A3: 4.900000E-04=Q2 -> A1 | F2=Q4 -> Mul(Q2, 982)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Elephant", "volume" ] ], [ ".", [ "air", "density" ] ] ] ], [ "", [ "982" ] ] ] ] ] }, { "question": "How long does it take for Walking Pedestrians (in Manhattan) to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 1.368552E+06 m.=F2: The speed of Walking Pedestrians (in Manhattan) is 1.318182E-05 times that of bolt of Lightning.=F3: The speed of bolt of Lightning is 9.834880E+04 m/s.", "answer": "1.055643E+06 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of Walking Pedestrians (in Manhattan)?=Q3: What is the speed of bolt of Lightning?=Q4: What is the ratio of the speed of Walking Pedestrians (in Manhattan) and the speed of bolt of Lightning?=A1: 1.368552E+06 m=A2: 9.834880E+04 m/s=A3: 1.318182E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Walking Pedestrians (in Manhattan)", "speed" ] ] ] ] ] }, { "question": "Assume Earth's Oceans's volume is half its value. How many Mars Bars fit in Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 1.250000E+24 times that of dollar bill.=F2: The volume of Mars Bars is 3.000000E-03 m**3.=F3: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "6.603333E+24", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of Mars Bars?=Q3: What is the volume of dollar bill?=Q4: What is half the volume of Earth's Oceans?=Q5: What is the ratio of the volume of Earth's Oceans and that of dollar bill?=A1: 3.000000E-03 m**3=A2: 3.169600E-02 m**3=A3: 1.250000E+24=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "Mars Bars", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Space Shuttle to travel across Calangute Beach?", "context": "CONTEXT:=F1: The length of Calangute Beach is 2.133600E+03 m.=F2: The speed of Space Shuttle is 1.154800E+03 times that of Bull.=F3: The speed of Bull is 6.705600E+00 m/s.", "answer": "2.755298E-01 s", "program": "PROGRAM:=Q1: What is the length of Calangute Beach?=Q2: What is the speed of Space Shuttle?=Q3: What is the speed of Bull?=Q4: What is the ratio of the speed of Space Shuttle and the speed of Bull?=A1: 2.133600E+03 m=A2: 6.705600E+00 m/s=A3: 1.154800E+03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Calangute Beach", "length" ] ], [ ".", [ "Space Shuttle", "speed" ] ] ] ] ] }, { "question": "Assume dollar bill's length is half its value. How many Nucleus (Cellular) have the same length as dollar bill?", "context": "CONTEXT:=F1: The length of dollar bill is 2.460843E-05 times that of Denali.=F2: The length of Nucleus (Cellular) is 1.828800E-06 m.=F3: The length of Denali is 1.887626E+03 m.", "answer": "1.270000E+04", "program": "PROGRAM:=Q1: What is the length of dollar bill?=Q2: What is the length of Nucleus (Cellular)?=Q3: What is the length of Denali?=Q4: What is half the length of dollar bill?=Q5: What is the ratio of the length of dollar bill and that of Denali?=A1: 1.828800E-06 m=A2: 1.887626E+03 m=A3: 2.460843E-05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "dollar bill", "length" ] ], [ ".", [ "Nucleus (Cellular)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Person have the same volume as Golf Ball (packed)?", "context": "CONTEXT:=F1: The volume of Golf Ball (packed) is 5.726792E-03 times that of Basketball (packed).=F2: The volume of Person is 6.000000E-02 m**3.=F3: The volume of Basketball (packed) is 3.141396E+02 m**3.", "answer": "2.998353E+01", "program": "PROGRAM:=Q1: What is the volume of Golf Ball (packed)?=Q2: What is the volume of Person?=Q3: What is the volume of Basketball (packed)?=Q4: What is the ratio of the volume of Golf Ball (packed) and that of Basketball (packed)?=A1: 6.000000E-02 m**3=A2: 3.141396E+02 m**3=A3: 5.726792E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Golf Ball (packed)", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ] ] }, { "question": "If 345 of Sheet of paper were to have the same density as nitrogen, how much would it weigh?", "context": "CONTEXT:=F1: The density of nitrogen is 1.000000E-04 kg * m ** -3.=F2: The volume of Sheet of paper is 9.090909E-26 times that of Earth.=F3: The volume of Earth is 1.100000E+21 m**3.", "answer": "4.019250E+04 kg", "program": "PROGRAM:=Q1: What is the density of nitrogen?=Q2: What is the volume of Sheet of paper?=Q3: What is the volume of Earth?=Q4: What is 345 times the volume of Sheet of paper?=Q5: What is the ratio of the volume of Sheet of paper and that of Earth?=A1: 1.000000E-04 kg * m ** -3=A2: 1.100000E+21 m**3=A3: 9.090909E-26=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 345)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Sheet of paper", "volume" ] ], [ ".", [ "nitrogen", "density" ] ] ] ], [ "", [ "345" ] ] ] ] ] }, { "question": "Assume Hilton Head's area is half its value. How many Dog have the same area as Hilton Head?", "context": "CONTEXT:=F1: The area of Hilton Head is 1.088584E+08 m**2.=F2: The area of Dog is 1.000000E+00 m**2.", "answer": "5.442918E+07", "program": "PROGRAM:=Q1: What is the area of Hilton Head?=Q2: What is the area of Dog?=Q3: What is half the area of Dog?=A1: 1.088584E+08 m**2=A2: 1.000000E+00 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hilton Head", "area" ] ], [ ".", [ "Dog", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Big Ben's length is half its value. How many Semitrailer have the same length as Big Ben?", "context": "CONTEXT:=F1: The length of Big Ben is 2.926080E+01 m.=F2: The length of Semitrailer is 4.459224E+00 m.", "answer": "3.280930E+00", "program": "PROGRAM:=Q1: What is the length of Big Ben?=Q2: What is the length of Semitrailer?=Q3: What is half the length of Big Ben?=A1: 2.926080E+01 m=A2: 4.459224E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Big Ben", "length" ] ], [ ".", [ "Semitrailer", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Bull to travel across Maxwell Montes?", "context": "CONTEXT:=F1: The length of Maxwell Montes is 3.352800E+03 m.=F2: The speed of Bull is 6.705600E+00 m/s.", "answer": "5.000000E+02 s", "program": "PROGRAM:=Q1: What is the length of Maxwell Montes?=Q2: What is the speed of Bull?=A1: 3.352800E+03 m=A2: 6.705600E+00 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Maxwell Montes", "length" ] ], [ ".", [ "Bull", "speed" ] ] ] ] ] }, { "question": "How many Netflix's Watch Instantly catalog put together contain the same information as 902 of Books in the Library of Congress?", "context": "CONTEXT:=F1: The data of Netflix's Watch Instantly catalog is 3.537500E+01 times that of LHC Data Generated per Second.=F2: The data of Books in the Library of Congress is 6.000000E+17 bytes.=F3: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "1.912367E+04", "program": "PROGRAM:=Q1: What is the data of Netflix's Watch Instantly catalog?=Q2: What is the data of Books in the Library of Congress?=Q3: What is the data of LHC Data Generated per Second?=Q4: What is 902 times the data of Books in the Library of Congress?=Q5: What is the ratio of the data of Netflix's Watch Instantly catalog and that of LHC Data Generated per Second?=A1: 6.000000E+17 bytes=A2: 8.000000E+14 bytes=A3: 3.537500E+01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 902)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Books in the Library of Congress", "data" ] ], [ ".", [ "Netflix's Watch Instantly catalog", "data" ] ] ] ], [ "", [ "902" ] ] ] ] ] }, { "question": "Assume Mount Everest's length is half its value. How many Seventeenth hole of Pebble Beach have the same length as Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.208074E-04 times that of Circumfrence of Earth.=F2: The length of Seventeenth hole of Pebble Beach is 4.937760E+01 m.=F3: The length of Circumfrence of Earth is 1.221486E+07 m.", "answer": "2.731130E+01", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the length of Seventeenth hole of Pebble Beach?=Q3: What is the length of Circumfrence of Earth?=Q4: What is half the length of Mount Everest?=Q5: What is the ratio of the length of Mount Everest and that of Circumfrence of Earth?=A1: 4.937760E+01 m=A2: 1.221486E+07 m=A3: 2.208074E-04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Seventeenth hole of Pebble Beach", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Hilton Head's area is half its value. How many King Size Bed fit on Hilton Head?", "context": "CONTEXT:=F1: The area of Hilton Head is 1.088584E+08 m**2.=F2: The area of King Size Bed is 4.031860E+00 m**2.", "answer": "1.349977E+07", "program": "PROGRAM:=Q1: What is the area of Hilton Head?=Q2: What is the area of King Size Bed?=Q3: What is half the area of King Size Bed?=A1: 1.088584E+08 m**2=A2: 4.031860E+00 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hilton Head", "area" ] ], [ ".", [ "King Size Bed", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Facebook's Photo Storage put together contain the same information as 785 of Wikipedia?", "context": "CONTEXT:=F1: The data of Facebook's Photo Storage is 8.000000E+15 bytes.=F2: The data of Wikipedia is 7.258065E-04 times that of Google Earth database.=F3: The data of Google Earth database is 6.200000E+14 bytes.", "answer": "4.415625E-02", "program": "PROGRAM:=Q1: What is the data of Facebook's Photo Storage?=Q2: What is the data of Wikipedia?=Q3: What is the data of Google Earth database?=Q4: What is 785 times the data of Wikipedia?=Q5: What is the ratio of the data of Wikipedia and that of Google Earth database?=A1: 8.000000E+15 bytes=A2: 6.200000E+14 bytes=A3: 7.258065E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 785)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Wikipedia", "data" ] ], [ ".", [ "Facebook's Photo Storage", "data" ] ] ] ], [ "", [ "785" ] ] ] ] ] }, { "question": "How many Human hair, Strand of have the same length as Napoleon?", "context": "CONTEXT:=F1: The length of Napoleon is 2.951389E-02 times that of Cinderella Castle.=F2: The length of Human hair, Strand of is 3.017520E-05 m.=F3: The length of Cinderella Castle is 1.755648E+01 m.", "answer": "1.717172E+04", "program": "PROGRAM:=Q1: What is the length of Napoleon?=Q2: What is the length of Human hair, Strand of?=Q3: What is the length of Cinderella Castle?=Q4: What is the ratio of the length of Napoleon and that of Cinderella Castle?=A1: 3.017520E-05 m=A2: 1.755648E+01 m=A3: 2.951389E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Napoleon", "length" ] ], [ ".", [ "Human hair, Strand of", "length" ] ] ] ] ] }, { "question": "How long to digest 181 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.104100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 181 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(181, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "181" ] ] ] ] ] }, { "question": "Assume Halley's Comet's volume is half its value. How many Melbourne Cricket Ground have the same volume as Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 1.029091E-04 times that of Earth.=F2: The volume of Melbourne Cricket Ground is 4.811000E+10 m**3.=F3: The volume of Earth is 1.100000E+21 m**3.", "answer": "1.176471E+06", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of Melbourne Cricket Ground?=Q3: What is the volume of Earth?=Q4: What is half the volume of Halley's Comet?=Q5: What is the ratio of the volume of Halley's Comet and that of Earth?=A1: 4.811000E+10 m**3=A2: 1.100000E+21 m**3=A3: 1.029091E-04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "Melbourne Cricket Ground", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 510 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.111000E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 510 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(510, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "510" ] ] ] ] ] }, { "question": "How long to digest 708 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.318800E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 708 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(708, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "708" ] ] ] ] ] }, { "question": "How many Washington National Cathedral fit on New York?", "context": "CONTEXT:=F1: The area of New York is 1.412948E+11 m**2.=F2: The area of Washington National Cathedral is 2.322500E+05 m**2.", "answer": "6.083736E+05", "program": "PROGRAM:=Q1: What is the area of New York?=Q2: What is the area of Washington National Cathedral?=A1: 1.412948E+11 m**2=A2: 2.322500E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "New York", "area" ] ], [ ".", [ "Washington National Cathedral", "area" ] ] ] ] ] }, { "question": "How many boulder have the same volume as Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F2: The volume of boulder is 2.083333E-07 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "1.024000E+05", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of boulder?=Q3: What is the volume of Houston Astrodome?=Q4: What is the ratio of the volume of boulder and that of Houston Astrodome?=A1: 7.244800E+08 m**3=A2: 3.396000E+10 m**3=A3: 2.083333E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "boulder", "volume" ] ] ] ] ] }, { "question": "Assume Earth's Oceans's volume is half its value. How many Concrete Mixer Truck fit in Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 9.333333E+20 times that of skull.=F2: The volume of Concrete Mixer Truck is 3.113000E+05 m**3.=F3: The volume of skull is 4.245000E+01 m**3.", "answer": "6.363636E+16", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of Concrete Mixer Truck?=Q3: What is the volume of skull?=Q4: What is half the volume of Earth's Oceans?=Q5: What is the ratio of the volume of Earth's Oceans and that of skull?=A1: 3.113000E+05 m**3=A2: 4.245000E+01 m**3=A3: 9.333333E+20=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "Concrete Mixer Truck", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Spaceship Earth (EPCOT Center)'s volume is half its value. How many Person have the same volume as Spaceship Earth (EPCOT Center)?", "context": "CONTEXT:=F1: The volume of Spaceship Earth (EPCOT Center) is 9.117647E+08 times that of Egg (Chicken).=F2: The volume of Person is 6.000000E-02 m**3.=F3: The volume of Egg (Chicken) is 1.924400E+00 m**3.", "answer": "1.462167E+10", "program": "PROGRAM:=Q1: What is the volume of Spaceship Earth (EPCOT Center)?=Q2: What is the volume of Person?=Q3: What is the volume of Egg (Chicken)?=Q4: What is half the volume of Spaceship Earth (EPCOT Center)?=Q5: What is the ratio of the volume of Spaceship Earth (EPCOT Center) and that of Egg (Chicken)?=A1: 6.000000E-02 m**3=A2: 1.924400E+00 m**3=A3: 9.117647E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Spaceship Earth (EPCOT Center)", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Mount Everest's length is half its value. How many Twin Size bed have the same length as Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.062671E+02 times that of Ha'Penny Bridge.=F2: The length of Twin Size bed is 5.806440E-01 m.=F3: The length of Ha'Penny Bridge is 1.307592E+01 m.", "answer": "2.322535E+03", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the length of Twin Size bed?=Q3: What is the length of Ha'Penny Bridge?=Q4: What is half the length of Mount Everest?=Q5: What is the ratio of the length of Mount Everest and that of Ha'Penny Bridge?=A1: 5.806440E-01 m=A2: 1.307592E+01 m=A3: 2.062671E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Twin Size bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume QE2's length is half its value. How many Bowling Lane have the same length as QE2?", "context": "CONTEXT:=F1: The length of QE2 is 3.920000E+07 times that of Red Blood Cell.=F2: The length of Bowling Lane is 5.838749E+00 m.=F3: The length of Red Blood Cell is 2.286000E-06 m.", "answer": "7.673836E+00", "program": "PROGRAM:=Q1: What is the length of QE2?=Q2: What is the length of Bowling Lane?=Q3: What is the length of Red Blood Cell?=Q4: What is half the length of QE2?=Q5: What is the ratio of the length of QE2 and that of Red Blood Cell?=A1: 5.838749E+00 m=A2: 2.286000E-06 m=A3: 3.920000E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "QE2", "length" ] ], [ ".", [ "Bowling Lane", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dog make up 372 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 372 kg.", "answer": "1.240000E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 372 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "372" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How many Parking Space fit on Fort Bliss?", "context": "CONTEXT:=F1: The area of Fort Bliss is 5.879518E+12 times that of Secure Digital (SD) card.=F2: The area of Parking Space is 1.495690E+01 m**2.=F3: The area of Secure Digital (SD) card is 7.710700E-04 m**2.", "answer": "3.031056E+08", "program": "PROGRAM:=Q1: What is the area of Fort Bliss?=Q2: What is the area of Parking Space?=Q3: What is the area of Secure Digital (SD) card?=Q4: What is the ratio of the area of Fort Bliss and that of Secure Digital (SD) card?=A1: 1.495690E+01 m**2=A2: 7.710700E-04 m**2=A3: 5.879518E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Fort Bliss", "area" ] ], [ ".", [ "Parking Space", "area" ] ] ] ] ] }, { "question": "If 182 of Baseball were to have the same density as nitrogen, how much would it weigh?", "context": "CONTEXT:=F1: The density of nitrogen is 5.953600E+00 kg * m ** -3.=F2: The volume of Baseball is 1.753121E-10 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "1.262342E+09 kg", "program": "PROGRAM:=Q1: What is the density of nitrogen?=Q2: What is the volume of Baseball?=Q3: What is the volume of Houston Astrodome?=Q4: What is 182 times the volume of Baseball?=Q5: What is the ratio of the volume of Baseball and that of Houston Astrodome?=A1: 5.953600E+00 kg * m ** -3=A2: 3.396000E+10 m**3=A3: 1.753121E-10=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 182)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Baseball", "volume" ] ], [ ".", [ "nitrogen", "density" ] ] ] ], [ "", [ "182" ] ] ] ] ] }, { "question": "How many Bill Gates make up 764 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 2.600000E-05 times that of Olympic Pool.=F2: The mass of Olympic Pool is 2.500000E+06 kg.=F3: The total mass that needs to be reached is 764 kg.", "answer": "1.175385E+01", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the mass of Olympic Pool?=Q3: What is the total mass that needs to be reached?=A1: 2.500000E+06 kg=A2: 764 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 2.600000E-05)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "764" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "How many Windsor Castle fit on Rizal Park?", "context": "CONTEXT:=F1: The area of Rizal Park is 5.759800E+05 m**2.=F2: The area of Windsor Castle is 5.295300E+04 m**2.", "answer": "1.087719E+01", "program": "PROGRAM:=Q1: What is the area of Rizal Park?=Q2: What is the area of Windsor Castle?=A1: 5.759800E+05 m**2=A2: 5.295300E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Rizal Park", "area" ] ], [ ".", [ "Windsor Castle", "area" ] ] ] ] ] }, { "question": "If 14 of Spaceship Earth (EPCOT Center) were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 4.040404E+02 times that of carbon dioxide.=F2: The volume of Spaceship Earth (EPCOT Center) is 1.754600E+09 m**3.=F3: The density of carbon dioxide is 1.980000E+06 kg * m ** -3.", "answer": "1.965152E+19 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Spaceship Earth (EPCOT Center)?=Q3: What is the density of carbon dioxide?=Q4: What is 14 times the volume of Spaceship Earth (EPCOT Center)?=Q5: What is the ratio of the density of gasoline and that of carbon dioxide?=A1: 1.754600E+09 m**3=A2: 1.980000E+06 kg * m ** -3=A3: 4.040404E+02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 14)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Spaceship Earth (EPCOT Center)", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "14" ] ] ] ] ] }, { "question": "Assume Shambles's length is half its value. How many pencil have the same length as Shambles?", "context": "CONTEXT:=F1: The length of Shambles is 4.572000E+01 m.=F2: The length of pencil is 2.500000E+04 times that of Nucleus (Cellular).=F3: The length of Nucleus (Cellular) is 1.828800E-06 m.", "answer": "5.000000E+02", "program": "PROGRAM:=Q1: What is the length of Shambles?=Q2: What is the length of pencil?=Q3: What is the length of Nucleus (Cellular)?=Q4: What is half the length of Shambles?=Q5: What is the ratio of the length of pencil and that of Nucleus (Cellular)?=A1: 4.572000E+01 m=A2: 1.828800E-06 m=A3: 2.500000E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Shambles", "length" ] ], [ ".", [ "pencil", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Car can 237 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is 4.000000E+04 times that of Mars Bars.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "7.726200E+08", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is the cost of Mars Bars?=Q4: What is 237 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Car and the cost of Mars Bars?=A1: $1.304000E+11=A2: $1.000000E+00=A3: 4.000000E+04=Q1 -> A1 | F1=Q4 -> Mul(Q1, 237)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "237" ] ] ] ] ] }, { "question": "How many book have the same length as Twin Size bed?", "context": "CONTEXT:=F1: The length of Twin Size bed is 5.806440E-01 m.=F2: The length of book is 1.136364E-01 times that of Andr\u00e9 the Giant.=F3: The length of Andr\u00e9 the Giant is 6.705600E-01 m.", "answer": "7.620000E+00", "program": "PROGRAM:=Q1: What is the length of Twin Size bed?=Q2: What is the length of book?=Q3: What is the length of Andr\u00e9 the Giant?=Q4: What is the ratio of the length of book and that of Andr\u00e9 the Giant?=A1: 5.806440E-01 m=A2: 6.705600E-01 m=A3: 1.136364E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Twin Size bed", "length" ] ], [ ".", [ "book", "length" ] ] ] ] ] }, { "question": "If 921 of Bathtub were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 4.528000E+03 kg * m ** -3.=F2: The volume of Bathtub is 4.528000E+03 m**3.", "answer": "3.336230E+15 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Bathtub?=Q3: What is 921 times the volume of Bathtub?=A1: 4.528000E+03 kg * m ** -3=A2: 4.528000E+03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 921)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Bathtub", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "921" ] ] ] ] ] }, { "question": "Assume Human Stomach's volume is half its value. How many Egg (Chicken) have the same volume as Human Stomach?", "context": "CONTEXT:=F1: The volume of Human Stomach is 9.090909E-07 times that of Hot Air Balloon.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.=F3: The volume of Hot Air Balloon is 6.226000E+07 m**3.", "answer": "1.470588E+01", "program": "PROGRAM:=Q1: What is the volume of Human Stomach?=Q2: What is the volume of Egg (Chicken)?=Q3: What is the volume of Hot Air Balloon?=Q4: What is half the volume of Human Stomach?=Q5: What is the ratio of the volume of Human Stomach and that of Hot Air Balloon?=A1: 1.924400E+00 m**3=A2: 6.226000E+07 m**3=A3: 9.090909E-07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Amazon River's length is half its value. How many Hairs have the same length as Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 1.961998E+06 m.=F2: The length of Hairs is 1.000000E-01 m.", "answer": "9.809988E+06", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the length of Hairs?=Q3: What is half the length of Amazon River?=A1: 1.961998E+06 m=A2: 1.000000E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Hairs", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Penny fit on O. R. Tambo International Airport (JNB)?", "context": "CONTEXT:=F1: The area of O. R. Tambo International Airport (JNB) is 1.673129E+07 m**2.=F2: The area of Penny is 2.852030E-04 m**2.", "answer": "5.866450E+10", "program": "PROGRAM:=Q1: What is the area of O. R. Tambo International Airport (JNB)?=Q2: What is the area of Penny?=A1: 1.673129E+07 m**2=A2: 2.852030E-04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "O. R. Tambo International Airport (JNB)", "area" ] ], [ ".", [ "Penny", "area" ] ] ] ] ] }, { "question": "Assume Bowling Ball's volume is half its value. How many Egg (Chicken) have the same volume as Bowling Ball?", "context": "CONTEXT:=F1: The volume of Bowling Ball is 1.491224E+02 m**3.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.", "answer": "3.874518E+01", "program": "PROGRAM:=Q1: What is the volume of Bowling Ball?=Q2: What is the volume of Egg (Chicken)?=Q3: What is half the volume of Bowling Ball?=A1: 1.491224E+02 m**3=A2: 1.924400E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Bowling Ball", "volume" ] ], [ ".", [ "Egg (Chicken)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Fastball (baseball) to travel across Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 1.171762E+08 m.=F2: The speed of Fastball (baseball) is 4.112768E+01 m/s.", "answer": "2.849085E+06 s", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the speed of Fastball (baseball)?=A1: 1.171762E+08 m=A2: 4.112768E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Fastball (baseball)", "speed" ] ] ] ] ] }, { "question": "How many Bill Gates make up 819 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 819 kg.", "answer": "1.260000E+01", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 819 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "819" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "How long to digest 174 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.061400E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 174 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(174, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "174" ] ] ] ] ] }, { "question": "How many Google Earth database put together contain the same information as 271 of Digital Photo?", "context": "CONTEXT:=F1: The data of Google Earth database is 6.200000E+14 bytes.=F2: The data of Digital Photo is 1.300000E+07 bytes.", "answer": "5.682258E-06", "program": "PROGRAM:=Q1: What is the data of Google Earth database?=Q2: What is the data of Digital Photo?=Q3: What is 271 times the data of Digital Photo?=A1: 6.200000E+14 bytes=A2: 1.300000E+07 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 271)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "Google Earth database", "data" ] ] ] ], [ "", [ "271" ] ] ] ] ] }, { "question": "How many Lake Michigan have the same area as California?", "context": "CONTEXT:=F1: The area of California is 4.239557E+11 m**2.=F2: The area of Lake Michigan is 5.778380E+10 m**2.", "answer": "7.336930E+00", "program": "PROGRAM:=Q1: What is the area of California?=Q2: What is the area of Lake Michigan?=A1: 4.239557E+11 m**2=A2: 5.778380E+10 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "California", "area" ] ], [ ".", [ "Lake Michigan", "area" ] ] ] ] ] }, { "question": "How many dollar bill fit in Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 3.962000E+22 m**3.=F2: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "1.250000E+24", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of dollar bill?=A1: 3.962000E+22 m**3=A2: 3.169600E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ] ] }, { "question": "How long to digest 639 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.897900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 639 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(639, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "639" ] ] ] ] ] }, { "question": "How many Philadelphia have the same area as Phoenix?", "context": "CONTEXT:=F1: The area of Phoenix is 1.226280E+09 m**2.=F2: The area of Philadelphia is 1.687578E-02 times that of Wales.=F3: The area of Wales is 2.073156E+10 m**2.", "answer": "3.505045E+00", "program": "PROGRAM:=Q1: What is the area of Phoenix?=Q2: What is the area of Philadelphia?=Q3: What is the area of Wales?=Q4: What is the ratio of the area of Philadelphia and that of Wales?=A1: 1.226280E+09 m**2=A2: 2.073156E+10 m**2=A3: 1.687578E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Phoenix", "area" ] ], [ ".", [ "Philadelphia", "area" ] ] ] ] ] }, { "question": "How many Bowling Pin have the same length as Volga?", "context": "CONTEXT:=F1: The length of Volga is 1.075944E+06 m.=F2: The length of Bowling Pin is 2.250576E-03 times that of Washington Monument.=F3: The length of Washington Monument is 5.159959E+01 m.", "answer": "9.265092E+06", "program": "PROGRAM:=Q1: What is the length of Volga?=Q2: What is the length of Bowling Pin?=Q3: What is the length of Washington Monument?=Q4: What is the ratio of the length of Bowling Pin and that of Washington Monument?=A1: 1.075944E+06 m=A2: 5.159959E+01 m=A3: 2.250576E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Volga", "length" ] ], [ ".", [ "Bowling Pin", "length" ] ] ] ] ] }, { "question": "How many Dog make up 698 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 1.000000E+00 times that of Child.=F2: The mass of Child is 3.000000E+01 kg.=F3: The total mass that needs to be reached is 698 kg.", "answer": "2.326667E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Child?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 698 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E+00)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "698" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "If 322 of Puck (Hockey) were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 3.278083E+00 kg * m ** -3.=F2: The volume of Puck (Hockey) is 2.895833E-17 times that of Halley's Comet.=F3: The volume of Halley's Comet is 1.132000E+17 m**3.", "answer": "9.689883E+11 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Puck (Hockey)?=Q3: What is the volume of Halley's Comet?=Q4: What is 322 times the volume of Puck (Hockey)?=Q5: What is the ratio of the volume of Puck (Hockey) and that of Halley's Comet?=A1: 3.278083E+00 kg * m ** -3=A2: 1.132000E+17 m**3=A3: 2.895833E-17=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 322)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Puck (Hockey)", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "322" ] ] ] ] ] }, { "question": "How many YouTube's video database put together contain the same information as 538 of IRS Compliance Database?", "context": "CONTEXT:=F1: The data of YouTube's video database is 7.599030E+05 times that of Compact Disc.=F2: The data of IRS Compliance Database is 1.300000E+15 bytes.=F3: The data of Compact Disc is 6.185000E+09 bytes.", "answer": "1.488085E+02", "program": "PROGRAM:=Q1: What is the data of YouTube's video database?=Q2: What is the data of IRS Compliance Database?=Q3: What is the data of Compact Disc?=Q4: What is 538 times the data of IRS Compliance Database?=Q5: What is the ratio of the data of YouTube's video database and that of Compact Disc?=A1: 1.300000E+15 bytes=A2: 6.185000E+09 bytes=A3: 7.599030E+05=Q2 -> A1 | F2=Q4 -> Mul(Q2, 538)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "IRS Compliance Database", "data" ] ], [ ".", [ "YouTube's video database", "data" ] ] ] ], [ "", [ "538" ] ] ] ] ] }, { "question": "Assume Basketball's volume is half its value. How many Person make Basketball?", "context": "CONTEXT:=F1: The volume of Basketball is 1.920059E-07 times that of Capitol Rotunda (US).=F2: The volume of Person is 6.000000E-02 m**3.=F3: The volume of Capitol Rotunda (US) is 1.047100E+09 m**3.", "answer": "1.675411E+03", "program": "PROGRAM:=Q1: What is the volume of Basketball?=Q2: What is the volume of Person?=Q3: What is the volume of Capitol Rotunda (US)?=Q4: What is half the volume of Basketball?=Q5: What is the ratio of the volume of Basketball and that of Capitol Rotunda (US)?=A1: 6.000000E-02 m**3=A2: 1.047100E+09 m**3=A3: 1.920059E-07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Basketball", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for CRH (train) to travel across English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 2.659469E+01 times that of Daytona International Speedway.=F2: The speed of CRH (train) is 9.834880E+01 m/s.=F3: The length of Daytona International Speedway is 1.226320E+03 m.", "answer": "3.316116E+02 s", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the speed of CRH (train)?=Q3: What is the length of Daytona International Speedway?=Q4: What is the ratio of the length of English Channel and the length of Daytona International Speedway?=A1: 9.834880E+01 m/s=A2: 1.226320E+03 m=A3: 2.659469E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "CRH (train)", "speed" ] ] ] ] ] }, { "question": "How many Walmart's Mainframe put together contain the same information as 339 of Letters Delivered by the US Postal Service in 2010?", "context": "CONTEXT:=F1: The data of Walmart's Mainframe is 4.000000E+15 bytes.=F2: The data of Letters Delivered by the US Postal Service in 2010 is 4.000000E+16 bytes.", "answer": "3.390000E+03", "program": "PROGRAM:=Q1: What is the data of Walmart's Mainframe?=Q2: What is the data of Letters Delivered by the US Postal Service in 2010?=Q3: What is 339 times the data of Letters Delivered by the US Postal Service in 2010?=A1: 4.000000E+15 bytes=A2: 4.000000E+16 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 339)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Letters Delivered by the US Postal Service in 2010", "data" ] ], [ ".", [ "Walmart's Mainframe", "data" ] ] ] ], [ "", [ "339" ] ] ] ] ] }, { "question": "How many Facebook's Photo Storage put together contain the same information as 460 of Despicable Me?", "context": "CONTEXT:=F1: The data of Facebook's Photo Storage is 8.000000E+15 bytes.=F2: The data of Despicable Me is 3.453039E+04 times that of HDTV Television Show (30 Minutes).=F3: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.", "answer": "7.187500E+01", "program": "PROGRAM:=Q1: What is the data of Facebook's Photo Storage?=Q2: What is the data of Despicable Me?=Q3: What is the data of HDTV Television Show (30 Minutes)?=Q4: What is 460 times the data of Despicable Me?=Q5: What is the ratio of the data of Despicable Me and that of HDTV Television Show (30 Minutes)?=A1: 8.000000E+15 bytes=A2: 3.620000E+10 bytes=A3: 3.453039E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 460)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Despicable Me", "data" ] ], [ ".", [ "Facebook's Photo Storage", "data" ] ] ] ], [ "", [ "460" ] ] ] ] ] }, { "question": "If 654 of Egg (Chicken) were to have the same density as bone, how much would it weigh?", "context": "CONTEXT:=F1: The density of bone is 1.924400E+00 kg * m ** -3.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.", "answer": "2.391259E+12 kg", "program": "PROGRAM:=Q1: What is the density of bone?=Q2: What is the volume of Egg (Chicken)?=Q3: What is 654 times the volume of Egg (Chicken)?=A1: 1.924400E+00 kg * m ** -3=A2: 1.924400E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 654)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Egg (Chicken)", "volume" ] ], [ ".", [ "bone", "density" ] ] ] ], [ "", [ "654" ] ] ] ] ] }, { "question": "How long to digest 818 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.989800E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 818 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(818, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "818" ] ] ] ] ] }, { "question": "How many Matt Roloff have the same length as Great Pyramid of Giza?", "context": "CONTEXT:=F1: The length of Great Pyramid of Giza is 3.962400E+01 m.=F2: The length of Matt Roloff is 3.962400E-01 m.", "answer": "1.000000E+02", "program": "PROGRAM:=Q1: What is the length of Great Pyramid of Giza?=Q2: What is the length of Matt Roloff?=A1: 3.962400E+01 m=A2: 3.962400E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Great Pyramid of Giza", "length" ] ], [ ".", [ "Matt Roloff", "length" ] ] ] ] ] }, { "question": "How long does it take for Fastball (baseball) to travel across Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 2.346530E+05 times that of Baseball base distances.=F2: The speed of Fastball (baseball) is 4.112768E+01 m/s.=F3: The length of Baseball base distances is 8.361274E+00 m.", "answer": "4.770504E+04 s", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the speed of Fastball (baseball)?=Q3: What is the length of Baseball base distances?=Q4: What is the ratio of the length of Amazon River and the length of Baseball base distances?=A1: 4.112768E+01 m/s=A2: 8.361274E+00 m=A3: 2.346530E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Fastball (baseball)", "speed" ] ] ] ] ] }, { "question": "Assume Vinson Massif's length is half its value. How many Willis Tower have the same length as Vinson Massif?", "context": "CONTEXT:=F1: The length of Vinson Massif is 1.491082E+03 m.=F2: The length of Willis Tower is 7.924800E+02 times that of Sheet of paper.=F3: The length of Sheet of paper is 2.000000E-01 m.", "answer": "4.703846E+00", "program": "PROGRAM:=Q1: What is the length of Vinson Massif?=Q2: What is the length of Willis Tower?=Q3: What is the length of Sheet of paper?=Q4: What is half the length of Vinson Massif?=Q5: What is the ratio of the length of Willis Tower and that of Sheet of paper?=A1: 1.491082E+03 m=A2: 2.000000E-01 m=A3: 7.924800E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Vinson Massif", "length" ] ], [ ".", [ "Willis Tower", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Bowling Ball (packed)'s volume is half its value. How many Gumball (packed) fit in Bowling Ball (packed)?", "context": "CONTEXT:=F1: The volume of Bowling Ball (packed) is 1.646670E+01 times that of Blood Donation.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.=F3: The volume of Blood Donation is 1.415000E+01 m**3.", "answer": "4.116675E+02", "program": "PROGRAM:=Q1: What is the volume of Bowling Ball (packed)?=Q2: What is the volume of Gumball (packed)?=Q3: What is the volume of Blood Donation?=Q4: What is half the volume of Bowling Ball (packed)?=Q5: What is the ratio of the volume of Bowling Ball (packed) and that of Blood Donation?=A1: 2.830000E-01 m**3=A2: 1.415000E+01 m**3=A3: 1.646670E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Bowling Ball (packed)", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many London have the same area as Cape Town?", "context": "CONTEXT:=F1: The area of Cape Town is 6.274426E+01 times that of Rock Island.=F2: The area of London is 1.579300E+09 m**2.=F3: The area of Rock Island is 3.922145E+07 m**2.", "answer": "1.558235E+00", "program": "PROGRAM:=Q1: What is the area of Cape Town?=Q2: What is the area of London?=Q3: What is the area of Rock Island?=Q4: What is the ratio of the area of Cape Town and that of Rock Island?=A1: 1.579300E+09 m**2=A2: 3.922145E+07 m**2=A3: 6.274426E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Cape Town", "area" ] ], [ ".", [ "London", "area" ] ] ] ] ] }, { "question": "How many Vinson Massif have the same length as Olympus Mons?", "context": "CONTEXT:=F1: The length of Olympus Mons is 8.229600E+03 m.=F2: The length of Vinson Massif is 4.487250E-01 times that of Challenger Deep (Marianas Trench).=F3: The length of Challenger Deep (Marianas Trench) is 3.322930E+03 m.", "answer": "5.519215E+00", "program": "PROGRAM:=Q1: What is the length of Olympus Mons?=Q2: What is the length of Vinson Massif?=Q3: What is the length of Challenger Deep (Marianas Trench)?=Q4: What is the ratio of the length of Vinson Massif and that of Challenger Deep (Marianas Trench)?=A1: 8.229600E+03 m=A2: 3.322930E+03 m=A3: 4.487250E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Olympus Mons", "length" ] ], [ ".", [ "Vinson Massif", "length" ] ] ] ] ] }, { "question": "How many Gumball (packed) fit in Human Stomach?", "context": "CONTEXT:=F1: The volume of Human Stomach is 5.660000E+01 m**3.=F2: The volume of Gumball (packed) is 9.090909E-07 times that of Concrete Mixer Truck.=F3: The volume of Concrete Mixer Truck is 3.113000E+05 m**3.", "answer": "2.000000E+02", "program": "PROGRAM:=Q1: What is the volume of Human Stomach?=Q2: What is the volume of Gumball (packed)?=Q3: What is the volume of Concrete Mixer Truck?=Q4: What is the ratio of the volume of Gumball (packed) and that of Concrete Mixer Truck?=A1: 5.660000E+01 m**3=A2: 3.113000E+05 m**3=A3: 9.090909E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ] ] }, { "question": "How many Wellington have the same area as Great Barrier Reef?", "context": "CONTEXT:=F1: The area of Great Barrier Reef is 3.483750E+11 m**2.=F2: The area of Wellington is 9.360902E-01 times that of Delihi.=F3: The area of Delihi is 1.482684E+09 m**2.", "answer": "2.510040E+02", "program": "PROGRAM:=Q1: What is the area of Great Barrier Reef?=Q2: What is the area of Wellington?=Q3: What is the area of Delihi?=Q4: What is the ratio of the area of Wellington and that of Delihi?=A1: 3.483750E+11 m**2=A2: 1.482684E+09 m**2=A3: 9.360902E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Great Barrier Reef", "area" ] ], [ ".", [ "Wellington", "area" ] ] ] ] ] }, { "question": "Assume Mauna Loa's length is half its value. How many classroom have the same length as Mauna Loa?", "context": "CONTEXT:=F1: The length of Mauna Loa is 2.794406E+03 m.=F2: The length of classroom is 3.048000E+00 m.", "answer": "4.584000E+02", "program": "PROGRAM:=Q1: What is the length of Mauna Loa?=Q2: What is the length of classroom?=Q3: What is half the length of Mauna Loa?=A1: 2.794406E+03 m=A2: 3.048000E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mauna Loa", "length" ] ], [ ".", [ "classroom", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Grand Canyon National Park's area is half its value. How many Coron Island have the same area as Grand Canyon National Park?", "context": "CONTEXT:=F1: The area of Grand Canyon National Park is 4.930430E+09 m**2.=F2: The area of Coron Island is 7.060400E+07 m**2.", "answer": "3.491608E+01", "program": "PROGRAM:=Q1: What is the area of Grand Canyon National Park?=Q2: What is the area of Coron Island?=Q3: What is half the area of Coron Island?=A1: 4.930430E+09 m**2=A2: 7.060400E+07 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Grand Canyon National Park", "area" ] ], [ ".", [ "Coron Island", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Curveball (baseball) to travel across Panama Canal?", "context": "CONTEXT:=F1: The length of Panama Canal is 2.682240E+04 m.=F2: The speed of Curveball (baseball) is 1.900000E+00 times that of Hare.=F3: The speed of Hare is 1.788160E+01 m/s.", "answer": "7.894737E+02 s", "program": "PROGRAM:=Q1: What is the length of Panama Canal?=Q2: What is the speed of Curveball (baseball)?=Q3: What is the speed of Hare?=Q4: What is the ratio of the speed of Curveball (baseball) and the speed of Hare?=A1: 2.682240E+04 m=A2: 1.788160E+01 m/s=A3: 1.900000E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Panama Canal", "length" ] ], [ ".", [ "Curveball (baseball)", "speed" ] ] ] ] ] }, { "question": "Assume Boracay Island's area is half its value. How many Lincoln Memorial Reflecting Pool fit on Boracay Island?", "context": "CONTEXT:=F1: The area of Boracay Island is 1.032119E+07 m**2.=F2: The area of Lincoln Memorial Reflecting Pool is 3.149310E+04 m**2.", "answer": "1.638643E+02", "program": "PROGRAM:=Q1: What is the area of Boracay Island?=Q2: What is the area of Lincoln Memorial Reflecting Pool?=Q3: What is half the area of Lincoln Memorial Reflecting Pool?=A1: 1.032119E+07 m**2=A2: 3.149310E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Boracay Island", "area" ] ], [ ".", [ "Lincoln Memorial Reflecting Pool", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper can 88 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is $1.600000E-02.", "answer": "7.172000E+14", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is 88 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.600000E-02=Q1 -> A1 | F1=Q3 -> Mul(Q1, 88)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "88" ] ] ] ] ] }, { "question": "How many Dog make up 323 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 4.081633E-22 times that of Moon.=F2: The mass of Moon is 7.350000E+22 kg.=F3: The total mass that needs to be reached is 323 kg.", "answer": "1.076667E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Moon?=Q3: What is the total mass that needs to be reached?=A1: 7.350000E+22 kg=A2: 323 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 4.081633E-22)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "323" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How long does it take for Jet Fighter to travel across Circumfrence of Earth?", "context": "CONTEXT:=F1: The length of Circumfrence of Earth is 1.221486E+07 m.=F2: The speed of Jet Fighter is 6.705600E+02 m/s.", "answer": "1.821592E+04 s", "program": "PROGRAM:=Q1: What is the length of Circumfrence of Earth?=Q2: What is the speed of Jet Fighter?=A1: 1.221486E+07 m=A2: 6.705600E+02 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Circumfrence of Earth", "length" ] ], [ ".", [ "Jet Fighter", "speed" ] ] ] ] ] }, { "question": "Assume Football (Soccer)'s volume is half its value. How many Gumball (packed) make Football (Soccer)?", "context": "CONTEXT:=F1: The volume of Football (Soccer) is 4.245000E+00 m**3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "7.500000E+00", "program": "PROGRAM:=Q1: What is the volume of Football (Soccer)?=Q2: What is the volume of Gumball (packed)?=Q3: What is half the volume of Football (Soccer)?=A1: 4.245000E+00 m**3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Football (Soccer)", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Child make Baseball?", "context": "CONTEXT:=F1: The volume of Baseball is 5.953600E+00 m**3.=F2: The volume of Child is 2.650177E-19 times that of Halley's Comet.=F3: The volume of Halley's Comet is 1.132000E+17 m**3.", "answer": "1.984533E+02", "program": "PROGRAM:=Q1: What is the volume of Baseball?=Q2: What is the volume of Child?=Q3: What is the volume of Halley's Comet?=Q4: What is the ratio of the volume of Child and that of Halley's Comet?=A1: 5.953600E+00 m**3=A2: 1.132000E+17 m**3=A3: 2.650177E-19=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Baseball", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ] ] }, { "question": "How long to digest 90 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.490000E+00 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 90 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(90, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "90" ] ] ] ] ] }, { "question": "Assume Football (Soccer)'s volume is half its value. How many dollar bill have the same volume as Football (Soccer)?", "context": "CONTEXT:=F1: The volume of Football (Soccer) is 4.245000E+00 m**3.=F2: The volume of dollar bill is 1.557719E-06 times that of Hot Tub.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "6.696429E+01", "program": "PROGRAM:=Q1: What is the volume of Football (Soccer)?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Hot Tub?=Q4: What is half the volume of Football (Soccer)?=Q5: What is the ratio of the volume of dollar bill and that of Hot Tub?=A1: 4.245000E+00 m**3=A2: 2.034770E+04 m**3=A3: 1.557719E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Football (Soccer)", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Olympus Mons's length is half its value. How many Matt Roloff have the same length as Olympus Mons?", "context": "CONTEXT:=F1: The length of Olympus Mons is 1.845523E+03 times that of Semitrailer.=F2: The length of Matt Roloff is 3.962400E-01 m.=F3: The length of Semitrailer is 4.459224E+00 m.", "answer": "1.038462E+04", "program": "PROGRAM:=Q1: What is the length of Olympus Mons?=Q2: What is the length of Matt Roloff?=Q3: What is the length of Semitrailer?=Q4: What is half the length of Olympus Mons?=Q5: What is the ratio of the length of Olympus Mons and that of Semitrailer?=A1: 3.962400E-01 m=A2: 4.459224E+00 m=A3: 1.845523E+03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympus Mons", "length" ] ], [ ".", [ "Matt Roloff", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Boracay Island have the same area as Yosemite National Park?", "context": "CONTEXT:=F1: The area of Yosemite National Park is 3.026775E+09 m**2.=F2: The area of Boracay Island is 1.032119E+07 times that of Dog.=F3: The area of Dog is 1.000000E+00 m**2.", "answer": "2.932583E+02", "program": "PROGRAM:=Q1: What is the area of Yosemite National Park?=Q2: What is the area of Boracay Island?=Q3: What is the area of Dog?=Q4: What is the ratio of the area of Boracay Island and that of Dog?=A1: 3.026775E+09 m**2=A2: 1.000000E+00 m**2=A3: 1.032119E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Yosemite National Park", "area" ] ], [ ".", [ "Boracay Island", "area" ] ] ] ] ] }, { "question": "How long to digest 175 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.067500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 175 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(175, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "175" ] ] ] ] ] }, { "question": "How long to digest 721 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.398100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 721 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(721, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "721" ] ] ] ] ] }, { "question": "How many Hubble Telescope put together contain the same information as 295 of IRS Compliance Database?", "context": "CONTEXT:=F1: The data of Hubble Telescope is 1.100000E+15 bytes.=F2: The data of IRS Compliance Database is 1.300000E+15 bytes.", "answer": "3.486364E+02", "program": "PROGRAM:=Q1: What is the data of Hubble Telescope?=Q2: What is the data of IRS Compliance Database?=Q3: What is 295 times the data of IRS Compliance Database?=A1: 1.100000E+15 bytes=A2: 1.300000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 295)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "IRS Compliance Database", "data" ] ], [ ".", [ "Hubble Telescope", "data" ] ] ] ], [ "", [ "295" ] ] ] ] ] }, { "question": "How many Christmas Tree (artificial) have the same length as Bowling Lane?", "context": "CONTEXT:=F1: The length of Bowling Lane is 5.838749E+00 m.=F2: The length of Christmas Tree (artificial) is 7.010400E-01 m.", "answer": "8.328696E+00", "program": "PROGRAM:=Q1: What is the length of Bowling Lane?=Q2: What is the length of Christmas Tree (artificial)?=A1: 5.838749E+00 m=A2: 7.010400E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Bowling Lane", "length" ] ], [ ".", [ "Christmas Tree (artificial)", "length" ] ] ] ] ] }, { "question": "Assume Biltmore Estate's area is half its value. How many Post-it® Note (3M) fit on Biltmore Estate?", "context": "CONTEXT:=F1: The area of Biltmore Estate is 1.625750E+04 m**2.=F2: The area of Post-it® Note (3M) is 5.388200E-03 m**2.", "answer": "1.508621E+06", "program": "PROGRAM:=Q1: What is the area of Biltmore Estate?=Q2: What is the area of Post-it® Note (3M)?=Q3: What is half the area of Post-it® Note (3M)?=A1: 1.625750E+04 m**2=A2: 5.388200E-03 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Biltmore Estate", "area" ] ], [ ".", [ "Post-it® Note (3M)", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many O. R. Tambo International Airport (JNB) have the same area as Vancouver Island?", "context": "CONTEXT:=F1: The area of Vancouver Island is 8.418750E+05 times that of Principality Stadium.=F2: The area of O. R. Tambo International Airport (JNB) is 1.673129E+07 m**2.=F3: The area of Principality Stadium is 3.716000E+04 m**2.", "answer": "1.869795E+03", "program": "PROGRAM:=Q1: What is the area of Vancouver Island?=Q2: What is the area of O. R. Tambo International Airport (JNB)?=Q3: What is the area of Principality Stadium?=Q4: What is the ratio of the area of Vancouver Island and that of Principality Stadium?=A1: 1.673129E+07 m**2=A2: 3.716000E+04 m**2=A3: 8.418750E+05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Vancouver Island", "area" ] ], [ ".", [ "O. R. Tambo International Airport (JNB)", "area" ] ] ] ] ] }, { "question": "If 990 of Golf Ball (packed) were to have the same density as carbon dioxide, how much would it weigh?", "context": "CONTEXT:=F1: The density of carbon dioxide is 1.650000E-03 times that of Gallon of Paint.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.=F3: The density of Gallon of Paint is 1.200000E+09 kg * m ** -3.", "answer": "3.526423E+09 kg", "program": "PROGRAM:=Q1: What is the density of carbon dioxide?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is the density of Gallon of Paint?=Q4: What is 990 times the volume of Golf Ball (packed)?=Q5: What is the ratio of the density of carbon dioxide and that of Gallon of Paint?=A1: 1.799012E+00 m**3=A2: 1.200000E+09 kg * m ** -3=A3: 1.650000E-03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 990)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Golf Ball (packed)", "volume" ] ], [ ".", [ "carbon dioxide", "density" ] ] ] ], [ "", [ "990" ] ] ] ] ] }, { "question": "How many Bath Towel fit on Lake Superior?", "context": "CONTEXT:=F1: The area of Lake Superior is 1.768000E+06 times that of school.=F2: The area of Bath Towel is 1.083771E+00 m**2.=F3: The area of school is 4.645000E+04 m**2.", "answer": "7.577576E+10", "program": "PROGRAM:=Q1: What is the area of Lake Superior?=Q2: What is the area of Bath Towel?=Q3: What is the area of school?=Q4: What is the ratio of the area of Lake Superior and that of school?=A1: 1.083771E+00 m**2=A2: 4.645000E+04 m**2=A3: 1.768000E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Lake Superior", "area" ] ], [ ".", [ "Bath Towel", "area" ] ] ] ] ] }, { "question": "How many Challenger Deep (Marianas Trench) have the same length as I-80?", "context": "CONTEXT:=F1: The length of I-80 is 8.919288E+03 times that of Willis Tower.=F2: The length of Challenger Deep (Marianas Trench) is 3.322930E+03 m.=F3: The length of Willis Tower is 1.584960E+02 m.", "answer": "4.254293E+02", "program": "PROGRAM:=Q1: What is the length of I-80?=Q2: What is the length of Challenger Deep (Marianas Trench)?=Q3: What is the length of Willis Tower?=Q4: What is the ratio of the length of I-80 and that of Willis Tower?=A1: 3.322930E+03 m=A2: 1.584960E+02 m=A3: 8.919288E+03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "I-80", "length" ] ], [ ".", [ "Challenger Deep (Marianas Trench)", "length" ] ] ] ] ] }, { "question": "How long to digest 179 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.091900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 179 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(179, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "179" ] ] ] ] ] }, { "question": "If 139 of boulder were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 7.075000E+03 kg * m ** -3.=F2: The volume of boulder is 5.000000E+02 times that of Blood Donation.=F3: The volume of Blood Donation is 1.415000E+01 m**3.", "answer": "1.180110E+15 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of boulder?=Q3: What is the volume of Blood Donation?=Q4: What is 139 times the volume of boulder?=Q5: What is the ratio of the volume of boulder and that of Blood Donation?=A1: 7.075000E+03 kg * m ** -3=A2: 1.415000E+01 m**3=A3: 5.000000E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 139)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "boulder", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "139" ] ] ] ] ] }, { "question": "How many Bill Gates can 392 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.650407E-03 times that of Polonium-241.=F2: The cost of Bill Gates is $1.304000E+11.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "3.920000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Polonium-241?=Q4: What is 392 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Polonium-241?=A1: $1.304000E+11=A2: $4.920000E+13=A3: 2.650407E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 392)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "392" ] ] ] ] ] }, { "question": "How long to digest 734 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.477400E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 734 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(734, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "734" ] ] ] ] ] }, { "question": "How long does it take for Skydiver (headfirst) to travel across Daytona International Speedway?", "context": "CONTEXT:=F1: The length of Daytona International Speedway is 1.226320E+03 m.=F2: The speed of Skydiver (headfirst) is 7.804878E-02 times that of Bullet (Rifle).=F3: The speed of Bullet (Rifle) is 9.164320E+02 m/s.", "answer": "1.714500E+01 s", "program": "PROGRAM:=Q1: What is the length of Daytona International Speedway?=Q2: What is the speed of Skydiver (headfirst)?=Q3: What is the speed of Bullet (Rifle)?=Q4: What is the ratio of the speed of Skydiver (headfirst) and the speed of Bullet (Rifle)?=A1: 1.226320E+03 m=A2: 9.164320E+02 m/s=A3: 7.804878E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Daytona International Speedway", "length" ] ], [ ".", [ "Skydiver (headfirst)", "speed" ] ] ] ] ] }, { "question": "How long does it take for Greyhound to travel across English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The speed of Greyhound is 5.056180E+08 times that of Grass growing.=F3: The speed of Grass growing is 3.978656E-08 m/s.", "answer": "1.621212E+03 s", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the speed of Greyhound?=Q3: What is the speed of Grass growing?=Q4: What is the ratio of the speed of Greyhound and the speed of Grass growing?=A1: 3.261360E+04 m=A2: 3.978656E-08 m/s=A3: 5.056180E+08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Greyhound", "speed" ] ] ] ] ] }, { "question": "How many Mars Bars can 583 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.650407E-03 times that of Polonium-241.=F2: The cost of Mars Bars is $1.000000E+00.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "7.602320E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is the cost of Polonium-241?=Q4: What is 583 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Polonium-241?=A1: $1.000000E+00=A2: $4.920000E+13=A3: 2.650407E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 583)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "583" ] ] ] ] ] }, { "question": "How many Golf Tee have the same length as Giant Sequoia (tree)?", "context": "CONTEXT:=F1: The length of Giant Sequoia (tree) is 4.470588E+01 times that of Napoleon.=F2: The length of Golf Tee is 1.645920E-02 m.=F3: The length of Napoleon is 5.181600E-01 m.", "answer": "1.407407E+03", "program": "PROGRAM:=Q1: What is the length of Giant Sequoia (tree)?=Q2: What is the length of Golf Tee?=Q3: What is the length of Napoleon?=Q4: What is the ratio of the length of Giant Sequoia (tree) and that of Napoleon?=A1: 1.645920E-02 m=A2: 5.181600E-01 m=A3: 4.470588E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Giant Sequoia (tree)", "length" ] ], [ ".", [ "Golf Tee", "length" ] ] ] ] ] }, { "question": "Assume Golf Ball (packed)'s volume is half its value. How many Child make Golf Ball (packed)?", "context": "CONTEXT:=F1: The volume of Golf Ball (packed) is 3.178467E-02 times that of Human Stomach.=F2: The volume of Child is 3.000000E-02 m**3.=F3: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "2.998353E+01", "program": "PROGRAM:=Q1: What is the volume of Golf Ball (packed)?=Q2: What is the volume of Child?=Q3: What is the volume of Human Stomach?=Q4: What is half the volume of Golf Ball (packed)?=Q5: What is the ratio of the volume of Golf Ball (packed) and that of Human Stomach?=A1: 3.000000E-02 m**3=A2: 5.660000E+01 m**3=A3: 3.178467E-02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Golf Ball (packed)", "volume" ] ], [ ".", [ "Child", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Walmart's Mainframe put together contain the same information as 505 of LHC Data Generated per Second?", "context": "CONTEXT:=F1: The data of Walmart's Mainframe is 5.000000E+12 times that of Magnetic Stripe Card.=F2: The data of LHC Data Generated per Second is 8.000000E+14 bytes.=F3: The data of Magnetic Stripe Card is 8.000000E+02 bytes.", "answer": "1.010000E+02", "program": "PROGRAM:=Q1: What is the data of Walmart's Mainframe?=Q2: What is the data of LHC Data Generated per Second?=Q3: What is the data of Magnetic Stripe Card?=Q4: What is 505 times the data of LHC Data Generated per Second?=Q5: What is the ratio of the data of Walmart's Mainframe and that of Magnetic Stripe Card?=A1: 8.000000E+14 bytes=A2: 8.000000E+02 bytes=A3: 5.000000E+12=Q2 -> A1 | F2=Q4 -> Mul(Q2, 505)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "LHC Data Generated per Second", "data" ] ], [ ".", [ "Walmart's Mainframe", "data" ] ] ] ], [ "", [ "505" ] ] ] ] ] }, { "question": "How many Facebook's Photo Storage put together contain the same information as 975 of Compact Disc?", "context": "CONTEXT:=F1: The data of Facebook's Photo Storage is 8.000000E+15 bytes.=F2: The data of Compact Disc is 8.246667E-07 times that of Google database.=F3: The data of Google database is 7.500000E+15 bytes.", "answer": "7.537969E-04", "program": "PROGRAM:=Q1: What is the data of Facebook's Photo Storage?=Q2: What is the data of Compact Disc?=Q3: What is the data of Google database?=Q4: What is 975 times the data of Compact Disc?=Q5: What is the ratio of the data of Compact Disc and that of Google database?=A1: 8.000000E+15 bytes=A2: 7.500000E+15 bytes=A3: 8.246667E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 975)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Compact Disc", "data" ] ], [ ".", [ "Facebook's Photo Storage", "data" ] ] ] ], [ "", [ "975" ] ] ] ] ] }, { "question": "How many Detroit have the same area as Prince Edward Island?", "context": "CONTEXT:=F1: The area of Prince Edward Island is 5.683724E+09 m**2.=F2: The area of Detroit is 1.260586E+12 times that of Penny.=F3: The area of Penny is 2.852030E-04 m**2.", "answer": "1.580907E+01", "program": "PROGRAM:=Q1: What is the area of Prince Edward Island?=Q2: What is the area of Detroit?=Q3: What is the area of Penny?=Q4: What is the ratio of the area of Detroit and that of Penny?=A1: 5.683724E+09 m**2=A2: 2.852030E-04 m**2=A3: 1.260586E+12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Prince Edward Island", "area" ] ], [ ".", [ "Detroit", "area" ] ] ] ] ] }, { "question": "How many Bathtub have the same length as Calangute Beach?", "context": "CONTEXT:=F1: The length of Calangute Beach is 2.133600E+03 m.=F2: The length of Bathtub is 1.700000E+00 m.", "answer": "1.255059E+03", "program": "PROGRAM:=Q1: What is the length of Calangute Beach?=Q2: What is the length of Bathtub?=A1: 2.133600E+03 m=A2: 1.700000E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Calangute Beach", "length" ] ], [ ".", [ "Bathtub", "length" ] ] ] ] ] }, { "question": "How many Bill Gates make Gumball?", "context": "CONTEXT:=F1: The volume of Gumball is 2.547000E-01 m**3.=F2: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "4.108065E+00", "program": "PROGRAM:=Q1: What is the volume of Gumball?=Q2: What is the volume of Bill Gates?=A1: 2.547000E-01 m**3=A2: 6.200000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Gumball", "volume" ] ], [ ".", [ "Bill Gates", "volume" ] ] ] ] ] }, { "question": "How many Hairs can 259 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is 3.125000E+03 times that of Sheet of paper.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "6.754720E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Sheet of paper?=Q4: What is 259 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Hairs and the cost of Sheet of paper?=A1: $1.304000E+11=A2: $1.600000E-02=A3: 3.125000E+03=Q1 -> A1 | F1=Q4 -> Mul(Q1, 259)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "259" ] ] ] ] ] }, { "question": "How long does it take for Tornado to travel across Volga?", "context": "CONTEXT:=F1: The length of Volga is 1.075944E+06 m.=F2: The speed of Tornado is 5.520944E+01 m/s.", "answer": "1.948841E+04 s", "program": "PROGRAM:=Q1: What is the length of Volga?=Q2: What is the speed of Tornado?=A1: 1.075944E+06 m=A2: 5.520944E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Volga", "length" ] ], [ ".", [ "Tornado", "speed" ] ] ] ] ] }, { "question": "How many Puncak Jaya have the same length as Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 1.961998E+06 m.=F2: The length of Puncak Jaya is 1.488643E+03 m.", "answer": "1.317977E+03", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the length of Puncak Jaya?=A1: 1.961998E+06 m=A2: 1.488643E+03 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Puncak Jaya", "length" ] ] ] ] ] }, { "question": "How many Sheet of paper can 237 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is $1.600000E-02.", "answer": "1.931550E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is 237 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.600000E-02=Q1 -> A1 | F1=Q3 -> Mul(Q1, 237)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "237" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's area is half its value. How many pizza fit on Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The area of Lincoln Memorial Reflecting Pool is 3.149310E+04 m**2.=F2: The area of pizza is 7.432000E-02 m**2.", "answer": "2.118750E+05", "program": "PROGRAM:=Q1: What is the area of Lincoln Memorial Reflecting Pool?=Q2: What is the area of pizza?=Q3: What is half the area of pizza?=A1: 3.149310E+04 m**2=A2: 7.432000E-02 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "area" ] ], [ ".", [ "pizza", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Cinderella Castle have the same length as Petronas Twin Towers?", "context": "CONTEXT:=F1: The length of Petronas Twin Towers is 7.531667E+07 times that of Cell's Nucleus.=F2: The length of Cinderella Castle is 1.755648E+01 m.=F3: The length of Cell's Nucleus is 1.828800E-06 m.", "answer": "7.845486E+00", "program": "PROGRAM:=Q1: What is the length of Petronas Twin Towers?=Q2: What is the length of Cinderella Castle?=Q3: What is the length of Cell's Nucleus?=Q4: What is the ratio of the length of Petronas Twin Towers and that of Cell's Nucleus?=A1: 1.755648E+01 m=A2: 1.828800E-06 m=A3: 7.531667E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Petronas Twin Towers", "length" ] ], [ ".", [ "Cinderella Castle", "length" ] ] ] ] ] }, { "question": "How many Person have the same volume as Basketball (packed)?", "context": "CONTEXT:=F1: The volume of Basketball (packed) is 3.141396E+02 m**3.=F2: The volume of Person is 1.060071E-03 times that of Human Stomach.=F3: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "5.235660E+03", "program": "PROGRAM:=Q1: What is the volume of Basketball (packed)?=Q2: What is the volume of Person?=Q3: What is the volume of Human Stomach?=Q4: What is the ratio of the volume of Person and that of Human Stomach?=A1: 3.141396E+02 m**3=A2: 5.660000E+01 m**3=A3: 1.060071E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Basketball (packed)", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ] ] }, { "question": "How many Hairs make up 787 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 1.500000E-05 times that of Car.=F2: The mass of Car is 2.000000E+03 kg.=F3: The total mass that needs to be reached is 787 kg.", "answer": "2.623333E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the mass of Car?=Q3: What is the total mass that needs to be reached?=A1: 2.000000E+03 kg=A2: 787 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.500000E-05)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "787" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How many Hairs can 71 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Hairs is $5.000000E+01.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "1.851680E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Bathtub?=Q4: What is 71 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $5.000000E+01=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 71)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "71" ] ] ] ] ] }, { "question": "How many Sheet of paper have the same volume as Beer Keg?", "context": "CONTEXT:=F1: The volume of Beer Keg is 3.668750E-01 times that of Bathtub.=F2: The volume of Sheet of paper is 1.000000E-04 m**3.=F3: The volume of Bathtub is 4.528000E+03 m**3.", "answer": "1.661210E+07", "program": "PROGRAM:=Q1: What is the volume of Beer Keg?=Q2: What is the volume of Sheet of paper?=Q3: What is the volume of Bathtub?=Q4: What is the ratio of the volume of Beer Keg and that of Bathtub?=A1: 1.000000E-04 m**3=A2: 4.528000E+03 m**3=A3: 3.668750E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Beer Keg", "volume" ] ], [ ".", [ "Sheet of paper", "volume" ] ] ] ] ] }, { "question": "How many Mars Bars make up 8 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 5.000000E-02 kg.=F2: The total mass that needs to be reached is 8 kg.", "answer": "1.600000E+02", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 8 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "8" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many Soccer City fit on Tokelau?", "context": "CONTEXT:=F1: The area of Tokelau is 2.663934E-03 times that of Fort Bliss.=F2: The area of Soccer City is 2.415400E+05 m**2.=F3: The area of Fort Bliss is 4.533520E+09 m**2.", "answer": "5.000000E+01", "program": "PROGRAM:=Q1: What is the area of Tokelau?=Q2: What is the area of Soccer City ?=Q3: What is the area of Fort Bliss?=Q4: What is the ratio of the area of Tokelau and that of Fort Bliss?=A1: 2.415400E+05 m**2=A2: 4.533520E+09 m**2=A3: 2.663934E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Tokelau", "area" ] ], [ ".", [ "Soccer City ", "area" ] ] ] ] ] }, { "question": "How long to digest 817 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.983700E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 817 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(817, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "817" ] ] ] ] ] }, { "question": "How long does it take for Speed of Sound to travel across Mississippi River?", "context": "CONTEXT:=F1: The length of Mississippi River is 3.138333E+01 times that of Hadrian's Wall.=F2: The speed of Speed of Sound is 3.428797E+02 m/s.=F3: The length of Hadrian's Wall is 3.657600E+04 m.", "answer": "3.347754E+03 s", "program": "PROGRAM:=Q1: What is the length of Mississippi River?=Q2: What is the speed of Speed of Sound?=Q3: What is the length of Hadrian's Wall?=Q4: What is the ratio of the length of Mississippi River and the length of Hadrian's Wall?=A1: 3.428797E+02 m/s=A2: 3.657600E+04 m=A3: 3.138333E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mississippi River", "length" ] ], [ ".", [ "Speed of Sound", "speed" ] ] ] ] ] }, { "question": "How many Bowling Ball (packed) have the same volume as Sun?", "context": "CONTEXT:=F1: The volume of Sun is 1.337026E+18 times that of Capitol Rotunda (US).=F2: The volume of Bowling Ball (packed) is 2.330038E+02 m**3.=F3: The volume of Capitol Rotunda (US) is 1.047100E+09 m**3.", "answer": "6.008486E+24", "program": "PROGRAM:=Q1: What is the volume of Sun?=Q2: What is the volume of Bowling Ball (packed)?=Q3: What is the volume of Capitol Rotunda (US)?=Q4: What is the ratio of the volume of Sun and that of Capitol Rotunda (US)?=A1: 2.330038E+02 m**3=A2: 1.047100E+09 m**3=A3: 1.337026E+18=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Sun", "volume" ] ], [ ".", [ "Bowling Ball (packed)", "volume" ] ] ] ] ] }, { "question": "If 568 of Gulf of Mexico were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 6.888220E+19 kg * m ** -3.=F2: The volume of Gulf of Mexico is 1.111003E+21 times that of Bill Gates.=F3: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "4.695011E+31 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of Gulf of Mexico?=Q3: What is the volume of Bill Gates?=Q4: What is 568 times the volume of Gulf of Mexico?=Q5: What is the ratio of the volume of Gulf of Mexico and that of Bill Gates?=A1: 6.888220E+19 kg * m ** -3=A2: 6.200000E-02 m**3=A3: 1.111003E+21=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 568)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "568" ] ] ] ] ] }, { "question": "How many Sheet of paper can 505 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is $1.600000E-02.", "answer": "4.115750E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is 505 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.600000E-02=Q1 -> A1 | F1=Q3 -> Mul(Q1, 505)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "505" ] ] ] ] ] }, { "question": "How long to digest 289 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.762900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 289 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(289, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "289" ] ] ] ] ] }, { "question": "How many Elephant have the same volume as Bowling Ball?", "context": "CONTEXT:=F1: The volume of Bowling Ball is 1.263632E-15 times that of Grand Canyon.=F2: The volume of Elephant is 7.000000E+00 m**3.=F3: The volume of Grand Canyon is 1.180110E+17 m**3.", "answer": "2.130320E+01", "program": "PROGRAM:=Q1: What is the volume of Bowling Ball?=Q2: What is the volume of Elephant?=Q3: What is the volume of Grand Canyon?=Q4: What is the ratio of the volume of Bowling Ball and that of Grand Canyon?=A1: 7.000000E+00 m**3=A2: 1.180110E+17 m**3=A3: 1.263632E-15=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Bowling Ball", "volume" ] ], [ ".", [ "Elephant", "volume" ] ] ] ] ] }, { "question": "How many Child make up 929 kgs?", "context": "CONTEXT:=F1: The mass of Child is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 929 kg.", "answer": "3.096667E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 929 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "929" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How many Hairs make up 368 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 368 kg.", "answer": "1.226667E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 368 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "368" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How long to digest 316 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.927600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 316 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(316, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "316" ] ] ] ] ] }, { "question": "How many Wikipedia put together contain the same information as 36 of iPod?", "context": "CONTEXT:=F1: The data of Wikipedia is 5.625000E-05 times that of Facebook's Photo Storage.=F2: The data of iPod is 1.380000E+12 bytes.=F3: The data of Facebook's Photo Storage is 8.000000E+15 bytes.", "answer": "1.104000E+02", "program": "PROGRAM:=Q1: What is the data of Wikipedia?=Q2: What is the data of iPod?=Q3: What is the data of Facebook's Photo Storage?=Q4: What is 36 times the data of iPod?=Q5: What is the ratio of the data of Wikipedia and that of Facebook's Photo Storage?=A1: 1.380000E+12 bytes=A2: 8.000000E+15 bytes=A3: 5.625000E-05=Q2 -> A1 | F2=Q4 -> Mul(Q2, 36)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "iPod", "data" ] ], [ ".", [ "Wikipedia", "data" ] ] ] ], [ "", [ "36" ] ] ] ] ] }, { "question": "How many Bill Gates have the same volume as Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 4.858290E+14 times that of Bowling Ball (packed).=F2: The volume of Bill Gates is 6.200000E-02 m**3.=F3: The volume of Bowling Ball (packed) is 2.330038E+02 m**3.", "answer": "1.825806E+18", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of Bill Gates?=Q3: What is the volume of Bowling Ball (packed)?=Q4: What is the ratio of the volume of Halley's Comet and that of Bowling Ball (packed)?=A1: 6.200000E-02 m**3=A2: 2.330038E+02 m**3=A3: 4.858290E+14=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "Bill Gates", "volume" ] ] ] ] ] }, { "question": "How many Bill Gates can 229 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is $1.304000E+11.", "answer": "2.290000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is 229 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.304000E+11=Q1 -> A1 | F1=Q3 -> Mul(Q1, 229)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "229" ] ] ] ] ] }, { "question": "Assume boulder's volume is half its value. How many Gumball (packed) have the same volume as boulder?", "context": "CONTEXT:=F1: The volume of boulder is 7.075000E+03 m**3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "1.250000E+04", "program": "PROGRAM:=Q1: What is the volume of boulder?=Q2: What is the volume of Gumball (packed)?=Q3: What is half the volume of boulder?=A1: 7.075000E+03 m**3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "boulder", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 548 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 1.666667E-04 times that of Dog.=F2: The mass of Dog is 3.000000E+01 kg.=F3: The total mass that needs to be reached is 548 kg.", "answer": "1.096000E+05", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Dog?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 548 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.666667E-04)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "548" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Ancestry.com's Census Records put together contain the same information as 189 of Watson?", "context": "CONTEXT:=F1: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.=F2: The data of Watson is 7.777778E+01 times that of Wikipedia.=F3: The data of Wikipedia is 4.500000E+11 bytes.", "answer": "1.323000E+00", "program": "PROGRAM:=Q1: What is the data of Ancestry.com's Census Records?=Q2: What is the data of Watson?=Q3: What is the data of Wikipedia?=Q4: What is 189 times the data of Watson?=Q5: What is the ratio of the data of Watson and that of Wikipedia?=A1: 5.000000E+15 bytes=A2: 4.500000E+11 bytes=A3: 7.777778E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 189)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Watson", "data" ] ], [ ".", [ "Ancestry.com's Census Records", "data" ] ] ] ], [ "", [ "189" ] ] ] ] ] }, { "question": "How many head make Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 1.132000E+17 m**3.=F2: The volume of head is 7.373839E+01 times that of Golf Ball.=F3: The volume of Golf Ball is 1.151368E+00 m**3.", "answer": "1.333333E+15", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of head?=Q3: What is the volume of Golf Ball?=Q4: What is the ratio of the volume of head and that of Golf Ball?=A1: 1.132000E+17 m**3=A2: 1.151368E+00 m**3=A3: 7.373839E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "head", "volume" ] ] ] ] ] }, { "question": "If 542 of Earth were to have the same density as glass, how much would it weigh?", "context": "CONTEXT:=F1: The density of glass is 1.100000E+21 kg * m ** -3.=F2: The volume of Earth is 1.100000E+21 m**3.", "answer": "1.490500E+33 kg", "program": "PROGRAM:=Q1: What is the density of glass?=Q2: What is the volume of Earth?=Q3: What is 542 times the volume of Earth?=A1: 1.100000E+21 kg * m ** -3=A2: 1.100000E+21 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 542)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Earth", "volume" ] ], [ ".", [ "glass", "density" ] ] ] ], [ "", [ "542" ] ] ] ] ] }, { "question": "How many Person make up 132 kgs?", "context": "CONTEXT:=F1: The mass of Person is 1.088777E-23 times that of Earth.=F2: The mass of Earth is 5.970000E+24 kg.=F3: The total mass that needs to be reached is 132 kg.", "answer": "2.030769E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the mass of Earth?=Q3: What is the total mass that needs to be reached?=A1: 5.970000E+24 kg=A2: 132 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.088777E-23)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "132" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many YouTube's video database put together contain the same information as 625 of Netflix's Watch Instantly catalog?", "context": "CONTEXT:=F1: The data of YouTube's video database is 1.175000E+00 times that of Walmart's Mainframe.=F2: The data of Netflix's Watch Instantly catalog is 2.830000E+16 bytes.=F3: The data of Walmart's Mainframe is 4.000000E+15 bytes.", "answer": "3.763298E+03", "program": "PROGRAM:=Q1: What is the data of YouTube's video database?=Q2: What is the data of Netflix's Watch Instantly catalog?=Q3: What is the data of Walmart's Mainframe?=Q4: What is 625 times the data of Netflix's Watch Instantly catalog?=Q5: What is the ratio of the data of YouTube's video database and that of Walmart's Mainframe?=A1: 2.830000E+16 bytes=A2: 4.000000E+15 bytes=A3: 1.175000E+00=Q2 -> A1 | F2=Q4 -> Mul(Q2, 625)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Netflix's Watch Instantly catalog", "data" ] ], [ ".", [ "YouTube's video database", "data" ] ] ] ], [ "", [ "625" ] ] ] ] ] }, { "question": "How many Golf Ball (packed) make Bowling Ball (packed)?", "context": "CONTEXT:=F1: The volume of Bowling Ball (packed) is 1.063944E-17 times that of Moon.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.=F3: The volume of Moon is 2.190000E+19 m**3.", "answer": "1.295176E+02", "program": "PROGRAM:=Q1: What is the volume of Bowling Ball (packed)?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is the volume of Moon?=Q4: What is the ratio of the volume of Bowling Ball (packed) and that of Moon?=A1: 1.799012E+00 m**3=A2: 2.190000E+19 m**3=A3: 1.063944E-17=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Bowling Ball (packed)", "volume" ] ], [ ".", [ "Golf Ball (packed)", "volume" ] ] ] ] ] }, { "question": "How many San Diego have the same area as Vancouver Island?", "context": "CONTEXT:=F1: The area of Vancouver Island is 3.128408E+10 m**2.=F2: The area of San Diego is 8.399089E+08 m**2.", "answer": "3.724699E+01", "program": "PROGRAM:=Q1: What is the area of Vancouver Island?=Q2: What is the area of San Diego?=A1: 3.128408E+10 m**2=A2: 8.399089E+08 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Vancouver Island", "area" ] ], [ ".", [ "San Diego", "area" ] ] ] ] ] }, { "question": "How many Manchester Cathedral have the same area as Yosemite National Park?", "context": "CONTEXT:=F1: The area of Yosemite National Park is 7.564048E-01 times that of Rhode Island.=F2: The area of Manchester Cathedral is 1.238357E+03 m**2.=F3: The area of Rhode Island is 4.001528E+09 m**2.", "answer": "2.444186E+06", "program": "PROGRAM:=Q1: What is the area of Yosemite National Park?=Q2: What is the area of Manchester Cathedral?=Q3: What is the area of Rhode Island?=Q4: What is the ratio of the area of Yosemite National Park and that of Rhode Island?=A1: 1.238357E+03 m**2=A2: 4.001528E+09 m**2=A3: 7.564048E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Yosemite National Park", "area" ] ], [ ".", [ "Manchester Cathedral", "area" ] ] ] ] ] }, { "question": "How many LHC Data Generated per Second put together contain the same information as 725 of Pandora?", "context": "CONTEXT:=F1: The data of LHC Data Generated per Second is 1.000000E+12 times that of Magnetic Stripe Card.=F2: The data of Pandora is 2.200000E+15 bytes.=F3: The data of Magnetic Stripe Card is 8.000000E+02 bytes.", "answer": "1.993750E+03", "program": "PROGRAM:=Q1: What is the data of LHC Data Generated per Second?=Q2: What is the data of Pandora?=Q3: What is the data of Magnetic Stripe Card?=Q4: What is 725 times the data of Pandora?=Q5: What is the ratio of the data of LHC Data Generated per Second and that of Magnetic Stripe Card?=A1: 2.200000E+15 bytes=A2: 8.000000E+02 bytes=A3: 1.000000E+12=Q2 -> A1 | F2=Q4 -> Mul(Q2, 725)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Pandora", "data" ] ], [ ".", [ "LHC Data Generated per Second", "data" ] ] ] ], [ "", [ "725" ] ] ] ] ] }, { "question": "How many Hairs can 459 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Hairs is $5.000000E+01.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "1.197072E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Bathtub?=Q4: What is 459 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $5.000000E+01=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 459)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "459" ] ] ] ] ] }, { "question": "How many Tennis Ball fit in Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 2.306236E+06 times that of Basketball (packed).=F2: The volume of Tennis Ball is 4.457250E+00 m**3.=F3: The volume of Basketball (packed) is 3.141396E+02 m**3.", "answer": "1.625397E+08", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Tennis Ball?=Q3: What is the volume of Basketball (packed)?=Q4: What is the ratio of the volume of Lincoln Memorial Reflecting Pool and that of Basketball (packed)?=A1: 4.457250E+00 m**3=A2: 3.141396E+02 m**3=A3: 2.306236E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Tennis Ball", "volume" ] ] ] ] ] }, { "question": "How many Bill Gates can 102 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.650407E-03 times that of Polonium-241.=F2: The cost of Bill Gates is $1.304000E+11.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "1.020000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Polonium-241?=Q4: What is 102 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Polonium-241?=A1: $1.304000E+11=A2: $4.920000E+13=A3: 2.650407E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 102)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "102" ] ] ] ] ] }, { "question": "Assume Houston Astrodome's volume is half its value. How many Lincoln Memorial Reflecting Pool have the same volume as Houston Astrodome?", "context": "CONTEXT:=F1: The volume of Houston Astrodome is 1.668985E+06 times that of Hot Tub.=F2: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "2.343750E+01", "program": "PROGRAM:=Q1: What is the volume of Houston Astrodome?=Q2: What is the volume of Lincoln Memorial Reflecting Pool?=Q3: What is the volume of Hot Tub?=Q4: What is half the volume of Houston Astrodome?=Q5: What is the ratio of the volume of Houston Astrodome and that of Hot Tub?=A1: 7.244800E+08 m**3=A2: 2.034770E+04 m**3=A3: 1.668985E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars make up 605 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 1.666667E-03 times that of Dog.=F2: The mass of Dog is 3.000000E+01 kg.=F3: The total mass that needs to be reached is 605 kg.", "answer": "1.210000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the mass of Dog?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 605 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.666667E-03)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "605" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many Bangalore have the same area as Hawaii?", "context": "CONTEXT:=F1: The area of Hawaii is 3.502739E+06 times that of Seal Island.=F2: The area of Bangalore is 7.413420E+08 m**2.=F3: The area of Seal Island is 8.082300E+03 m**2.", "answer": "3.818776E+01", "program": "PROGRAM:=Q1: What is the area of Hawaii?=Q2: What is the area of Bangalore?=Q3: What is the area of Seal Island?=Q4: What is the ratio of the area of Hawaii and that of Seal Island?=A1: 7.413420E+08 m**2=A2: 8.082300E+03 m**2=A3: 3.502739E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Hawaii", "area" ] ], [ ".", [ "Bangalore", "area" ] ] ] ] ] }, { "question": "How many Hairs can 381 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is 5.000000E-02 times that of Dog.=F3: The cost of Dog is $1.000000E+03.", "answer": "9.936480E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Dog?=Q4: What is 381 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Hairs and the cost of Dog?=A1: $1.304000E+11=A2: $1.000000E+03=A3: 5.000000E-02=Q1 -> A1 | F1=Q4 -> Mul(Q1, 381)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "381" ] ] ] ] ] }, { "question": "How many Hairs can 553 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is $5.000000E+01.", "answer": "1.442224E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is 553 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $5.000000E+01=Q1 -> A1 | F1=Q3 -> Mul(Q1, 553)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "553" ] ] ] ] ] }, { "question": "Assume Olympus Mons's length is half its value. How many Strand of Spaghetti (thickness) have the same length as Olympus Mons?", "context": "CONTEXT:=F1: The length of Olympus Mons is 8.229600E+03 m.=F2: The length of Strand of Spaghetti (thickness) is 5.181600E-04 m.", "answer": "7.941176E+06", "program": "PROGRAM:=Q1: What is the length of Olympus Mons?=Q2: What is the length of Strand of Spaghetti (thickness)?=Q3: What is half the length of Olympus Mons?=A1: 8.229600E+03 m=A2: 5.181600E-04 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympus Mons", "length" ] ], [ ".", [ "Strand of Spaghetti (thickness)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dog can 997 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.608000E+09 times that of Hairs.=F2: The cost of Dog is $1.000000E+03.=F3: The cost of Hairs is $5.000000E+01.", "answer": "1.300088E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Dog?=Q3: What is the cost of Hairs?=Q4: What is 997 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Hairs?=A1: $1.000000E+03=A2: $5.000000E+01=A3: 2.608000E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 997)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Dog", "cost" ] ] ] ], [ "", [ "997" ] ] ] ] ] }, { "question": "How many plastic straw have the same length as Maxwell Montes?", "context": "CONTEXT:=F1: The length of Maxwell Montes is 3.352800E+03 m.=F2: The length of plastic straw is 4.268293E-04 times that of Shanghai World Financial Center.=F3: The length of Shanghai World Financial Center is 1.499616E+02 m.", "answer": "5.238095E+04", "program": "PROGRAM:=Q1: What is the length of Maxwell Montes?=Q2: What is the length of plastic straw?=Q3: What is the length of Shanghai World Financial Center?=Q4: What is the ratio of the length of plastic straw and that of Shanghai World Financial Center?=A1: 3.352800E+03 m=A2: 1.499616E+02 m=A3: 4.268293E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Maxwell Montes", "length" ] ], [ ".", [ "plastic straw", "length" ] ] ] ] ] }, { "question": "How many Child make up 472 kgs?", "context": "CONTEXT:=F1: The mass of Child is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 472 kg.", "answer": "1.573333E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 472 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "472" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How long to digest 763 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.654300E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 763 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(763, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "763" ] ] ] ] ] }, { "question": "Assume Olympic Pool's length is half its value. How many King Size Bed have the same length as Olympic Pool?", "context": "CONTEXT:=F1: The length of Olympic Pool is 5.000000E+01 m.=F2: The length of King Size Bed is 6.193536E-01 m.", "answer": "4.036466E+01", "program": "PROGRAM:=Q1: What is the length of Olympic Pool?=Q2: What is the length of King Size Bed?=Q3: What is half the length of Olympic Pool?=A1: 5.000000E+01 m=A2: 6.193536E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympic Pool", "length" ] ], [ ".", [ "King Size Bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Hurricane to travel across Challenger Deep (Marianas Trench)?", "context": "CONTEXT:=F1: The length of Challenger Deep (Marianas Trench) is 3.322930E+03 m.=F2: The speed of Hurricane is 1.644444E+00 times that of Greyhound.=F3: The speed of Greyhound is 2.011680E+01 m/s.", "answer": "1.004484E+02 s", "program": "PROGRAM:=Q1: What is the length of Challenger Deep (Marianas Trench)?=Q2: What is the speed of Hurricane?=Q3: What is the speed of Greyhound?=Q4: What is the ratio of the speed of Hurricane and the speed of Greyhound?=A1: 3.322930E+03 m=A2: 2.011680E+01 m/s=A3: 1.644444E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Challenger Deep (Marianas Trench)", "length" ] ], [ ".", [ "Hurricane", "speed" ] ] ] ] ] }, { "question": "Assume Grand Canyon's length is half its value. How many Giraffe have the same length as Grand Canyon?", "context": "CONTEXT:=F1: The length of Grand Canyon is 1.359408E+05 m.=F2: The length of Giraffe is 1.737360E+00 m.", "answer": "3.912281E+04", "program": "PROGRAM:=Q1: What is the length of Grand Canyon?=Q2: What is the length of Giraffe?=Q3: What is half the length of Grand Canyon?=A1: 1.359408E+05 m=A2: 1.737360E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Grand Canyon", "length" ] ], [ ".", [ "Giraffe", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Baseball fit in Ostrich Egg?", "context": "CONTEXT:=F1: The volume of Ostrich Egg is 4.618560E+01 m**3.=F2: The volume of Baseball is 4.207491E-03 times that of suitcase.=F3: The volume of suitcase is 1.415000E+03 m**3.", "answer": "7.757592E+00", "program": "PROGRAM:=Q1: What is the volume of Ostrich Egg?=Q2: What is the volume of Baseball?=Q3: What is the volume of suitcase?=Q4: What is the ratio of the volume of Baseball and that of suitcase?=A1: 4.618560E+01 m**3=A2: 1.415000E+03 m**3=A3: 4.207491E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Ostrich Egg", "volume" ] ], [ ".", [ "Baseball", "volume" ] ] ] ] ] }, { "question": "How long to digest 486 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.964600E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 486 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(486, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "486" ] ] ] ] ] }, { "question": "How many Rock Island fit on Calgary?", "context": "CONTEXT:=F1: The area of Calgary is 4.163952E+02 times that of London Heathrow Airport (LHR).=F2: The area of Rock Island is 3.922145E+07 m**2.=F3: The area of London Heathrow Airport (LHR) is 1.227209E+07 m**2.", "answer": "1.302868E+02", "program": "PROGRAM:=Q1: What is the area of Calgary?=Q2: What is the area of Rock Island?=Q3: What is the area of London Heathrow Airport (LHR)?=Q4: What is the ratio of the area of Calgary and that of London Heathrow Airport (LHR)?=A1: 3.922145E+07 m**2=A2: 1.227209E+07 m**2=A3: 4.163952E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Calgary", "area" ] ], [ ".", [ "Rock Island", "area" ] ] ] ] ] }, { "question": "Assume Lincoln Memorial Reflecting Pool's volume is half its value. How many boulder make Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F2: The volume of boulder is 7.075000E+03 m**3.", "answer": "5.120000E+04", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of boulder?=Q3: What is half the volume of Lincoln Memorial Reflecting Pool?=A1: 7.244800E+08 m**3=A2: 7.075000E+03 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "boulder", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 115 of Lincoln Memorial Reflecting Pool were to have the same density as carbon dioxide, how much would it weigh?", "context": "CONTEXT:=F1: The density of carbon dioxide is 7.244800E+08 kg * m ** -3.=F2: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.", "answer": "1.649641E+17 kg", "program": "PROGRAM:=Q1: What is the density of carbon dioxide?=Q2: What is the volume of Lincoln Memorial Reflecting Pool?=Q3: What is 115 times the volume of Lincoln Memorial Reflecting Pool?=A1: 7.244800E+08 kg * m ** -3=A2: 7.244800E+08 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 115)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "carbon dioxide", "density" ] ] ] ], [ "", [ "115" ] ] ] ] ] }, { "question": "How many Christmas Tree (artificial) have the same length as Empire State Building?", "context": "CONTEXT:=F1: The length of Empire State Building is 6.885764E-01 times that of CN Tower.=F2: The length of Christmas Tree (artificial) is 7.010400E-01 m.=F3: The length of CN Tower is 1.686550E+02 m.", "answer": "1.656565E+02", "program": "PROGRAM:=Q1: What is the length of Empire State Building?=Q2: What is the length of Christmas Tree (artificial)?=Q3: What is the length of CN Tower?=Q4: What is the ratio of the length of Empire State Building and that of CN Tower?=A1: 7.010400E-01 m=A2: 1.686550E+02 m=A3: 6.885764E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Empire State Building", "length" ] ], [ ".", [ "Christmas Tree (artificial)", "length" ] ] ] ] ] }, { "question": "How many LHC Data Generated per Second put together contain the same information as 449 of Netflix's Watch Instantly catalog?", "context": "CONTEXT:=F1: The data of LHC Data Generated per Second is 8.000000E+14 bytes.=F2: The data of Netflix's Watch Instantly catalog is 2.830000E+16 bytes.", "answer": "1.588338E+04", "program": "PROGRAM:=Q1: What is the data of LHC Data Generated per Second?=Q2: What is the data of Netflix's Watch Instantly catalog?=Q3: What is 449 times the data of Netflix's Watch Instantly catalog?=A1: 8.000000E+14 bytes=A2: 2.830000E+16 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 449)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Netflix's Watch Instantly catalog", "data" ] ], [ ".", [ "LHC Data Generated per Second", "data" ] ] ] ], [ "", [ "449" ] ] ] ] ] }, { "question": "How long does it take for Hurricane to travel across Rhine?", "context": "CONTEXT:=F1: The length of Rhine is 4.023360E+05 m.=F2: The speed of Hurricane is 1.077932E+00 times that of Cheetah.=F3: The speed of Cheetah is 3.068930E+01 m/s.", "answer": "1.216216E+04 s", "program": "PROGRAM:=Q1: What is the length of Rhine?=Q2: What is the speed of Hurricane?=Q3: What is the speed of Cheetah?=Q4: What is the ratio of the speed of Hurricane and the speed of Cheetah?=A1: 4.023360E+05 m=A2: 3.068930E+01 m/s=A3: 1.077932E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Rhine", "length" ] ], [ ".", [ "Hurricane", "speed" ] ] ] ] ] }, { "question": "How many Pandora put together contain the same information as 84 of Digital Photo?", "context": "CONTEXT:=F1: The data of Pandora is 2.200000E+15 bytes.=F2: The data of Digital Photo is 3.250000E-09 times that of Walmart's Mainframe.=F3: The data of Walmart's Mainframe is 4.000000E+15 bytes.", "answer": "4.963636E-07", "program": "PROGRAM:=Q1: What is the data of Pandora?=Q2: What is the data of Digital Photo?=Q3: What is the data of Walmart's Mainframe?=Q4: What is 84 times the data of Digital Photo?=Q5: What is the ratio of the data of Digital Photo and that of Walmart's Mainframe?=A1: 2.200000E+15 bytes=A2: 4.000000E+15 bytes=A3: 3.250000E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 84)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Digital Photo", "data" ] ], [ ".", [ "Pandora", "data" ] ] ] ], [ "", [ "84" ] ] ] ] ] }, { "question": "How many Golf Ball make Bowling Ball?", "context": "CONTEXT:=F1: The volume of Bowling Ball is 1.491224E+02 m**3.=F2: The volume of Golf Ball is 1.151368E+00 m**3.", "answer": "1.295176E+02", "program": "PROGRAM:=Q1: What is the volume of Bowling Ball?=Q2: What is the volume of Golf Ball?=A1: 1.491224E+02 m**3=A2: 1.151368E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Bowling Ball", "volume" ] ], [ ".", [ "Golf Ball", "volume" ] ] ] ] ] }, { "question": "How many E. coli Bacterium have the same length as Shaq?", "context": "CONTEXT:=F1: The length of Shaq is 6.705600E-01 m.=F2: The length of E. coli Bacterium is 6.096000E-07 m.", "answer": "1.100000E+06", "program": "PROGRAM:=Q1: What is the length of Shaq?=Q2: What is the length of E. coli Bacterium?=A1: 6.705600E-01 m=A2: 6.096000E-07 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Shaq", "length" ] ], [ ".", [ "E. coli Bacterium", "length" ] ] ] ] ] }, { "question": "How many Sheet of paper can 437 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is $1.600000E-02.", "answer": "3.561550E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is 437 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.600000E-02=Q1 -> A1 | F1=Q3 -> Mul(Q1, 437)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "437" ] ] ] ] ] }, { "question": "How many Full Size Bed have the same length as Mount Logan?", "context": "CONTEXT:=F1: The length of Mount Logan is 6.621111E+00 times that of Three Sisters Falls.=F2: The length of Full Size Bed is 5.806440E-01 m.=F3: The length of Three Sisters Falls is 2.743200E+02 m.", "answer": "3.128084E+03", "program": "PROGRAM:=Q1: What is the length of Mount Logan?=Q2: What is the length of Full Size Bed?=Q3: What is the length of Three Sisters Falls?=Q4: What is the ratio of the length of Mount Logan and that of Three Sisters Falls?=A1: 5.806440E-01 m=A2: 2.743200E+02 m=A3: 6.621111E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Mount Logan", "length" ] ], [ ".", [ "Full Size Bed", "length" ] ] ] ] ] }, { "question": "If 82 of Halley's Comet were to have the same density as steel, how much would it weigh?", "context": "CONTEXT:=F1: The density of steel is 1.132000E+17 kg * m ** -3.=F2: The volume of Halley's Comet is 5.168950E-03 times that of Moon.=F3: The volume of Moon is 2.190000E+19 m**3.", "answer": "7.286684E+28 kg", "program": "PROGRAM:=Q1: What is the density of steel?=Q2: What is the volume of Halley's Comet?=Q3: What is the volume of Moon?=Q4: What is 82 times the volume of Halley's Comet?=Q5: What is the ratio of the volume of Halley's Comet and that of Moon?=A1: 1.132000E+17 kg * m ** -3=A2: 2.190000E+19 m**3=A3: 5.168950E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 82)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "steel", "density" ] ] ] ], [ "", [ "82" ] ] ] ] ] }, { "question": "How many Pandora put together contain the same information as 882 of Google Earth database?", "context": "CONTEXT:=F1: The data of Pandora is 2.200000E+15 bytes.=F2: The data of Google Earth database is 7.750000E-01 times that of LHC Data Generated per Second.=F3: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "2.485636E+02", "program": "PROGRAM:=Q1: What is the data of Pandora?=Q2: What is the data of Google Earth database?=Q3: What is the data of LHC Data Generated per Second?=Q4: What is 882 times the data of Google Earth database?=Q5: What is the ratio of the data of Google Earth database and that of LHC Data Generated per Second?=A1: 2.200000E+15 bytes=A2: 8.000000E+14 bytes=A3: 7.750000E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 882)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google Earth database", "data" ] ], [ ".", [ "Pandora", "data" ] ] ] ], [ "", [ "882" ] ] ] ] ] }, { "question": "Assume Hawaii (Island)'s area is half its value. How many Stewart Island have the same area as Hawaii (Island)?", "context": "CONTEXT:=F1: The area of Hawaii (Island) is 1.043211E+10 m**2.=F2: The area of Stewart Island is 9.823740E-05 times that of Russia.=F3: The area of Russia is 1.709768E+13 m**2.", "answer": "3.105476E+00", "program": "PROGRAM:=Q1: What is the area of Hawaii (Island)?=Q2: What is the area of Stewart Island?=Q3: What is the area of Russia?=Q4: What is half the area of Hawaii (Island)?=Q5: What is the ratio of the area of Stewart Island and that of Russia?=A1: 1.043211E+10 m**2=A2: 1.709768E+13 m**2=A3: 9.823740E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hawaii (Island)", "area" ] ], [ ".", [ "Stewart Island", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Person make up 91 kgs?", "context": "CONTEXT:=F1: The mass of Person is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 91 kg.", "answer": "1.400000E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 91 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "91" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "Assume head's volume is half its value. How many Person have the same volume as head?", "context": "CONTEXT:=F1: The volume of head is 2.589928E+01 times that of Puck (Hockey).=F2: The volume of Person is 6.000000E-02 m**3.=F3: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "7.075000E+02", "program": "PROGRAM:=Q1: What is the volume of head?=Q2: What is the volume of Person?=Q3: What is the volume of Puck (Hockey)?=Q4: What is half the volume of head?=Q5: What is the ratio of the volume of head and that of Puck (Hockey)?=A1: 6.000000E-02 m**3=A2: 3.278083E+00 m**3=A3: 2.589928E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "head", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper can 948 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is 4.000000E-07 times that of Car.=F3: The cost of Car is $4.000000E+04.", "answer": "7.726200E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is the cost of Car?=Q4: What is 948 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Sheet of paper and the cost of Car?=A1: $1.304000E+11=A2: $4.000000E+04=A3: 4.000000E-07=Q1 -> A1 | F1=Q4 -> Mul(Q1, 948)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "948" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 144 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 5.000000E-03 kg.=F2: The total mass that needs to be reached is 144 kg.", "answer": "2.880000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 144 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "144" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many smartphone have the same length as Navy Pier?", "context": "CONTEXT:=F1: The length of Navy Pier is 2.743200E+02 m.=F2: The length of smartphone is 5.000000E-02 times that of shark.=F3: The length of shark is 6.096000E-01 m.", "answer": "9.000000E+03", "program": "PROGRAM:=Q1: What is the length of Navy Pier?=Q2: What is the length of smartphone?=Q3: What is the length of shark?=Q4: What is the ratio of the length of smartphone and that of shark?=A1: 2.743200E+02 m=A2: 6.096000E-01 m=A3: 5.000000E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Navy Pier", "length" ] ], [ ".", [ "smartphone", "length" ] ] ] ] ] }, { "question": "If 714 of Elephant were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 7.000000E+00 kg * m ** -3.=F2: The volume of Elephant is 7.000000E+00 m**3.", "answer": "5.997600E+12 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of Elephant?=Q3: What is 714 times the volume of Elephant?=A1: 7.000000E+00 kg * m ** -3=A2: 7.000000E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 714)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Elephant", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "714" ] ] ] ] ] }, { "question": "Assume English Channel's length is half its value. How many Singapore Flyer (Ferris wheel) have the same length as English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 5.815217E+02 times that of Space Needle.=F2: The length of Singapore Flyer (Ferris wheel) is 5.029200E+01 m.=F3: The length of Space Needle is 5.608320E+01 m.", "answer": "3.242424E+02", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the length of Singapore Flyer (Ferris wheel)?=Q3: What is the length of Space Needle?=Q4: What is half the length of English Channel?=Q5: What is the ratio of the length of English Channel and that of Space Needle?=A1: 5.029200E+01 m=A2: 5.608320E+01 m=A3: 5.815217E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Singapore Flyer (Ferris wheel)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Gazelle to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 1.368552E+06 m.=F2: The speed of Gazelle is 1.788160E+01 m/s.", "answer": "7.653409E+04 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of Gazelle?=A1: 1.368552E+06 m=A2: 1.788160E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Gazelle", "speed" ] ] ] ] ] }, { "question": "If 690 of Goodyear Blimp were to have the same density as oxygen, how much would it weigh?", "context": "CONTEXT:=F1: The density of oxygen is 1.624420E+08 kg * m ** -3.=F2: The volume of Goodyear Blimp is 1.624420E+12 times that of Sheet of paper.=F3: The volume of Sheet of paper is 1.000000E-04 m**3.", "answer": "1.278890E+20 kg", "program": "PROGRAM:=Q1: What is the density of oxygen?=Q2: What is the volume of Goodyear Blimp?=Q3: What is the volume of Sheet of paper?=Q4: What is 690 times the volume of Goodyear Blimp?=Q5: What is the ratio of the volume of Goodyear Blimp and that of Sheet of paper?=A1: 1.624420E+08 kg * m ** -3=A2: 1.000000E-04 m**3=A3: 1.624420E+12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 690)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Goodyear Blimp", "volume" ] ], [ ".", [ "oxygen", "density" ] ] ] ], [ "", [ "690" ] ] ] ] ] }, { "question": "How long to digest 321 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.958100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 321 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(321, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "321" ] ] ] ] ] }, { "question": "How long does it take for Hurricane to travel across Volga?", "context": "CONTEXT:=F1: The length of Volga is 1.075944E+06 m.=F2: The speed of Hurricane is 3.308096E+01 m/s.", "answer": "3.252457E+04 s", "program": "PROGRAM:=Q1: What is the length of Volga?=Q2: What is the speed of Hurricane?=A1: 1.075944E+06 m=A2: 3.308096E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Volga", "length" ] ], [ ".", [ "Hurricane", "speed" ] ] ] ] ] }, { "question": "How many Despicable Me put together contain the same information as 409 of Despicable Me?", "context": "CONTEXT:=F1: The data of Despicable Me is 1.250000E+15 bytes.=F2: The data of Despicable Me is 1.250000E+15 bytes.", "answer": "4.090000E+02", "program": "PROGRAM:=Q1: What is the data of Despicable Me?=Q2: What is the data of Despicable Me?=Q3: What is 409 times the data of Despicable Me?=A1: 1.250000E+15 bytes=A2: 1.250000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 409)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Despicable Me", "data" ] ], [ ".", [ "Despicable Me", "data" ] ] ] ], [ "", [ "409" ] ] ] ] ] }, { "question": "How many STARBUCKS Venti Coffee make Melbourne Cricket Ground?", "context": "CONTEXT:=F1: The volume of Melbourne Cricket Ground is 2.392945E+08 times that of Basketball.=F2: The volume of STARBUCKS Venti Coffee is 1.669700E+01 m**3.=F3: The volume of Basketball is 2.010493E+02 m**3.", "answer": "2.881356E+09", "program": "PROGRAM:=Q1: What is the volume of Melbourne Cricket Ground?=Q2: What is the volume of STARBUCKS Venti Coffee?=Q3: What is the volume of Basketball?=Q4: What is the ratio of the volume of Melbourne Cricket Ground and that of Basketball?=A1: 1.669700E+01 m**3=A2: 2.010493E+02 m**3=A3: 2.392945E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Melbourne Cricket Ground", "volume" ] ], [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ] ] ] ] }, { "question": "How many Mozy put together contain the same information as 746 of Page of Text?", "context": "CONTEXT:=F1: The data of Mozy is 3.636364E+02 times that of Hubble Telescope.=F2: The data of Page of Text is 1.900000E+04 bytes.=F3: The data of Hubble Telescope is 1.100000E+15 bytes.", "answer": "3.543500E-11", "program": "PROGRAM:=Q1: What is the data of Mozy?=Q2: What is the data of Page of Text?=Q3: What is the data of Hubble Telescope?=Q4: What is 746 times the data of Page of Text?=Q5: What is the ratio of the data of Mozy and that of Hubble Telescope?=A1: 1.900000E+04 bytes=A2: 1.100000E+15 bytes=A3: 3.636364E+02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 746)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Page of Text", "data" ] ], [ ".", [ "Mozy", "data" ] ] ] ], [ "", [ "746" ] ] ] ] ] }, { "question": "Assume Basketball (packed)'s volume is half its value. How many Human Stomach fit in Basketball (packed)?", "context": "CONTEXT:=F1: The volume of Basketball (packed) is 3.141396E+02 m**3.=F2: The volume of Human Stomach is 1.666667E-09 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "2.775085E+00", "program": "PROGRAM:=Q1: What is the volume of Basketball (packed)?=Q2: What is the volume of Human Stomach?=Q3: What is the volume of Houston Astrodome?=Q4: What is half the volume of Basketball (packed)?=Q5: What is the ratio of the volume of Human Stomach and that of Houston Astrodome?=A1: 3.141396E+02 m**3=A2: 3.396000E+10 m**3=A3: 1.666667E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Basketball (packed)", "volume" ] ], [ ".", [ "Human Stomach", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Halley's Comet's volume is half its value. How many Car fit in Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 6.814310E+13 times that of Beer Keg.=F2: The volume of Car is 8.000000E+00 m**3.=F3: The volume of Beer Keg is 1.661210E+03 m**3.", "answer": "7.075000E+15", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of Car?=Q3: What is the volume of Beer Keg?=Q4: What is half the volume of Halley's Comet?=Q5: What is the ratio of the volume of Halley's Comet and that of Beer Keg?=A1: 8.000000E+00 m**3=A2: 1.661210E+03 m**3=A3: 6.814310E+13=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "Car", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Gulf of Mexico's volume is half its value. How many Lincoln Memorial Reflecting Pool fit in Gulf of Mexico?", "context": "CONTEXT:=F1: The volume of Gulf of Mexico is 6.888220E+19 m**3.=F2: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.", "answer": "4.753906E+10", "program": "PROGRAM:=Q1: What is the volume of Gulf of Mexico?=Q2: What is the volume of Lincoln Memorial Reflecting Pool?=Q3: What is half the volume of Gulf of Mexico?=A1: 6.888220E+19 m**3=A2: 7.244800E+08 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Puck (Hockey) make Football (Soccer)?", "context": "CONTEXT:=F1: The volume of Football (Soccer) is 1.339286E+02 times that of dollar bill.=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.=F3: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "1.294964E+00", "program": "PROGRAM:=Q1: What is the volume of Football (Soccer)?=Q2: What is the volume of Puck (Hockey)?=Q3: What is the volume of dollar bill?=Q4: What is the ratio of the volume of Football (Soccer) and that of dollar bill?=A1: 3.278083E+00 m**3=A2: 3.169600E-02 m**3=A3: 1.339286E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Football (Soccer)", "volume" ] ], [ ".", [ "Puck (Hockey)", "volume" ] ] ] ] ] }, { "question": "How many YouTube's video database put together contain the same information as 481 of Human Brain?", "context": "CONTEXT:=F1: The data of YouTube's video database is 1.205128E-08 times that of All Spoken Words in Human History (recorded).=F2: The data of Human Brain is 2.300000E+16 bytes.=F3: The data of All Spoken Words in Human History (recorded) is 3.900000E+23 bytes.", "answer": "2.353830E+03", "program": "PROGRAM:=Q1: What is the data of YouTube's video database?=Q2: What is the data of Human Brain?=Q3: What is the data of All Spoken Words in Human History (recorded)?=Q4: What is 481 times the data of Human Brain?=Q5: What is the ratio of the data of YouTube's video database and that of All Spoken Words in Human History (recorded)?=A1: 2.300000E+16 bytes=A2: 3.900000E+23 bytes=A3: 1.205128E-08=Q2 -> A1 | F2=Q4 -> Mul(Q2, 481)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Human Brain", "data" ] ], [ ".", [ "YouTube's video database", "data" ] ] ] ], [ "", [ "481" ] ] ] ] ] }, { "question": "How many Birmingham have the same area as United States?", "context": "CONTEXT:=F1: The area of United States is 1.057734E+06 times that of Sydney Kingsford Smith Airport (SYD).=F2: The area of Birmingham is 2.678000E+08 m**2.=F3: The area of Sydney Kingsford Smith Airport (SYD) is 9.290000E+06 m**2.", "answer": "3.669286E+04", "program": "PROGRAM:=Q1: What is the area of United States?=Q2: What is the area of Birmingham?=Q3: What is the area of Sydney Kingsford Smith Airport (SYD)?=Q4: What is the ratio of the area of United States and that of Sydney Kingsford Smith Airport (SYD)?=A1: 2.678000E+08 m**2=A2: 9.290000E+06 m**2=A3: 1.057734E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "United States", "area" ] ], [ ".", [ "Birmingham", "area" ] ] ] ] ] }, { "question": "If 955 of Gumball were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 2.547000E-01 kg * m ** -3.=F2: The volume of Gumball is 2.547000E-01 m**3.", "answer": "1.945908E+11 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Gumball?=Q3: What is 955 times the volume of Gumball?=A1: 2.547000E-01 kg * m ** -3=A2: 2.547000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 955)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Gumball", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "955" ] ] ] ] ] }, { "question": "Assume Beer Keg's volume is half its value. How many Person fit in Beer Keg?", "context": "CONTEXT:=F1: The volume of Beer Keg is 1.661210E+03 m**3.=F2: The volume of Person is 6.000000E-02 m**3.", "answer": "1.384342E+04", "program": "PROGRAM:=Q1: What is the volume of Beer Keg?=Q2: What is the volume of Person?=Q3: What is half the volume of Beer Keg?=A1: 1.661210E+03 m**3=A2: 6.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Beer Keg", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 259 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.579900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 259 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(259, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "259" ] ] ] ] ] }, { "question": "Assume Olympic Swimming Pool's volume is half its value. How many Baseball (packed) make Olympic Swimming Pool?", "context": "CONTEXT:=F1: The volume of Olympic Swimming Pool is 7.075000E+07 m**3.=F2: The volume of Baseball (packed) is 9.302500E+00 m**3.", "answer": "3.802741E+06", "program": "PROGRAM:=Q1: What is the volume of Olympic Swimming Pool?=Q2: What is the volume of Baseball (packed)?=Q3: What is half the volume of Olympic Swimming Pool?=A1: 7.075000E+07 m**3=A2: 9.302500E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympic Swimming Pool", "volume" ] ], [ ".", [ "Baseball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Michael Phelps to travel across English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The speed of Michael Phelps is 1.942478E+00 m/s.", "answer": "1.678969E+04 s", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the speed of Michael Phelps?=A1: 3.261360E+04 m=A2: 1.942478E+00 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Michael Phelps", "speed" ] ] ] ] ] }, { "question": "Assume Indianapolis Motor Speedway's length is half its value. How many Giant Sequoia (tree) have the same length as Indianapolis Motor Speedway?", "context": "CONTEXT:=F1: The length of Indianapolis Motor Speedway is 9.020987E-03 times that of Grand Canyon.=F2: The length of Giant Sequoia (tree) is 2.316480E+01 m.=F3: The length of Grand Canyon is 1.359408E+05 m.", "answer": "2.646947E+01", "program": "PROGRAM:=Q1: What is the length of Indianapolis Motor Speedway?=Q2: What is the length of Giant Sequoia (tree)?=Q3: What is the length of Grand Canyon?=Q4: What is half the length of Indianapolis Motor Speedway?=Q5: What is the ratio of the length of Indianapolis Motor Speedway and that of Grand Canyon?=A1: 2.316480E+01 m=A2: 1.359408E+05 m=A3: 9.020987E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Indianapolis Motor Speedway", "length" ] ], [ ".", [ "Giant Sequoia (tree)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 145 of Halley's Comet were to have the same density as glass, how much would it weigh?", "context": "CONTEXT:=F1: The density of glass is 1.132000E+17 kg * m ** -3.=F2: The volume of Halley's Comet is 8.000000E+13 times that of suitcase.=F3: The volume of suitcase is 1.415000E+03 m**3.", "answer": "4.103500E+28 kg", "program": "PROGRAM:=Q1: What is the density of glass?=Q2: What is the volume of Halley's Comet?=Q3: What is the volume of suitcase?=Q4: What is 145 times the volume of Halley's Comet?=Q5: What is the ratio of the volume of Halley's Comet and that of suitcase?=A1: 1.132000E+17 kg * m ** -3=A2: 1.415000E+03 m**3=A3: 8.000000E+13=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 145)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "glass", "density" ] ] ] ], [ "", [ "145" ] ] ] ] ] }, { "question": "How many plastic straw have the same length as Challenger Deep (Marianas Trench)?", "context": "CONTEXT:=F1: The length of Challenger Deep (Marianas Trench) is 7.451811E+02 times that of Semitrailer.=F2: The length of plastic straw is 6.400800E-02 m.=F3: The length of Semitrailer is 4.459224E+00 m.", "answer": "5.191429E+04", "program": "PROGRAM:=Q1: What is the length of Challenger Deep (Marianas Trench)?=Q2: What is the length of plastic straw?=Q3: What is the length of Semitrailer?=Q4: What is the ratio of the length of Challenger Deep (Marianas Trench) and that of Semitrailer?=A1: 6.400800E-02 m=A2: 4.459224E+00 m=A3: 7.451811E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Challenger Deep (Marianas Trench)", "length" ] ], [ ".", [ "plastic straw", "length" ] ] ] ] ] }, { "question": "How many Dog have the same length as Singapore Flyer (Ferris wheel)?", "context": "CONTEXT:=F1: The length of Singapore Flyer (Ferris wheel) is 2.864583E+00 times that of Cinderella Castle.=F2: The length of Dog is 1.000000E+00 m.=F3: The length of Cinderella Castle is 1.755648E+01 m.", "answer": "5.029200E+01", "program": "PROGRAM:=Q1: What is the length of Singapore Flyer (Ferris wheel)?=Q2: What is the length of Dog?=Q3: What is the length of Cinderella Castle?=Q4: What is the ratio of the length of Singapore Flyer (Ferris wheel) and that of Cinderella Castle?=A1: 1.000000E+00 m=A2: 1.755648E+01 m=A3: 2.864583E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Singapore Flyer (Ferris wheel)", "length" ] ], [ ".", [ "Dog", "length" ] ] ] ] ] }, { "question": "Assume China's area is half its value. How many Lake Ontario fit on China?", "context": "CONTEXT:=F1: The area of China is 9.596644E+12 m**2.=F2: The area of Lake Ontario is 3.845687E+00 times that of Grand Canyon National Park.=F3: The area of Grand Canyon National Park is 4.930430E+09 m**2.", "answer": "2.530642E+02", "program": "PROGRAM:=Q1: What is the area of China?=Q2: What is the area of Lake Ontario?=Q3: What is the area of Grand Canyon National Park?=Q4: What is half the area of China?=Q5: What is the ratio of the area of Lake Ontario and that of Grand Canyon National Park?=A1: 9.596644E+12 m**2=A2: 4.930430E+09 m**2=A3: 3.845687E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "China", "area" ] ], [ ".", [ "Lake Ontario", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 95 of Olympic Swimming Pool were to have the same density as glass, how much would it weigh?", "context": "CONTEXT:=F1: The density of glass is 7.075000E+07 kg * m ** -3.=F2: The volume of Olympic Swimming Pool is 1.136364E+00 times that of Hot Air Balloon.=F3: The volume of Hot Air Balloon is 6.226000E+07 m**3.", "answer": "1.680312E+19 kg", "program": "PROGRAM:=Q1: What is the density of glass?=Q2: What is the volume of Olympic Swimming Pool?=Q3: What is the volume of Hot Air Balloon?=Q4: What is 95 times the volume of Olympic Swimming Pool?=Q5: What is the ratio of the volume of Olympic Swimming Pool and that of Hot Air Balloon?=A1: 7.075000E+07 kg * m ** -3=A2: 6.226000E+07 m**3=A3: 1.136364E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 95)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Olympic Swimming Pool", "volume" ] ], [ ".", [ "glass", "density" ] ] ] ], [ "", [ "95" ] ] ] ] ] }, { "question": "How many Child have the same length as Grand Canyon?", "context": "CONTEXT:=F1: The length of Grand Canyon is 1.359408E+05 m.=F2: The length of Child is 5.624297E-01 times that of Bill Gates.=F3: The length of Bill Gates is 1.778000E+00 m.", "answer": "1.359408E+05", "program": "PROGRAM:=Q1: What is the length of Grand Canyon?=Q2: What is the length of Child?=Q3: What is the length of Bill Gates?=Q4: What is the ratio of the length of Child and that of Bill Gates?=A1: 1.359408E+05 m=A2: 1.778000E+00 m=A3: 5.624297E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "length" ] ], [ ".", [ "Child", "length" ] ] ] ] ] }, { "question": "How many LAX fit on Wales?", "context": "CONTEXT:=F1: The area of Wales is 2.073156E+10 m**2.=F2: The area of LAX is 1.393500E+07 m**2.", "answer": "1.487733E+03", "program": "PROGRAM:=Q1: What is the area of Wales?=Q2: What is the area of LAX?=A1: 2.073156E+10 m**2=A2: 1.393500E+07 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Wales", "area" ] ], [ ".", [ "LAX", "area" ] ] ] ] ] }, { "question": "Assume Football (Soccer) Pitch's length is half its value. How many pencil have the same length as Football (Soccer) Pitch?", "context": "CONTEXT:=F1: The length of Football (Soccer) Pitch is 3.200400E+01 m.=F2: The length of pencil is 4.572000E-02 times that of Child.=F3: The length of Child is 1.000000E+00 m.", "answer": "3.500000E+02", "program": "PROGRAM:=Q1: What is the length of Football (Soccer) Pitch?=Q2: What is the length of pencil?=Q3: What is the length of Child?=Q4: What is half the length of Football (Soccer) Pitch?=Q5: What is the ratio of the length of pencil and that of Child?=A1: 3.200400E+01 m=A2: 1.000000E+00 m=A3: 4.572000E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Football (Soccer) Pitch", "length" ] ], [ ".", [ "pencil", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Golf Ball (packed)'s volume is half its value. How many Gumball (packed) make Golf Ball (packed)?", "context": "CONTEXT:=F1: The volume of Golf Ball (packed) is 1.799012E+00 m**3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "3.178467E+00", "program": "PROGRAM:=Q1: What is the volume of Golf Ball (packed)?=Q2: What is the volume of Gumball (packed)?=Q3: What is half the volume of Golf Ball (packed)?=A1: 1.799012E+00 m**3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Golf Ball (packed)", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Gibraltar have the same area as Calgary?", "context": "CONTEXT:=F1: The area of Calgary is 5.110039E+09 m**2.=F2: The area of Gibraltar is 6.503000E+06 m**2.", "answer": "7.857971E+02", "program": "PROGRAM:=Q1: What is the area of Calgary?=Q2: What is the area of Gibraltar?=A1: 5.110039E+09 m**2=A2: 6.503000E+06 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Calgary", "area" ] ], [ ".", [ "Gibraltar", "area" ] ] ] ] ] }, { "question": "How long to digest 492 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.001200E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 492 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(492, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "492" ] ] ] ] ] }, { "question": "Assume Sydney Harbour's volume is half its value. How many dollar bill have the same volume as Sydney Harbour?", "context": "CONTEXT:=F1: The volume of Sydney Harbour is 7.816412E+08 times that of Hot Tub.=F2: The volume of dollar bill is 3.169600E-02 m**3.=F3: The volume of Hot Tub is 2.034770E+04 m**3.", "answer": "2.508929E+14", "program": "PROGRAM:=Q1: What is the volume of Sydney Harbour?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Hot Tub?=Q4: What is half the volume of Sydney Harbour?=Q5: What is the ratio of the volume of Sydney Harbour and that of Hot Tub?=A1: 3.169600E-02 m**3=A2: 2.034770E+04 m**3=A3: 7.816412E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 174 of Lincoln Memorial Reflecting Pool were to have the same density as bone, how much would it weigh?", "context": "CONTEXT:=F1: The density of bone is 7.244800E+08 kg * m ** -3.=F2: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.", "answer": "2.395131E+20 kg", "program": "PROGRAM:=Q1: What is the density of bone?=Q2: What is the volume of Lincoln Memorial Reflecting Pool?=Q3: What is 174 times the volume of Lincoln Memorial Reflecting Pool?=A1: 7.244800E+08 kg * m ** -3=A2: 7.244800E+08 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 174)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "bone", "density" ] ] ] ], [ "", [ "174" ] ] ] ] ] }, { "question": "How many Brick have the same length as Rhine?", "context": "CONTEXT:=F1: The length of Rhine is 2.200000E+06 times that of suitcase.=F2: The length of Brick is 6.096000E-02 m.=F3: The length of suitcase is 1.828800E-01 m.", "answer": "6.600000E+06", "program": "PROGRAM:=Q1: What is the length of Rhine?=Q2: What is the length of Brick?=Q3: What is the length of suitcase?=Q4: What is the ratio of the length of Rhine and that of suitcase?=A1: 6.096000E-02 m=A2: 1.828800E-01 m=A3: 2.200000E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Rhine", "length" ] ], [ ".", [ "Brick", "length" ] ] ] ] ] }, { "question": "How long does it take for Greyhound to travel across Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 1.961998E+06 m.=F2: The speed of Greyhound is 2.011680E+01 m/s.", "answer": "9.753030E+04 s", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the speed of Greyhound?=A1: 1.961998E+06 m=A2: 2.011680E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Greyhound", "speed" ] ] ] ] ] }, { "question": "How long does it take for Noah Ngeny to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 2.993333E+15 times that of Glucose Molecule.=F2: The speed of Noah Ngeny is 7.577328E+00 m/s.=F3: The length of Glucose Molecule is 4.572000E-10 m.", "answer": "1.806114E+05 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of Noah Ngeny?=Q3: What is the length of Glucose Molecule?=Q4: What is the ratio of the length of Distance from L.A. to New York and the length of Glucose Molecule?=A1: 7.577328E+00 m/s=A2: 4.572000E-10 m=A3: 2.993333E+15=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Noah Ngeny", "speed" ] ] ] ] ] }, { "question": "If 632 of boulder were to have the same density as steel, how much would it weigh?", "context": "CONTEXT:=F1: The density of steel is 7.075000E+03 kg * m ** -3.=F2: The volume of boulder is 1.141129E+05 times that of Bill Gates.=F3: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "3.510049E+16 kg", "program": "PROGRAM:=Q1: What is the density of steel?=Q2: What is the volume of boulder?=Q3: What is the volume of Bill Gates?=Q4: What is 632 times the volume of boulder?=Q5: What is the ratio of the volume of boulder and that of Bill Gates?=A1: 7.075000E+03 kg * m ** -3=A2: 6.200000E-02 m**3=A3: 1.141129E+05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 632)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "boulder", "volume" ] ], [ ".", [ "steel", "density" ] ] ] ], [ "", [ "632" ] ] ] ] ] }, { "question": "How long does it take for CRH (train) to travel across Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 8.345333E+11 times that of Red Blood Cell.=F2: The speed of CRH (train) is 9.834880E+01 m/s.=F3: The length of Red Blood Cell is 2.286000E-06 m.", "answer": "1.939773E+04 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the speed of CRH (train)?=Q3: What is the length of Red Blood Cell?=Q4: What is the ratio of the length of Great Wall of China (wall only) and the length of Red Blood Cell?=A1: 9.834880E+01 m/s=A2: 2.286000E-06 m=A3: 8.345333E+11=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "CRH (train)", "speed" ] ] ] ] ] }, { "question": "Assume Rock Island's area is half its value. How many Gibraltar fit on Rock Island?", "context": "CONTEXT:=F1: The area of Rock Island is 3.922145E+07 m**2.=F2: The area of Gibraltar is 1.858736E-02 times that of Philadelphia.=F3: The area of Philadelphia is 3.498614E+08 m**2.", "answer": "3.015643E+00", "program": "PROGRAM:=Q1: What is the area of Rock Island?=Q2: What is the area of Gibraltar?=Q3: What is the area of Philadelphia?=Q4: What is half the area of Rock Island?=Q5: What is the ratio of the area of Gibraltar and that of Philadelphia?=A1: 3.922145E+07 m**2=A2: 3.498614E+08 m**2=A3: 1.858736E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Rock Island", "area" ] ], [ ".", [ "Gibraltar", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Dublin International Airport (DUB)'s area is half its value. How many coin fit on Dublin International Airport (DUB)?", "context": "CONTEXT:=F1: The area of Dublin International Airport (DUB) is 1.084143E+07 m**2.=F2: The area of coin is 7.489071E-16 times that of Montana.=F3: The area of Montana is 3.808256E+11 m**2.", "answer": "1.900651E+10", "program": "PROGRAM:=Q1: What is the area of Dublin International Airport (DUB)?=Q2: What is the area of coin?=Q3: What is the area of Montana?=Q4: What is half the area of Dublin International Airport (DUB)?=Q5: What is the ratio of the area of coin and that of Montana?=A1: 1.084143E+07 m**2=A2: 3.808256E+11 m**2=A3: 7.489071E-16=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Dublin International Airport (DUB)", "area" ] ], [ ".", [ "coin", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 78 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.758000E+00 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 78 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(78, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "78" ] ] ] ] ] }, { "question": "How long does it take for Secretariat to travel across Amazon River?", "context": "CONTEXT:=F1: The length of Amazon River is 1.961998E+06 m.=F2: The speed of Secretariat is 1.680870E+01 m/s.", "answer": "1.167251E+05 s", "program": "PROGRAM:=Q1: What is the length of Amazon River?=Q2: What is the speed of Secretariat?=A1: 1.961998E+06 m=A2: 1.680870E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Amazon River", "length" ] ], [ ".", [ "Secretariat", "speed" ] ] ] ] ] }, { "question": "How many Telephone Pole have the same length as Great Pyramid of Giza?", "context": "CONTEXT:=F1: The length of Great Pyramid of Giza is 3.962400E+01 m.=F2: The length of Telephone Pole is 3.352800E+00 m.", "answer": "1.181818E+01", "program": "PROGRAM:=Q1: What is the length of Great Pyramid of Giza?=Q2: What is the length of Telephone Pole?=A1: 3.962400E+01 m=A2: 3.352800E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Great Pyramid of Giza", "length" ] ], [ ".", [ "Telephone Pole", "length" ] ] ] ] ] }, { "question": "How many Polonium-241 can 563 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Dog.=F2: The cost of Polonium-241 is $4.920000E+13.=F3: The cost of Dog is $1.000000E+03.", "answer": "1.492179E+00", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Polonium-241?=Q3: What is the cost of Dog?=Q4: What is 563 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Dog?=A1: $4.920000E+13=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 563)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Polonium-241", "cost" ] ] ] ], [ "", [ "563" ] ] ] ] ] }, { "question": "How long does it take for Flo-Jo to travel across Mount Elbrus?", "context": "CONTEXT:=F1: The length of Mount Elbrus is 2.515381E+00 times that of Beast (Roller Coaster).=F2: The speed of Flo-Jo is 9.369958E+00 m/s.=F3: The length of Beast (Roller Coaster) is 6.836664E+02 m.", "answer": "1.835314E+02 s", "program": "PROGRAM:=Q1: What is the length of Mount Elbrus?=Q2: What is the speed of Flo-Jo?=Q3: What is the length of Beast (Roller Coaster)?=Q4: What is the ratio of the length of Mount Elbrus and the length of Beast (Roller Coaster)?=A1: 9.369958E+00 m/s=A2: 6.836664E+02 m=A3: 2.515381E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Elbrus", "length" ] ], [ ".", [ "Flo-Jo", "speed" ] ] ] ] ] }, { "question": "Assume Auckland International Airport (AKL)'s area is half its value. How many Central Park fit on Auckland International Airport (AKL)?", "context": "CONTEXT:=F1: The area of Auckland International Airport (AKL) is 1.254150E+07 m**2.=F2: The area of Central Park is 4.587500E+07 times that of pizza.=F3: The area of pizza is 7.432000E-02 m**2.", "answer": "1.839237E+00", "program": "PROGRAM:=Q1: What is the area of Auckland International Airport (AKL)?=Q2: What is the area of Central Park?=Q3: What is the area of pizza?=Q4: What is half the area of Auckland International Airport (AKL)?=Q5: What is the ratio of the area of Central Park and that of pizza?=A1: 1.254150E+07 m**2=A2: 7.432000E-02 m**2=A3: 4.587500E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Auckland International Airport (AKL)", "area" ] ], [ ".", [ "Central Park", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Car can 394 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 8.150000E+12 times that of Sheet of paper.=F2: The cost of Car is $4.000000E+04.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "1.284440E+09", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is the cost of Sheet of paper?=Q4: What is 394 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Sheet of paper?=A1: $4.000000E+04=A2: $1.600000E-02=A3: 8.150000E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 394)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "394" ] ] ] ] ] }, { "question": "How long does it take for Porsche 911 to travel across Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The speed of Porsche 911 is 1.020000E+00 times that of TGV (train).=F3: The speed of TGV (train) is 8.940800E+01 m/s.", "answer": "2.957507E+01 s", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the speed of Porsche 911?=Q3: What is the speed of TGV (train)?=Q4: What is the ratio of the speed of Porsche 911 and the speed of TGV (train)?=A1: 2.697133E+03 m=A2: 8.940800E+01 m/s=A3: 1.020000E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Porsche 911", "speed" ] ] ] ] ] }, { "question": "How many pizza fit on Bath Towel?", "context": "CONTEXT:=F1: The area of Bath Towel is 1.666571E-05 times that of Croke Park.=F2: The area of pizza is 7.432000E-02 m**2.=F3: The area of Croke Park is 6.503000E+04 m**2.", "answer": "1.458250E+01", "program": "PROGRAM:=Q1: What is the area of Bath Towel?=Q2: What is the area of pizza?=Q3: What is the area of Croke Park?=Q4: What is the ratio of the area of Bath Towel and that of Croke Park?=A1: 7.432000E-02 m**2=A2: 6.503000E+04 m**2=A3: 1.666571E-05=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Bath Towel", "area" ] ], [ ".", [ "pizza", "area" ] ] ] ] ] }, { "question": "How many Person make up 86 kgs?", "context": "CONTEXT:=F1: The mass of Person is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 86 kg.", "answer": "1.323077E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 86 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "86" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "Assume Car Gas Tank's volume is half its value. How many Elephant fit in Car Gas Tank?", "context": "CONTEXT:=F1: The volume of Car Gas Tank is 2.142310E+03 m**3.=F2: The volume of Elephant is 7.000000E+00 m**3.", "answer": "1.530221E+02", "program": "PROGRAM:=Q1: What is the volume of Car Gas Tank?=Q2: What is the volume of Elephant?=Q3: What is half the volume of Car Gas Tank?=A1: 2.142310E+03 m**3=A2: 7.000000E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Car Gas Tank", "volume" ] ], [ ".", [ "Elephant", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Royal Albert Hall's volume is half its value. How many Car fit in Royal Albert Hall?", "context": "CONTEXT:=F1: The volume of Royal Albert Hall is 2.452195E+09 m**3.=F2: The volume of Car is 8.000000E+00 m**3.", "answer": "1.532622E+08", "program": "PROGRAM:=Q1: What is the volume of Royal Albert Hall?=Q2: What is the volume of Car?=Q3: What is half the volume of Royal Albert Hall?=A1: 2.452195E+09 m**3=A2: 8.000000E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Royal Albert Hall", "volume" ] ], [ ".", [ "Car", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Buckingham Palace's area is half its value. How many Manchester Cathedral fit on Buckingham Palace?", "context": "CONTEXT:=F1: The area of Buckingham Palace is 7.710700E+04 m**2.=F2: The area of Manchester Cathedral is 1.238357E+03 m**2.", "answer": "3.113278E+01", "program": "PROGRAM:=Q1: What is the area of Buckingham Palace?=Q2: What is the area of Manchester Cathedral?=Q3: What is half the area of Manchester Cathedral?=A1: 7.710700E+04 m**2=A2: 1.238357E+03 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Buckingham Palace", "area" ] ], [ ".", [ "Manchester Cathedral", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many New York City fit on Texas?", "context": "CONTEXT:=F1: The area of Texas is 6.955984E+11 m**2.=F2: The area of New York City is 8.455000E+04 times that of City Block (Manhattan).=F3: The area of City Block (Manhattan) is 9.290000E+03 m**2.", "answer": "8.855829E+02", "program": "PROGRAM:=Q1: What is the area of Texas?=Q2: What is the area of New York City?=Q3: What is the area of City Block (Manhattan)?=Q4: What is the ratio of the area of New York City and that of City Block (Manhattan)?=A1: 6.955984E+11 m**2=A2: 9.290000E+03 m**2=A3: 8.455000E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Texas", "area" ] ], [ ".", [ "New York City", "area" ] ] ] ] ] }, { "question": "Assume Grand Canyon's volume is half its value. How many Elephant have the same volume as Grand Canyon?", "context": "CONTEXT:=F1: The volume of Grand Canyon is 1.180110E+17 m**3.=F2: The volume of Elephant is 6.183746E-17 times that of Halley's Comet.=F3: The volume of Halley's Comet is 1.132000E+17 m**3.", "answer": "8.429357E+15", "program": "PROGRAM:=Q1: What is the volume of Grand Canyon?=Q2: What is the volume of Elephant?=Q3: What is the volume of Halley's Comet?=Q4: What is half the volume of Grand Canyon?=Q5: What is the ratio of the volume of Elephant and that of Halley's Comet?=A1: 1.180110E+17 m**3=A2: 1.132000E+17 m**3=A3: 6.183746E-17=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Elephant", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 952 of Sheet of paper were to have the same density as nitrogen, how much would it weigh?", "context": "CONTEXT:=F1: The density of nitrogen is 6.131579E-04 times that of bone.=F2: The volume of Sheet of paper is 1.000000E-04 m**3.=F3: The density of bone is 1.900000E+09 kg * m ** -3.", "answer": "1.109080E+05 kg", "program": "PROGRAM:=Q1: What is the density of nitrogen?=Q2: What is the volume of Sheet of paper?=Q3: What is the density of bone?=Q4: What is 952 times the volume of Sheet of paper?=Q5: What is the ratio of the density of nitrogen and that of bone?=A1: 1.000000E-04 m**3=A2: 1.900000E+09 kg * m ** -3=A3: 6.131579E-04=Q2 -> A1 | F2=Q4 -> Mul(Q2, 952)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Sheet of paper", "volume" ] ], [ ".", [ "nitrogen", "density" ] ] ] ], [ "", [ "952" ] ] ] ] ] }, { "question": "How long to digest 945 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.764500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 945 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(945, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "945" ] ] ] ] ] }, { "question": "How many Eden Park have the same area as Michigan?", "context": "CONTEXT:=F1: The area of Michigan is 6.577431E-01 times that of Montana.=F2: The area of Eden Park is 1.495690E+05 m**2.=F3: The area of Montana is 3.808256E+11 m**2.", "answer": "1.674715E+06", "program": "PROGRAM:=Q1: What is the area of Michigan?=Q2: What is the area of Eden Park?=Q3: What is the area of Montana?=Q4: What is the ratio of the area of Michigan and that of Montana?=A1: 1.495690E+05 m**2=A2: 3.808256E+11 m**2=A3: 6.577431E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Michigan", "area" ] ], [ ".", [ "Eden Park", "area" ] ] ] ] ] }, { "question": "How many school fit on Alaska?", "context": "CONTEXT:=F1: The area of Alaska is 1.717798E+12 m**2.=F2: The area of school is 4.645000E+04 m**2.", "answer": "3.698166E+07", "program": "PROGRAM:=Q1: What is the area of Alaska?=Q2: What is the area of school?=A1: 1.717798E+12 m**2=A2: 4.645000E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Alaska", "area" ] ], [ ".", [ "school", "area" ] ] ] ] ] }, { "question": "How long does it take for Knuckleball (baseball) to travel across Oregon Trail?", "context": "CONTEXT:=F1: The length of Oregon Trail is 4.308642E+06 times that of Verne Troyer.=F2: The speed of Knuckleball (baseball) is 2.995168E+01 m/s.=F3: The length of Verne Troyer is 2.468880E-01 m.", "answer": "3.551560E+04 s", "program": "PROGRAM:=Q1: What is the length of Oregon Trail?=Q2: What is the speed of Knuckleball (baseball)?=Q3: What is the length of Verne Troyer?=Q4: What is the ratio of the length of Oregon Trail and the length of Verne Troyer?=A1: 2.995168E+01 m/s=A2: 2.468880E-01 m=A3: 4.308642E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Oregon Trail", "length" ] ], [ ".", [ "Knuckleball (baseball)", "speed" ] ] ] ] ] }, { "question": "How many Child make up 295 kgs?", "context": "CONTEXT:=F1: The mass of Child is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 295 kg.", "answer": "9.833333E+00", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 295 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "295" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How many US Census Bureau put together contain the same information as 518 of Gap, Inc. Customer Database?", "context": "CONTEXT:=F1: The data of US Census Bureau is 2.300000E+16 bytes.=F2: The data of Gap, Inc. Customer Database is 1.363636E+06 times that of Complete Works of William Shakespeare.=F3: The data of Complete Works of William Shakespeare is 4.400000E+07 bytes.", "answer": "1.351304E+00", "program": "PROGRAM:=Q1: What is the data of US Census Bureau?=Q2: What is the data of Gap, Inc. Customer Database?=Q3: What is the data of Complete Works of William Shakespeare?=Q4: What is 518 times the data of Gap, Inc. Customer Database?=Q5: What is the ratio of the data of Gap, Inc. Customer Database and that of Complete Works of William Shakespeare?=A1: 2.300000E+16 bytes=A2: 4.400000E+07 bytes=A3: 1.363636E+06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 518)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Gap, Inc. Customer Database", "data" ] ], [ ".", [ "US Census Bureau", "data" ] ] ] ], [ "", [ "518" ] ] ] ] ] }, { "question": "How many Mahabodhi Temple have the same length as English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The length of Mahabodhi Temple is 6.250000E-04 times that of Panama Canal.=F3: The length of Panama Canal is 2.682240E+04 m.", "answer": "1.945455E+03", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the length of Mahabodhi Temple?=Q3: What is the length of Panama Canal?=Q4: What is the ratio of the length of Mahabodhi Temple and that of Panama Canal?=A1: 3.261360E+04 m=A2: 2.682240E+04 m=A3: 6.250000E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Mahabodhi Temple", "length" ] ] ] ] ] }, { "question": "How many Sheet of paper can 244 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is $1.600000E-02.", "answer": "1.988600E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is 244 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.600000E-02=Q1 -> A1 | F1=Q3 -> Mul(Q1, 244)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "244" ] ] ] ] ] }, { "question": "Assume Golden Gate Bridge's length is half its value. How many Twin Size bed have the same length as Golden Gate Bridge?", "context": "CONTEXT:=F1: The length of Golden Gate Bridge is 6.918960E+01 m.=F2: The length of Twin Size bed is 5.806440E-01 m.", "answer": "5.958005E+01", "program": "PROGRAM:=Q1: What is the length of Golden Gate Bridge?=Q2: What is the length of Twin Size bed?=Q3: What is half the length of Golden Gate Bridge?=A1: 6.918960E+01 m=A2: 5.806440E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Golden Gate Bridge", "length" ] ], [ ".", [ "Twin Size bed", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Child make up 864 kgs?", "context": "CONTEXT:=F1: The mass of Child is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 864 kg.", "answer": "2.880000E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 864 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "864" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "Assume Minnesota's area is half its value. How many United States Capitol fit on Minnesota?", "context": "CONTEXT:=F1: The area of Minnesota is 2.251632E+11 m**2.=F2: The area of United States Capitol is 2.322500E+05 m**2.", "answer": "4.847432E+05", "program": "PROGRAM:=Q1: What is the area of Minnesota?=Q2: What is the area of United States Capitol?=Q3: What is half the area of United States Capitol?=A1: 2.251632E+11 m**2=A2: 2.322500E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Minnesota", "area" ] ], [ ".", [ "United States Capitol", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume New York City's area is half its value. How many Mackinac Island fit on New York City?", "context": "CONTEXT:=F1: The area of New York City is 7.854695E+08 m**2.=F2: The area of Mackinac Island is 2.494057E-03 times that of Fort Bliss.=F3: The area of Fort Bliss is 4.533520E+09 m**2.", "answer": "3.473420E+01", "program": "PROGRAM:=Q1: What is the area of New York City?=Q2: What is the area of Mackinac Island?=Q3: What is the area of Fort Bliss?=Q4: What is half the area of New York City?=Q5: What is the ratio of the area of Mackinac Island and that of Fort Bliss?=A1: 7.854695E+08 m**2=A2: 4.533520E+09 m**2=A3: 2.494057E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "New York City", "area" ] ], [ ".", [ "Mackinac Island", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 427 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 2.000000E-09 times that of Olympic Pool.=F2: The mass of Olympic Pool is 2.500000E+06 kg.=F3: The total mass that needs to be reached is 427 kg.", "answer": "8.540000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Olympic Pool?=Q3: What is the total mass that needs to be reached?=A1: 2.500000E+06 kg=A2: 427 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 2.000000E-09)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "427" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How long to digest 374 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.281400E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 374 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(374, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "374" ] ] ] ] ] }, { "question": "How many Mitochondrion have the same length as Olympic Pool?", "context": "CONTEXT:=F1: The length of Olympic Pool is 5.000000E+01 m.=F2: The length of Mitochondrion is 5.730240E-07 m.", "answer": "8.725638E+07", "program": "PROGRAM:=Q1: What is the length of Olympic Pool?=Q2: What is the length of Mitochondrion?=A1: 5.000000E+01 m=A2: 5.730240E-07 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Olympic Pool", "length" ] ], [ ".", [ "Mitochondrion", "length" ] ] ] ] ] }, { "question": "How many Bathtub can 632 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bathtub is 1.000000E+00 times that of Dog.=F3: The cost of Dog is $1.000000E+03.", "answer": "8.241280E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bathtub?=Q3: What is the cost of Dog?=Q4: What is 632 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bathtub and the cost of Dog?=A1: $1.304000E+11=A2: $1.000000E+03=A3: 1.000000E+00=Q1 -> A1 | F1=Q4 -> Mul(Q1, 632)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bathtub", "cost" ] ] ] ], [ "", [ "632" ] ] ] ] ] }, { "question": "How many Bill Gates can 640 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is 1.304000E+11 times that of Mars Bars.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "6.400000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Mars Bars?=Q4: What is 640 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Mars Bars?=A1: $1.304000E+11=A2: $1.000000E+00=A3: 1.304000E+11=Q1 -> A1 | F1=Q4 -> Mul(Q1, 640)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "640" ] ] ] ] ] }, { "question": "How many Hockey rink have the same area as Mackinac Island?", "context": "CONTEXT:=F1: The area of Mackinac Island is 3.316349E+00 times that of Central Park.=F2: The area of Hockey rink is 1.516779E+03 m**2.=F3: The area of Central Park is 3.409430E+06 m**2.", "answer": "7.454519E+03", "program": "PROGRAM:=Q1: What is the area of Mackinac Island?=Q2: What is the area of Hockey rink?=Q3: What is the area of Central Park?=Q4: What is the ratio of the area of Mackinac Island and that of Central Park?=A1: 1.516779E+03 m**2=A2: 3.409430E+06 m**2=A3: 3.316349E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Mackinac Island", "area" ] ], [ ".", [ "Hockey rink", "area" ] ] ] ] ] }, { "question": "How long does it take for Fastball (baseball) to travel across Hollywood Walk of Fame?", "context": "CONTEXT:=F1: The length of Hollywood Walk of Fame is 1.188720E+03 m.=F2: The speed of Fastball (baseball) is 1.071013E-01 times that of Bullet (Handgun).=F3: The speed of Bullet (Handgun) is 3.840074E+02 m/s.", "answer": "2.890316E+01 s", "program": "PROGRAM:=Q1: What is the length of Hollywood Walk of Fame?=Q2: What is the speed of Fastball (baseball)?=Q3: What is the speed of Bullet (Handgun)?=Q4: What is the ratio of the speed of Fastball (baseball) and the speed of Bullet (Handgun)?=A1: 1.188720E+03 m=A2: 3.840074E+02 m/s=A3: 1.071013E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hollywood Walk of Fame", "length" ] ], [ ".", [ "Fastball (baseball)", "speed" ] ] ] ] ] }, { "question": "How many Pandora put together contain the same information as 833 of World of Warcraft?", "context": "CONTEXT:=F1: The data of Pandora is 2.200000E+15 bytes.=F2: The data of World of Warcraft is 1.100000E+16 bytes.", "answer": "4.165000E+03", "program": "PROGRAM:=Q1: What is the data of Pandora?=Q2: What is the data of World of Warcraft?=Q3: What is 833 times the data of World of Warcraft?=A1: 2.200000E+15 bytes=A2: 1.100000E+16 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 833)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "World of Warcraft", "data" ] ], [ ".", [ "Pandora", "data" ] ] ] ], [ "", [ "833" ] ] ] ] ] }, { "question": "How many Bathtub can 661 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bathtub is $1.000000E+03.", "answer": "8.619440E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bathtub?=Q3: What is 661 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+03=Q1 -> A1 | F1=Q3 -> Mul(Q1, 661)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bathtub", "cost" ] ] ] ], [ "", [ "661" ] ] ] ] ] }, { "question": "If 753 of Child were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 3.000000E-02 kg * m ** -3.=F2: The volume of Child is 3.000000E-02 m**3.", "answer": "2.073762E+10 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Child?=Q3: What is 753 times the volume of Child?=A1: 3.000000E-02 kg * m ** -3=A2: 3.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 753)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Child", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "753" ] ] ] ] ] }, { "question": "How many Wingspan of a 747 have the same length as Football field?", "context": "CONTEXT:=F1: The length of Football field is 3.344509E+01 m.=F2: The length of Wingspan of a 747 is 2.763211E-02 times that of Steel Dragon 2000.=F3: The length of Steel Dragon 2000 is 7.555992E+02 m.", "answer": "1.601869E+00", "program": "PROGRAM:=Q1: What is the length of Football field?=Q2: What is the length of Wingspan of a 747?=Q3: What is the length of Steel Dragon 2000?=Q4: What is the ratio of the length of Wingspan of a 747 and that of Steel Dragon 2000?=A1: 3.344509E+01 m=A2: 7.555992E+02 m=A3: 2.763211E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Football field", "length" ] ], [ ".", [ "Wingspan of a 747", "length" ] ] ] ] ] }, { "question": "How many Polonium-241 can 980 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Polonium-241 is 9.840000E+11 times that of Hairs.=F3: The cost of Hairs is $5.000000E+01.", "answer": "2.597398E+00", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Polonium-241?=Q3: What is the cost of Hairs?=Q4: What is 980 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Polonium-241 and the cost of Hairs?=A1: $1.304000E+11=A2: $5.000000E+01=A3: 9.840000E+11=Q1 -> A1 | F1=Q4 -> Mul(Q1, 980)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Polonium-241", "cost" ] ] ] ], [ "", [ "980" ] ] ] ] ] }, { "question": "How many Dog can 863 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 8.150000E+12 times that of Sheet of paper.=F2: The cost of Dog is $1.000000E+03.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "1.125352E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Dog?=Q3: What is the cost of Sheet of paper?=Q4: What is 863 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Sheet of paper?=A1: $1.000000E+03=A2: $1.600000E-02=A3: 8.150000E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 863)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Dog", "cost" ] ] ] ], [ "", [ "863" ] ] ] ] ] }, { "question": "How long to digest 855 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "5.215500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 855 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(855, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "855" ] ] ] ] ] }, { "question": "How many Olympic Swimming Pool fit in Grand Canyon?", "context": "CONTEXT:=F1: The volume of Grand Canyon is 1.180110E+17 m**3.=F2: The volume of Olympic Swimming Pool is 8.333333E+05 times that of head.=F3: The volume of head is 8.490000E+01 m**3.", "answer": "1.668000E+09", "program": "PROGRAM:=Q1: What is the volume of Grand Canyon?=Q2: What is the volume of Olympic Swimming Pool?=Q3: What is the volume of head?=Q4: What is the ratio of the volume of Olympic Swimming Pool and that of head?=A1: 1.180110E+17 m**3=A2: 8.490000E+01 m**3=A3: 8.333333E+05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Olympic Swimming Pool", "volume" ] ] ] ] ] }, { "question": "How many Person make up 125 kgs?", "context": "CONTEXT:=F1: The mass of Person is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 125 kg.", "answer": "1.923077E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 125 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "125" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many LHC Data Generated per Second put together contain the same information as 702 of LHC Data Generated per Second?", "context": "CONTEXT:=F1: The data of LHC Data Generated per Second is 8.000000E+14 bytes.=F2: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "7.020000E+02", "program": "PROGRAM:=Q1: What is the data of LHC Data Generated per Second?=Q2: What is the data of LHC Data Generated per Second?=Q3: What is 702 times the data of LHC Data Generated per Second?=A1: 8.000000E+14 bytes=A2: 8.000000E+14 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 702)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "LHC Data Generated per Second", "data" ] ], [ ".", [ "LHC Data Generated per Second", "data" ] ] ] ], [ "", [ "702" ] ] ] ] ] }, { "question": "How many Imgur's Monthly Bandwidth put together contain the same information as 120 of Compact Disc?", "context": "CONTEXT:=F1: The data of Imgur's Monthly Bandwidth is 2.375000E+13 times that of Magnetic Stripe Card.=F2: The data of Compact Disc is 6.185000E+09 bytes.=F3: The data of Magnetic Stripe Card is 8.000000E+02 bytes.", "answer": "3.906316E-05", "program": "PROGRAM:=Q1: What is the data of Imgur's Monthly Bandwidth?=Q2: What is the data of Compact Disc?=Q3: What is the data of Magnetic Stripe Card?=Q4: What is 120 times the data of Compact Disc?=Q5: What is the ratio of the data of Imgur's Monthly Bandwidth and that of Magnetic Stripe Card?=A1: 6.185000E+09 bytes=A2: 8.000000E+02 bytes=A3: 2.375000E+13=Q2 -> A1 | F2=Q4 -> Mul(Q2, 120)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Compact Disc", "data" ] ], [ ".", [ "Imgur's Monthly Bandwidth", "data" ] ] ] ], [ "", [ "120" ] ] ] ] ] }, { "question": "How many King Size Bed fit on Grand Central Station?", "context": "CONTEXT:=F1: The area of Grand Central Station is 3.060912E-01 times that of Eden Gardens Cricket Grounds.=F2: The area of King Size Bed is 4.031860E+00 m**2.=F3: The area of Eden Gardens Cricket Grounds is 6.070086E+05 m**2.", "answer": "4.608295E+04", "program": "PROGRAM:=Q1: What is the area of Grand Central Station?=Q2: What is the area of King Size Bed?=Q3: What is the area of Eden Gardens Cricket Grounds?=Q4: What is the ratio of the area of Grand Central Station and that of Eden Gardens Cricket Grounds?=A1: 4.031860E+00 m**2=A2: 6.070086E+05 m**2=A3: 3.060912E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Grand Central Station", "area" ] ], [ ".", [ "King Size Bed", "area" ] ] ] ] ] }, { "question": "If 130 of Elephant were to have the same density as bone, how much would it weigh?", "context": "CONTEXT:=F1: The density of bone is 7.000000E+00 kg * m ** -3.=F2: The volume of Elephant is 1.129032E+02 times that of Bill Gates.=F3: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "1.729000E+12 kg", "program": "PROGRAM:=Q1: What is the density of bone?=Q2: What is the volume of Elephant?=Q3: What is the volume of Bill Gates?=Q4: What is 130 times the volume of Elephant?=Q5: What is the ratio of the volume of Elephant and that of Bill Gates?=A1: 7.000000E+00 kg * m ** -3=A2: 6.200000E-02 m**3=A3: 1.129032E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 130)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Elephant", "volume" ] ], [ ".", [ "bone", "density" ] ] ] ], [ "", [ "130" ] ] ] ] ] }, { "question": "Assume Car's volume is half its value. How many Marshmallow make Car?", "context": "CONTEXT:=F1: The volume of Car is 8.000000E+00 m**3.=F2: The volume of Marshmallow is 1.500000E-02 times that of Human Stomach.=F3: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "4.711425E+00", "program": "PROGRAM:=Q1: What is the volume of Car?=Q2: What is the volume of Marshmallow?=Q3: What is the volume of Human Stomach?=Q4: What is half the volume of Car?=Q5: What is the ratio of the volume of Marshmallow and that of Human Stomach?=A1: 8.000000E+00 m**3=A2: 5.660000E+01 m**3=A3: 1.500000E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Car", "volume" ] ], [ ".", [ "Marshmallow", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many All Spoken Words in Human History (recorded) put together contain the same information as 284 of Google Earth database?", "context": "CONTEXT:=F1: The data of All Spoken Words in Human History (recorded) is 5.200000E+07 times that of Google database.=F2: The data of Google Earth database is 6.200000E+14 bytes.=F3: The data of Google database is 7.500000E+15 bytes.", "answer": "4.514872E-07", "program": "PROGRAM:=Q1: What is the data of All Spoken Words in Human History (recorded)?=Q2: What is the data of Google Earth database?=Q3: What is the data of Google database?=Q4: What is 284 times the data of Google Earth database?=Q5: What is the ratio of the data of All Spoken Words in Human History (recorded) and that of Google database?=A1: 6.200000E+14 bytes=A2: 7.500000E+15 bytes=A3: 5.200000E+07=Q2 -> A1 | F2=Q4 -> Mul(Q2, 284)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google Earth database", "data" ] ], [ ".", [ "All Spoken Words in Human History (recorded)", "data" ] ] ] ], [ "", [ "284" ] ] ] ] ] }, { "question": "How many Ostrich Egg have the same volume as Bowling Ball?", "context": "CONTEXT:=F1: The volume of Bowling Ball is 2.130320E+01 times that of Elephant.=F2: The volume of Ostrich Egg is 4.618560E+01 m**3.=F3: The volume of Elephant is 7.000000E+00 m**3.", "answer": "3.228765E+00", "program": "PROGRAM:=Q1: What is the volume of Bowling Ball?=Q2: What is the volume of Ostrich Egg?=Q3: What is the volume of Elephant?=Q4: What is the ratio of the volume of Bowling Ball and that of Elephant?=A1: 4.618560E+01 m**3=A2: 7.000000E+00 m**3=A3: 2.130320E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Bowling Ball", "volume" ] ], [ ".", [ "Ostrich Egg", "volume" ] ] ] ] ] }, { "question": "How many Dog make up 980 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 980 kg.", "answer": "3.266667E+01", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 980 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "980" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "Assume Canada's area is half its value. How many Inis M\u00f3r have the same area as Canada?", "context": "CONTEXT:=F1: The area of Canada is 9.984335E+12 m**2.=F2: The area of Inis M\u00f3r is 2.711363E+00 times that of Mackinac Island.=F3: The area of Mackinac Island is 1.130686E+07 m**2.", "answer": "1.628394E+05", "program": "PROGRAM:=Q1: What is the area of Canada?=Q2: What is the area of Inis M\u00f3r?=Q3: What is the area of Mackinac Island?=Q4: What is half the area of Canada?=Q5: What is the ratio of the area of Inis M\u00f3r and that of Mackinac Island?=A1: 9.984335E+12 m**2=A2: 1.130686E+07 m**2=A3: 2.711363E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Canada", "area" ] ], [ ".", [ "Inis M\u00f3r", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Great Wall of China (total)'s length is half its value. How many Mars Bars have the same length as Great Wall of China (total)?", "context": "CONTEXT:=F1: The length of Great Wall of China (total) is 1.958398E+04 times that of Petronas Twin Towers.=F2: The length of Mars Bars is 1.100000E-01 m.=F3: The length of Petronas Twin Towers is 1.377391E+02 m.", "answer": "1.226127E+07", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (total)?=Q2: What is the length of Mars Bars?=Q3: What is the length of Petronas Twin Towers?=Q4: What is half the length of Great Wall of China (total)?=Q5: What is the ratio of the length of Great Wall of China (total) and that of Petronas Twin Towers?=A1: 1.100000E-01 m=A2: 1.377391E+02 m=A3: 1.958398E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Great Wall of China (total)", "length" ] ], [ ".", [ "Mars Bars", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hot Air Balloon have the same volume as Houston Astrodome?", "context": "CONTEXT:=F1: The volume of Houston Astrodome is 5.660000E+11 times that of Person.=F2: The volume of Hot Air Balloon is 6.226000E+07 m**3.=F3: The volume of Person is 6.000000E-02 m**3.", "answer": "5.454545E+02", "program": "PROGRAM:=Q1: What is the volume of Houston Astrodome?=Q2: What is the volume of Hot Air Balloon?=Q3: What is the volume of Person?=Q4: What is the ratio of the volume of Houston Astrodome and that of Person?=A1: 6.226000E+07 m**3=A2: 6.000000E-02 m**3=A3: 5.660000E+11=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "Hot Air Balloon", "volume" ] ] ] ] ] }, { "question": "How many English Channel have the same length as Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 3.657600E+04 m.=F2: The length of English Channel is 9.727273E+04 times that of Kenny Baker.=F3: The length of Kenny Baker is 3.352800E-01 m.", "answer": "1.121495E+00", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the length of English Channel?=Q3: What is the length of Kenny Baker?=Q4: What is the ratio of the length of English Channel and that of Kenny Baker?=A1: 3.657600E+04 m=A2: 3.352800E-01 m=A3: 9.727273E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "English Channel", "length" ] ] ] ] ] }, { "question": "How many Bill Gates can 520 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is 8.150000E+12 times that of Sheet of paper.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "5.200000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is the cost of Sheet of paper?=Q4: What is 520 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Sheet of paper?=A1: $1.304000E+11=A2: $1.600000E-02=A3: 8.150000E+12=Q1 -> A1 | F1=Q4 -> Mul(Q1, 520)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "520" ] ] ] ] ] }, { "question": "How long does it take for Sloth to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 1.368552E+06 m.=F2: The speed of Sloth is 6.705600E-02 m/s.", "answer": "2.040909E+07 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of Sloth?=A1: 1.368552E+06 m=A2: 6.705600E-02 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Sloth", "speed" ] ] ] ] ] }, { "question": "Assume Gulf of Mexico's volume is half its value. How many Hot Tub fit in Gulf of Mexico?", "context": "CONTEXT:=F1: The volume of Gulf of Mexico is 3.828890E+19 times that of Golf Ball (packed).=F2: The volume of Hot Tub is 2.034770E+04 m**3.=F3: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "1.692629E+15", "program": "PROGRAM:=Q1: What is the volume of Gulf of Mexico?=Q2: What is the volume of Hot Tub?=Q3: What is the volume of Golf Ball (packed)?=Q4: What is half the volume of Gulf of Mexico?=Q5: What is the ratio of the volume of Gulf of Mexico and that of Golf Ball (packed)?=A1: 2.034770E+04 m**3=A2: 1.799012E+00 m**3=A3: 3.828890E+19=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Gulf of Mexico", "volume" ] ], [ ".", [ "Hot Tub", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Michael Johnson to travel across Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 4.000000E+01 times that of National Mall.=F2: The speed of Michael Johnson is 1.034898E+01 m/s.=F3: The length of National Mall is 9.144000E+02 m.", "answer": "3.534263E+03 s", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the speed of Michael Johnson?=Q3: What is the length of National Mall?=Q4: What is the ratio of the length of Hadrian's Wall and the length of National Mall?=A1: 1.034898E+01 m/s=A2: 9.144000E+02 m=A3: 4.000000E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "Michael Johnson", "speed" ] ] ] ] ] }, { "question": "How many Kentucky Derby have the same length as Indianapolis Motor Speedway?", "context": "CONTEXT:=F1: The length of Indianapolis Motor Speedway is 9.863594E+02 times that of Beetle (Volkswagen).=F2: The length of Kentucky Derby is 6.131601E+02 m.=F3: The length of Beetle (Volkswagen) is 1.243279E+00 m.", "answer": "2.000000E+00", "program": "PROGRAM:=Q1: What is the length of Indianapolis Motor Speedway?=Q2: What is the length of Kentucky Derby?=Q3: What is the length of Beetle (Volkswagen)?=Q4: What is the ratio of the length of Indianapolis Motor Speedway and that of Beetle (Volkswagen)?=A1: 6.131601E+02 m=A2: 1.243279E+00 m=A3: 9.863594E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis Motor Speedway", "length" ] ], [ ".", [ "Kentucky Derby", "length" ] ] ] ] ] }, { "question": "How many Earth make Earth's Oceans?", "context": "CONTEXT:=F1: The volume of Earth's Oceans is 3.962000E+22 m**3.=F2: The volume of Earth is 7.773852E+17 times that of suitcase.=F3: The volume of suitcase is 1.415000E+03 m**3.", "answer": "3.601818E+01", "program": "PROGRAM:=Q1: What is the volume of Earth's Oceans?=Q2: What is the volume of Earth?=Q3: What is the volume of suitcase?=Q4: What is the ratio of the volume of Earth and that of suitcase?=A1: 3.962000E+22 m**3=A2: 1.415000E+03 m**3=A3: 7.773852E+17=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Earth's Oceans", "volume" ] ], [ ".", [ "Earth", "volume" ] ] ] ] ] }, { "question": "How many Hairs can 507 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+11 times that of Mars Bars.=F2: The cost of Hairs is $5.000000E+01.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "1.322256E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Mars Bars?=Q4: What is 507 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Mars Bars?=A1: $5.000000E+01=A2: $1.000000E+00=A3: 1.304000E+11=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 507)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "507" ] ] ] ] ] }, { "question": "Assume Disney World's area is half its value. How many Windsor Castle fit on Disney World?", "context": "CONTEXT:=F1: The area of Disney World is 1.000000E+09 times that of Airplane Tray Table.=F2: The area of Windsor Castle is 5.295300E+04 m**2.=F3: The area of Airplane Tray Table is 1.012610E-01 m**2.", "answer": "9.561404E+02", "program": "PROGRAM:=Q1: What is the area of Disney World?=Q2: What is the area of Windsor Castle?=Q3: What is the area of Airplane Tray Table?=Q4: What is half the area of Disney World?=Q5: What is the ratio of the area of Disney World and that of Airplane Tray Table?=A1: 5.295300E+04 m**2=A2: 1.012610E-01 m**2=A3: 1.000000E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Disney World", "area" ] ], [ ".", [ "Windsor Castle", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Dog have the same area as Rock Island?", "context": "CONTEXT:=F1: The area of Rock Island is 3.922145E+07 m**2.=F2: The area of Dog is 8.085831E-11 times that of Sydney.=F3: The area of Sydney is 1.236731E+10 m**2.", "answer": "3.922145E+07", "program": "PROGRAM:=Q1: What is the area of Rock Island?=Q2: What is the area of Dog?=Q3: What is the area of Sydney?=Q4: What is the ratio of the area of Dog and that of Sydney?=A1: 3.922145E+07 m**2=A2: 1.236731E+10 m**2=A3: 8.085831E-11=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Rock Island", "area" ] ], [ ".", [ "Dog", "area" ] ] ] ] ] }, { "question": "How long does it take for Tornado to travel across Maxwell Montes?", "context": "CONTEXT:=F1: The length of Maxwell Montes is 3.352800E+03 m.=F2: The speed of Tornado is 5.520944E+01 m/s.", "answer": "6.072874E+01 s", "program": "PROGRAM:=Q1: What is the length of Maxwell Montes?=Q2: What is the speed of Tornado?=A1: 3.352800E+03 m=A2: 5.520944E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Maxwell Montes", "length" ] ], [ ".", [ "Tornado", "speed" ] ] ] ] ] }, { "question": "How many Twin Size bed have the same length as Bill Gates?", "context": "CONTEXT:=F1: The length of Bill Gates is 1.778000E+00 m.=F2: The length of Twin Size bed is 4.734848E-04 times that of Indianapolis Motor Speedway.=F3: The length of Indianapolis Motor Speedway is 1.226320E+03 m.", "answer": "3.062117E+00", "program": "PROGRAM:=Q1: What is the length of Bill Gates?=Q2: What is the length of Twin Size bed?=Q3: What is the length of Indianapolis Motor Speedway?=Q4: What is the ratio of the length of Twin Size bed and that of Indianapolis Motor Speedway?=A1: 1.778000E+00 m=A2: 1.226320E+03 m=A3: 4.734848E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Bill Gates", "length" ] ], [ ".", [ "Twin Size bed", "length" ] ] ] ] ] }, { "question": "How long to digest 791 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.825100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 791 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(791, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "791" ] ] ] ] ] }, { "question": "If 505 of Tennis Ball were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 4.457250E+00 kg * m ** -3.=F2: The volume of Tennis Ball is 3.150000E-03 times that of suitcase.=F3: The volume of suitcase is 1.415000E+03 m**3.", "answer": "2.063635E+12 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Tennis Ball?=Q3: What is the volume of suitcase?=Q4: What is 505 times the volume of Tennis Ball?=Q5: What is the ratio of the volume of Tennis Ball and that of suitcase?=A1: 4.457250E+00 kg * m ** -3=A2: 1.415000E+03 m**3=A3: 3.150000E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 505)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Tennis Ball", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "505" ] ] ] ] ] }, { "question": "Assume Rock Island's area is half its value. How many Football field fit on Rock Island?", "context": "CONTEXT:=F1: The area of Rock Island is 3.922145E+07 m**2.=F2: The area of Football field is 5.351040E+03 m**2.", "answer": "3.664844E+03", "program": "PROGRAM:=Q1: What is the area of Rock Island?=Q2: What is the area of Football field?=Q3: What is half the area of Football field?=A1: 3.922145E+07 m**2=A2: 5.351040E+03 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Rock Island", "area" ] ], [ ".", [ "Football field", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Hairs make up 734 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 1.000000E-03 times that of Dog.=F2: The mass of Dog is 3.000000E+01 kg.=F3: The total mass that needs to be reached is 734 kg.", "answer": "2.446667E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the mass of Dog?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 734 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E-03)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "734" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How many San Jose fit on Sydney?", "context": "CONTEXT:=F1: The area of Sydney is 5.965451E-01 times that of Wales.=F2: The area of San Jose is 4.533520E+08 m**2.=F3: The area of Wales is 2.073156E+10 m**2.", "answer": "2.727971E+01", "program": "PROGRAM:=Q1: What is the area of Sydney?=Q2: What is the area of San Jose?=Q3: What is the area of Wales?=Q4: What is the ratio of the area of Sydney and that of Wales?=A1: 4.533520E+08 m**2=A2: 2.073156E+10 m**2=A3: 5.965451E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Sydney", "area" ] ], [ ".", [ "San Jose", "area" ] ] ] ] ] }, { "question": "How many Football field have the same area as Wales?", "context": "CONTEXT:=F1: The area of Wales is 2.073156E+10 m**2.=F2: The area of Football field is 7.680000E+09 times that of Ballpoint Pen Tip.=F3: The area of Ballpoint Pen Tip is 6.967500E-07 m**2.", "answer": "3.874306E+06", "program": "PROGRAM:=Q1: What is the area of Wales?=Q2: What is the area of Football field?=Q3: What is the area of Ballpoint Pen Tip?=Q4: What is the ratio of the area of Football field and that of Ballpoint Pen Tip?=A1: 2.073156E+10 m**2=A2: 6.967500E-07 m**2=A3: 7.680000E+09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Wales", "area" ] ], [ ".", [ "Football field", "area" ] ] ] ] ] }, { "question": "How many Hairs can 411 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is $5.000000E+01.", "answer": "1.071888E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is 411 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $5.000000E+01=Q1 -> A1 | F1=Q3 -> Mul(Q1, 411)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "411" ] ] ] ] ] }, { "question": "How many Car have the same length as Mount Logan?", "context": "CONTEXT:=F1: The length of Mount Logan is 1.816303E+03 m.=F2: The length of Car is 1.020408E-01 times that of Arc de Triomphe.=F3: The length of Arc de Triomphe is 1.493520E+01 m.", "answer": "1.191800E+03", "program": "PROGRAM:=Q1: What is the length of Mount Logan?=Q2: What is the length of Car?=Q3: What is the length of Arc de Triomphe?=Q4: What is the ratio of the length of Car and that of Arc de Triomphe?=A1: 1.816303E+03 m=A2: 1.493520E+01 m=A3: 1.020408E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Mount Logan", "length" ] ], [ ".", [ "Car", "length" ] ] ] ] ] }, { "question": "How many Sheet of paper can 294 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is 3.200000E-04 times that of Hairs.=F3: The cost of Hairs is $5.000000E+01.", "answer": "2.396100E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is the cost of Hairs?=Q4: What is 294 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Sheet of paper and the cost of Hairs?=A1: $1.304000E+11=A2: $5.000000E+01=A3: 3.200000E-04=Q1 -> A1 | F1=Q4 -> Mul(Q1, 294)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "294" ] ] ] ] ] }, { "question": "How many Avatar put together contain the same information as 716 of DVD?", "context": "CONTEXT:=F1: The data of Avatar is 1.333333E-02 times that of Books in the Library of Congress.=F2: The data of DVD is 4.000000E+10 bytes.=F3: The data of Books in the Library of Congress is 6.000000E+17 bytes.", "answer": "3.580000E-03", "program": "PROGRAM:=Q1: What is the data of Avatar?=Q2: What is the data of DVD?=Q3: What is the data of Books in the Library of Congress?=Q4: What is 716 times the data of DVD?=Q5: What is the ratio of the data of Avatar and that of Books in the Library of Congress?=A1: 4.000000E+10 bytes=A2: 6.000000E+17 bytes=A3: 1.333333E-02=Q2 -> A1 | F2=Q4 -> Mul(Q2, 716)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "DVD", "data" ] ], [ ".", [ "Avatar", "data" ] ] ] ], [ "", [ "716" ] ] ] ] ] }, { "question": "How many Dog can 424 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Dog is 2.500000E-02 times that of Car.=F3: The cost of Car is $4.000000E+04.", "answer": "5.528960E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Dog?=Q3: What is the cost of Car?=Q4: What is 424 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Dog and the cost of Car?=A1: $1.304000E+11=A2: $4.000000E+04=A3: 2.500000E-02=Q1 -> A1 | F1=Q4 -> Mul(Q1, 424)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Dog", "cost" ] ] ] ], [ "", [ "424" ] ] ] ] ] }, { "question": "How many Person make up 181 kgs?", "context": "CONTEXT:=F1: The mass of Person is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 181 kg.", "answer": "2.784615E+00", "program": "PROGRAM:=Q1: What is the mass of Person?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 181 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "181" ] ], [ ".", [ "Person", "mass" ] ] ] ] ] }, { "question": "How many Hubble Telescope put together contain the same information as 759 of Despicable Me?", "context": "CONTEXT:=F1: The data of Hubble Telescope is 1.466667E-01 times that of Google database.=F2: The data of Despicable Me is 1.250000E+15 bytes.=F3: The data of Google database is 7.500000E+15 bytes.", "answer": "8.625000E+02", "program": "PROGRAM:=Q1: What is the data of Hubble Telescope?=Q2: What is the data of Despicable Me?=Q3: What is the data of Google database?=Q4: What is 759 times the data of Despicable Me?=Q5: What is the ratio of the data of Hubble Telescope and that of Google database?=A1: 1.250000E+15 bytes=A2: 7.500000E+15 bytes=A3: 1.466667E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 759)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Despicable Me", "data" ] ], [ ".", [ "Hubble Telescope", "data" ] ] ] ], [ "", [ "759" ] ] ] ] ] }, { "question": "Assume Andr\u00e9 the Giant's length is half its value. How many Man's Footstep have the same length as Andr\u00e9 the Giant?", "context": "CONTEXT:=F1: The length of Andr\u00e9 the Giant is 4.074074E-03 times that of Ostankino Tower.=F2: The length of Man's Footstep is 2.407920E-01 m.=F3: The length of Ostankino Tower is 1.645920E+02 m.", "answer": "1.392405E+00", "program": "PROGRAM:=Q1: What is the length of Andr\u00e9 the Giant?=Q2: What is the length of Man's Footstep?=Q3: What is the length of Ostankino Tower?=Q4: What is half the length of Andr\u00e9 the Giant?=Q5: What is the ratio of the length of Andr\u00e9 the Giant and that of Ostankino Tower?=A1: 2.407920E-01 m=A2: 1.645920E+02 m=A3: 4.074074E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Andr\u00e9 the Giant", "length" ] ], [ ".", [ "Man's Footstep", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Walmart's Mainframe put together contain the same information as 138 of Watson?", "context": "CONTEXT:=F1: The data of Walmart's Mainframe is 5.000000E-01 times that of Avatar.=F2: The data of Watson is 3.500000E+13 bytes.=F3: The data of Avatar is 8.000000E+15 bytes.", "answer": "1.207500E+00", "program": "PROGRAM:=Q1: What is the data of Walmart's Mainframe?=Q2: What is the data of Watson?=Q3: What is the data of Avatar?=Q4: What is 138 times the data of Watson?=Q5: What is the ratio of the data of Walmart's Mainframe and that of Avatar?=A1: 3.500000E+13 bytes=A2: 8.000000E+15 bytes=A3: 5.000000E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 138)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Watson", "data" ] ], [ ".", [ "Walmart's Mainframe", "data" ] ] ] ], [ "", [ "138" ] ] ] ] ] }, { "question": "How many Hairs make up 801 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 3.000000E-02 kg.=F2: The total mass that needs to be reached is 801 kg.", "answer": "2.670000E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E-02 kg=A2: 801 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "801" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How many Facebook's Photo Storage put together contain the same information as 362 of Blu-ray Disc?", "context": "CONTEXT:=F1: The data of Facebook's Photo Storage is 1.000000E+01 times that of LHC Data Generated per Second.=F2: The data of Blu-ray Disc is 4.300000E+11 bytes.=F3: The data of LHC Data Generated per Second is 8.000000E+14 bytes.", "answer": "1.945750E-02", "program": "PROGRAM:=Q1: What is the data of Facebook's Photo Storage?=Q2: What is the data of Blu-ray Disc?=Q3: What is the data of LHC Data Generated per Second?=Q4: What is 362 times the data of Blu-ray Disc?=Q5: What is the ratio of the data of Facebook's Photo Storage and that of LHC Data Generated per Second?=A1: 4.300000E+11 bytes=A2: 8.000000E+14 bytes=A3: 1.000000E+01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 362)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Blu-ray Disc", "data" ] ], [ ".", [ "Facebook's Photo Storage", "data" ] ] ] ], [ "", [ "362" ] ] ] ] ] }, { "question": "How many Gary Coleman have the same length as Beast (Roller Coaster)?", "context": "CONTEXT:=F1: The length of Beast (Roller Coaster) is 3.677049E+00 times that of Canton Tower.=F2: The length of Gary Coleman is 4.267200E-01 m.=F3: The length of Canton Tower is 1.859280E+02 m.", "answer": "1.602143E+03", "program": "PROGRAM:=Q1: What is the length of Beast (Roller Coaster)?=Q2: What is the length of Gary Coleman?=Q3: What is the length of Canton Tower?=Q4: What is the ratio of the length of Beast (Roller Coaster) and that of Canton Tower?=A1: 4.267200E-01 m=A2: 1.859280E+02 m=A3: 3.677049E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Beast (Roller Coaster)", "length" ] ], [ ".", [ "Gary Coleman", "length" ] ] ] ] ] }, { "question": "How many Dog make up 113 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 1.509047E-29 times that of Sun.=F2: The mass of Sun is 1.988010E+30 kg.=F3: The total mass that needs to be reached is 113 kg.", "answer": "3.766667E+00", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Sun?=Q3: What is the total mass that needs to be reached?=A1: 1.988010E+30 kg=A2: 113 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.509047E-29)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "113" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "How long does it take for Iceberg to travel across Mount Logan?", "context": "CONTEXT:=F1: The length of Mount Logan is 1.210869E+03 times that of Person.=F2: The speed of Iceberg is 4.470400E-01 m/s.=F3: The length of Person is 1.500000E+00 m.", "answer": "4.062955E+03 s", "program": "PROGRAM:=Q1: What is the length of Mount Logan?=Q2: What is the speed of Iceberg?=Q3: What is the length of Person?=Q4: What is the ratio of the length of Mount Logan and the length of Person?=A1: 4.470400E-01 m/s=A2: 1.500000E+00 m=A3: 1.210869E+03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Logan", "length" ] ], [ ".", [ "Iceberg", "speed" ] ] ] ] ] }, { "question": "Assume Elephant's volume is half its value. How many Person fit in Elephant?", "context": "CONTEXT:=F1: The volume of Elephant is 7.000000E+00 m**3.=F2: The volume of Person is 1.247142E-12 times that of Melbourne Cricket Ground.=F3: The volume of Melbourne Cricket Ground is 4.811000E+10 m**3.", "answer": "5.833333E+01", "program": "PROGRAM:=Q1: What is the volume of Elephant?=Q2: What is the volume of Person?=Q3: What is the volume of Melbourne Cricket Ground?=Q4: What is half the volume of Elephant?=Q5: What is the ratio of the volume of Person and that of Melbourne Cricket Ground?=A1: 7.000000E+00 m**3=A2: 4.811000E+10 m**3=A3: 1.247142E-12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Elephant", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Basketball court's area is half its value. How many Parking Space fit on Basketball court?", "context": "CONTEXT:=F1: The area of Basketball court is 4.956215E+02 m**2.=F2: The area of Parking Space is 1.495690E+01 m**2.", "answer": "1.656832E+01", "program": "PROGRAM:=Q1: What is the area of Basketball court?=Q2: What is the area of Parking Space?=Q3: What is half the area of Parking Space?=A1: 4.956215E+02 m**2=A2: 1.495690E+01 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Basketball court", "area" ] ], [ ".", [ "Parking Space", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Google Earth database put together contain the same information as 872 of Blu-ray Disc?", "context": "CONTEXT:=F1: The data of Google Earth database is 6.200000E+14 bytes.=F2: The data of Blu-ray Disc is 4.300000E+11 bytes.", "answer": "6.047742E-01", "program": "PROGRAM:=Q1: What is the data of Google Earth database?=Q2: What is the data of Blu-ray Disc?=Q3: What is 872 times the data of Blu-ray Disc?=A1: 6.200000E+14 bytes=A2: 4.300000E+11 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 872)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Blu-ray Disc", "data" ] ], [ ".", [ "Google Earth database", "data" ] ] ] ], [ "", [ "872" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 494 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 5.000000E-03 kg.=F2: The total mass that needs to be reached is 494 kg.", "answer": "9.880000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 494 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "494" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many All Spoken Words in Human History (recorded) put together contain the same information as 187 of Avatar?", "context": "CONTEXT:=F1: The data of All Spoken Words in Human History (recorded) is 9.750000E+05 times that of Mozy.=F2: The data of Avatar is 8.000000E+15 bytes.=F3: The data of Mozy is 4.000000E+17 bytes.", "answer": "3.835897E-06", "program": "PROGRAM:=Q1: What is the data of All Spoken Words in Human History (recorded)?=Q2: What is the data of Avatar?=Q3: What is the data of Mozy?=Q4: What is 187 times the data of Avatar?=Q5: What is the ratio of the data of All Spoken Words in Human History (recorded) and that of Mozy?=A1: 8.000000E+15 bytes=A2: 4.000000E+17 bytes=A3: 9.750000E+05=Q2 -> A1 | F2=Q4 -> Mul(Q2, 187)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Avatar", "data" ] ], [ ".", [ "All Spoken Words in Human History (recorded)", "data" ] ] ] ], [ "", [ "187" ] ] ] ] ] }, { "question": "Assume Concrete Mixer Truck's volume is half its value. How many Football (Soccer) make Concrete Mixer Truck?", "context": "CONTEXT:=F1: The volume of Concrete Mixer Truck is 7.857143E-18 times that of Earth's Oceans.=F2: The volume of Football (Soccer) is 4.245000E+00 m**3.=F3: The volume of Earth's Oceans is 3.962000E+22 m**3.", "answer": "3.666667E+04", "program": "PROGRAM:=Q1: What is the volume of Concrete Mixer Truck?=Q2: What is the volume of Football (Soccer)?=Q3: What is the volume of Earth's Oceans?=Q4: What is half the volume of Concrete Mixer Truck?=Q5: What is the ratio of the volume of Concrete Mixer Truck and that of Earth's Oceans?=A1: 4.245000E+00 m**3=A2: 3.962000E+22 m**3=A3: 7.857143E-18=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Concrete Mixer Truck", "volume" ] ], [ ".", [ "Football (Soccer)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Books in the Library of Congress put together contain the same information as 681 of iPod?", "context": "CONTEXT:=F1: The data of Books in the Library of Congress is 1.657459E+07 times that of HDTV Television Show (30 Minutes).=F2: The data of iPod is 1.380000E+12 bytes.=F3: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.", "answer": "1.566300E-03", "program": "PROGRAM:=Q1: What is the data of Books in the Library of Congress?=Q2: What is the data of iPod?=Q3: What is the data of HDTV Television Show (30 Minutes)?=Q4: What is 681 times the data of iPod?=Q5: What is the ratio of the data of Books in the Library of Congress and that of HDTV Television Show (30 Minutes)?=A1: 1.380000E+12 bytes=A2: 3.620000E+10 bytes=A3: 1.657459E+07=Q2 -> A1 | F2=Q4 -> Mul(Q2, 681)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "iPod", "data" ] ], [ ".", [ "Books in the Library of Congress", "data" ] ] ] ], [ "", [ "681" ] ] ] ] ] }, { "question": "If 238 of Tennis Ball were to have the same density as fat, how much would it weigh?", "context": "CONTEXT:=F1: The density of fat is 7.650000E-01 times that of Gallon of Paint.=F2: The volume of Tennis Ball is 4.457250E+00 m**3.=F3: The density of Gallon of Paint is 1.200000E+09 kg * m ** -3.", "answer": "9.738378E+11 kg", "program": "PROGRAM:=Q1: What is the density of fat?=Q2: What is the volume of Tennis Ball?=Q3: What is the density of Gallon of Paint?=Q4: What is 238 times the volume of Tennis Ball?=Q5: What is the ratio of the density of fat and that of Gallon of Paint?=A1: 4.457250E+00 m**3=A2: 1.200000E+09 kg * m ** -3=A3: 7.650000E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 238)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Tennis Ball", "volume" ] ], [ ".", [ "fat", "density" ] ] ] ], [ "", [ "238" ] ] ] ] ] }, { "question": "How many DVD put together contain the same information as 383 of smartphone?", "context": "CONTEXT:=F1: The data of DVD is 4.000000E+10 bytes.=F2: The data of smartphone is 8.533333E-07 times that of Books in the Library of Congress.=F3: The data of Books in the Library of Congress is 6.000000E+17 bytes.", "answer": "4.902400E+03", "program": "PROGRAM:=Q1: What is the data of DVD?=Q2: What is the data of smartphone?=Q3: What is the data of Books in the Library of Congress?=Q4: What is 383 times the data of smartphone?=Q5: What is the ratio of the data of smartphone and that of Books in the Library of Congress?=A1: 4.000000E+10 bytes=A2: 6.000000E+17 bytes=A3: 8.533333E-07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 383)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "smartphone", "data" ] ], [ ".", [ "DVD", "data" ] ] ] ], [ "", [ "383" ] ] ] ] ] }, { "question": "How many Dog make up 167 kgs?", "context": "CONTEXT:=F1: The mass of Dog is 4.615385E-01 times that of Bill Gates.=F2: The mass of Bill Gates is 6.500000E+01 kg.=F3: The total mass that needs to be reached is 167 kg.", "answer": "5.566667E+00", "program": "PROGRAM:=Q1: What is the mass of Dog?=Q2: What is the mass of Bill Gates?=Q3: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 167 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 4.615385E-01)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "167" ] ], [ ".", [ "Dog", "mass" ] ] ] ] ] }, { "question": "Assume Concrete Mixer Truck's volume is half its value. How many dollar bill fit in Concrete Mixer Truck?", "context": "CONTEXT:=F1: The volume of Concrete Mixer Truck is 3.113000E+05 m**3.=F2: The volume of dollar bill is 1.761856E-02 times that of Golf Ball (packed).=F3: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "4.910714E+06", "program": "PROGRAM:=Q1: What is the volume of Concrete Mixer Truck?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Golf Ball (packed)?=Q4: What is half the volume of Concrete Mixer Truck?=Q5: What is the ratio of the volume of dollar bill and that of Golf Ball (packed)?=A1: 3.113000E+05 m**3=A2: 1.799012E+00 m**3=A3: 1.761856E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Concrete Mixer Truck", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many United States Capitol have the same area as Rizal Park?", "context": "CONTEXT:=F1: The area of Rizal Park is 5.759800E+05 m**2.=F2: The area of United States Capitol is 4.058442E-04 times that of Isle of Man.=F3: The area of Isle of Man is 5.722640E+08 m**2.", "answer": "2.480000E+00", "program": "PROGRAM:=Q1: What is the area of Rizal Park?=Q2: What is the area of United States Capitol?=Q3: What is the area of Isle of Man?=Q4: What is the ratio of the area of United States Capitol and that of Isle of Man?=A1: 5.759800E+05 m**2=A2: 5.722640E+08 m**2=A3: 4.058442E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Rizal Park", "area" ] ], [ ".", [ "United States Capitol", "area" ] ] ] ] ] }, { "question": "Assume Montana's area is half its value. How many Fort Bliss have the same area as Montana?", "context": "CONTEXT:=F1: The area of Montana is 3.808256E+11 m**2.=F2: The area of Fort Bliss is 4.533520E+09 m**2.", "answer": "4.200110E+01", "program": "PROGRAM:=Q1: What is the area of Montana?=Q2: What is the area of Fort Bliss?=Q3: What is half the area of Fort Bliss?=A1: 3.808256E+11 m**2=A2: 4.533520E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Montana", "area" ] ], [ ".", [ "Fort Bliss", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Car's area is half its value. How many Nickel fit on Car?", "context": "CONTEXT:=F1: The area of Car is 6.000000E+00 m**2.=F2: The area of Nickel is 1.568247E-12 times that of Abel Tasman National Park.=F3: The area of Abel Tasman National Park is 2.252825E+08 m**2.", "answer": "8.491398E+03", "program": "PROGRAM:=Q1: What is the area of Car?=Q2: What is the area of Nickel?=Q3: What is the area of Abel Tasman National Park?=Q4: What is half the area of Car?=Q5: What is the ratio of the area of Nickel and that of Abel Tasman National Park?=A1: 6.000000E+00 m**2=A2: 2.252825E+08 m**2=A3: 1.568247E-12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Car", "area" ] ], [ ".", [ "Nickel", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Sydney Kingsford Smith Airport (SYD)'s area is half its value. How many Dime fit on Sydney Kingsford Smith Airport (SYD)?", "context": "CONTEXT:=F1: The area of Sydney Kingsford Smith Airport (SYD) is 9.009009E+01 times that of King Shaka International Airport (DUR).=F2: The area of Dime is 2.518519E-04 m**2.=F3: The area of King Shaka International Airport (DUR) is 1.031190E+05 m**2.", "answer": "1.844338E+10", "program": "PROGRAM:=Q1: What is the area of Sydney Kingsford Smith Airport (SYD)?=Q2: What is the area of Dime?=Q3: What is the area of King Shaka International Airport (DUR)?=Q4: What is half the area of Sydney Kingsford Smith Airport (SYD)?=Q5: What is the ratio of the area of Sydney Kingsford Smith Airport (SYD) and that of King Shaka International Airport (DUR)?=A1: 2.518519E-04 m**2=A2: 1.031190E+05 m**2=A3: 9.009009E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sydney Kingsford Smith Airport (SYD)", "area" ] ], [ ".", [ "Dime", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Gumball (packed) fit in Elephant?", "context": "CONTEXT:=F1: The volume of Elephant is 7.000000E+00 m**3.=F2: The volume of Gumball (packed) is 2.830000E-01 m**3.", "answer": "2.473498E+01", "program": "PROGRAM:=Q1: What is the volume of Elephant?=Q2: What is the volume of Gumball (packed)?=A1: 7.000000E+00 m**3=A2: 2.830000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Elephant", "volume" ] ], [ ".", [ "Gumball (packed)", "volume" ] ] ] ] ] }, { "question": "How many smartphone put together contain the same information as 877 of DVD?", "context": "CONTEXT:=F1: The data of smartphone is 8.258065E-04 times that of Google Earth database.=F2: The data of DVD is 4.000000E+10 bytes.=F3: The data of Google Earth database is 6.200000E+14 bytes.", "answer": "6.851562E+01", "program": "PROGRAM:=Q1: What is the data of smartphone?=Q2: What is the data of DVD?=Q3: What is the data of Google Earth database?=Q4: What is 877 times the data of DVD?=Q5: What is the ratio of the data of smartphone and that of Google Earth database?=A1: 4.000000E+10 bytes=A2: 6.200000E+14 bytes=A3: 8.258065E-04=Q2 -> A1 | F2=Q4 -> Mul(Q2, 877)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "DVD", "data" ] ], [ ".", [ "smartphone", "data" ] ] ] ], [ "", [ "877" ] ] ] ] ] }, { "question": "How long does it take for Sloth to travel across Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 4.814615E+06 times that of Matt Roloff.=F2: The speed of Sloth is 6.705600E-02 m/s.=F3: The length of Matt Roloff is 3.962400E-01 m.", "answer": "2.845000E+07 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the speed of Sloth?=Q3: What is the length of Matt Roloff?=Q4: What is the ratio of the length of Great Wall of China (wall only) and the length of Matt Roloff?=A1: 6.705600E-02 m/s=A2: 3.962400E-01 m=A3: 4.814615E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Sloth", "speed" ] ] ] ] ] }, { "question": "How many Quarter have the same area as Isle of Man?", "context": "CONTEXT:=F1: The area of Isle of Man is 5.722640E+08 m**2.=F2: The area of Quarter is 1.285530E-12 times that of Detroit.=F3: The area of Detroit is 3.595230E+08 m**2.", "answer": "1.238191E+12", "program": "PROGRAM:=Q1: What is the area of Isle of Man?=Q2: What is the area of Quarter?=Q3: What is the area of Detroit?=Q4: What is the ratio of the area of Quarter and that of Detroit?=A1: 5.722640E+08 m**2=A2: 3.595230E+08 m**2=A3: 1.285530E-12=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Isle of Man", "area" ] ], [ ".", [ "Quarter", "area" ] ] ] ] ] }, { "question": "How many Mars Bars make up 259 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 5.000000E-02 kg.=F2: The total mass that needs to be reached is 259 kg.", "answer": "5.180000E+03", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 259 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "259" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How long does it take for Bullet (Rifle) to travel across English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The speed of Bullet (Rifle) is 9.164320E+02 m/s.", "answer": "3.558758E+01 s", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the speed of Bullet (Rifle)?=A1: 3.261360E+04 m=A2: 9.164320E+02 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Bullet (Rifle)", "speed" ] ] ] ] ] }, { "question": "If 813 of Child were to have the same density as milk, how much would it weigh?", "context": "CONTEXT:=F1: The density of milk is 3.000000E-02 kg * m ** -3.=F2: The volume of Child is 3.000000E-02 m**3.", "answer": "2.519487E+10 kg", "program": "PROGRAM:=Q1: What is the density of milk?=Q2: What is the volume of Child?=Q3: What is 813 times the volume of Child?=A1: 3.000000E-02 kg * m ** -3=A2: 3.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 813)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Child", "volume" ] ], [ ".", [ "milk", "density" ] ] ] ], [ "", [ "813" ] ] ] ] ] }, { "question": "Assume Halley's Comet's volume is half its value. How many Elephant make Halley's Comet?", "context": "CONTEXT:=F1: The volume of Halley's Comet is 1.132000E+17 m**3.=F2: The volume of Elephant is 7.000000E+00 m**3.", "answer": "8.085714E+15", "program": "PROGRAM:=Q1: What is the volume of Halley's Comet?=Q2: What is the volume of Elephant?=Q3: What is half the volume of Halley's Comet?=A1: 1.132000E+17 m**3=A2: 7.000000E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Halley's Comet", "volume" ] ], [ ".", [ "Elephant", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Las Vegas Strip's length is half its value. How many Preakness Stakes have the same length as Las Vegas Strip?", "context": "CONTEXT:=F1: The length of Las Vegas Strip is 4.303797E+01 times that of Blackpool Tower.=F2: The length of Preakness Stakes is 5.825021E+02 m.=F3: The length of Blackpool Tower is 4.815840E+01 m.", "answer": "1.779084E+00", "program": "PROGRAM:=Q1: What is the length of Las Vegas Strip?=Q2: What is the length of Preakness Stakes?=Q3: What is the length of Blackpool Tower?=Q4: What is half the length of Las Vegas Strip?=Q5: What is the ratio of the length of Las Vegas Strip and that of Blackpool Tower?=A1: 5.825021E+02 m=A2: 4.815840E+01 m=A3: 4.303797E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Las Vegas Strip", "length" ] ], [ ".", [ "Preakness Stakes", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Despicable Me put together contain the same information as 78 of Hubble Telescope?", "context": "CONTEXT:=F1: The data of Despicable Me is 2.441406E+03 times that of smartphone.=F2: The data of Hubble Telescope is 1.100000E+15 bytes.=F3: The data of smartphone is 5.120000E+11 bytes.", "answer": "6.864000E+01", "program": "PROGRAM:=Q1: What is the data of Despicable Me?=Q2: What is the data of Hubble Telescope?=Q3: What is the data of smartphone?=Q4: What is 78 times the data of Hubble Telescope?=Q5: What is the ratio of the data of Despicable Me and that of smartphone?=A1: 1.100000E+15 bytes=A2: 5.120000E+11 bytes=A3: 2.441406E+03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 78)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Hubble Telescope", "data" ] ], [ ".", [ "Despicable Me", "data" ] ] ] ], [ "", [ "78" ] ] ] ] ] }, { "question": "If 306 of Hairs were to have the same density as glass, how much would it weigh?", "context": "CONTEXT:=F1: The density of glass is 3.000000E-07 kg * m ** -3.=F2: The volume of Hairs is 1.000000E-05 times that of Child.=F3: The volume of Child is 3.000000E-02 m**3.", "answer": "2.295000E+05 kg", "program": "PROGRAM:=Q1: What is the density of glass?=Q2: What is the volume of Hairs?=Q3: What is the volume of Child?=Q4: What is 306 times the volume of Hairs?=Q5: What is the ratio of the volume of Hairs and that of Child?=A1: 3.000000E-07 kg * m ** -3=A2: 3.000000E-02 m**3=A3: 1.000000E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 306)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Hairs", "volume" ] ], [ ".", [ "glass", "density" ] ] ] ], [ "", [ "306" ] ] ] ] ] }, { "question": "How long does it take for Iceberg to travel across Olympus Mons?", "context": "CONTEXT:=F1: The length of Olympus Mons is 8.229600E+03 m.=F2: The speed of Iceberg is 1.303781E-03 times that of Speed of Sound.=F3: The speed of Speed of Sound is 3.428797E+02 m/s.", "answer": "1.840909E+04 s", "program": "PROGRAM:=Q1: What is the length of Olympus Mons?=Q2: What is the speed of Iceberg?=Q3: What is the speed of Speed of Sound?=Q4: What is the ratio of the speed of Iceberg and the speed of Speed of Sound?=A1: 8.229600E+03 m=A2: 3.428797E+02 m/s=A3: 1.303781E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Olympus Mons", "length" ] ], [ ".", [ "Iceberg", "speed" ] ] ] ] ] }, { "question": "How many Mars Bars make up 595 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 5.000000E-02 kg.=F2: The total mass that needs to be reached is 595 kg.", "answer": "1.190000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 595 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "595" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "Assume Mauna Loa's length is half its value. How many Bill Gates have the same length as Mauna Loa?", "context": "CONTEXT:=F1: The length of Mauna Loa is 2.794406E+03 m.=F2: The length of Bill Gates is 5.833333E+08 times that of virus.=F3: The length of virus is 3.048000E-09 m.", "answer": "7.858286E+02", "program": "PROGRAM:=Q1: What is the length of Mauna Loa?=Q2: What is the length of Bill Gates?=Q3: What is the length of virus?=Q4: What is half the length of Mauna Loa?=Q5: What is the ratio of the length of Bill Gates and that of virus?=A1: 2.794406E+03 m=A2: 3.048000E-09 m=A3: 5.833333E+08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mauna Loa", "length" ] ], [ ".", [ "Bill Gates", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Big Ben's length is half its value. How many Herv\u00e9 Villechaize have the same length as Big Ben?", "context": "CONTEXT:=F1: The length of Big Ben is 2.926080E+01 m.=F2: The length of Herv\u00e9 Villechaize is 2.037078E-04 times that of Kilimanjaro.=F3: The length of Kilimanjaro is 1.795513E+03 m.", "answer": "4.000000E+01", "program": "PROGRAM:=Q1: What is the length of Big Ben?=Q2: What is the length of Herv\u00e9 Villechaize?=Q3: What is the length of Kilimanjaro?=Q4: What is half the length of Big Ben?=Q5: What is the ratio of the length of Herv\u00e9 Villechaize and that of Kilimanjaro?=A1: 2.926080E+01 m=A2: 1.795513E+03 m=A3: 2.037078E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Big Ben", "length" ] ], [ ".", [ "Herv\u00e9 Villechaize", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Giant Sequoia (tree) have the same length as Beast (Roller Coaster)?", "context": "CONTEXT:=F1: The length of Beast (Roller Coaster) is 6.836664E+02 m.=F2: The length of Giant Sequoia (tree) is 4.130435E-01 times that of Space Needle.=F3: The length of Space Needle is 5.608320E+01 m.", "answer": "2.951316E+01", "program": "PROGRAM:=Q1: What is the length of Beast (Roller Coaster)?=Q2: What is the length of Giant Sequoia (tree)?=Q3: What is the length of Space Needle?=Q4: What is the ratio of the length of Giant Sequoia (tree) and that of Space Needle?=A1: 6.836664E+02 m=A2: 5.608320E+01 m=A3: 4.130435E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Beast (Roller Coaster)", "length" ] ], [ ".", [ "Giant Sequoia (tree)", "length" ] ] ] ] ] }, { "question": "How many Concrete Mixer Truck fit in Hot Air Balloon?", "context": "CONTEXT:=F1: The volume of Hot Air Balloon is 6.226000E+07 m**3.=F2: The volume of Concrete Mixer Truck is 3.113000E+05 m**3.", "answer": "2.000000E+02", "program": "PROGRAM:=Q1: What is the volume of Hot Air Balloon?=Q2: What is the volume of Concrete Mixer Truck?=A1: 6.226000E+07 m**3=A2: 3.113000E+05 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Hot Air Balloon", "volume" ] ], [ ".", [ "Concrete Mixer Truck", "volume" ] ] ] ] ] }, { "question": "How many Mars Bars make up 814 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 1.000000E+01 times that of Sheet of paper.=F2: The mass of Sheet of paper is 5.000000E-03 kg.=F3: The total mass that needs to be reached is 814 kg.", "answer": "1.628000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the mass of Sheet of paper?=Q3: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 814 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E+01)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "814" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many Hairs have the same length as Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The length of Hairs is 2.734033E-06 times that of Hadrian's Wall.=F3: The length of Hadrian's Wall is 3.657600E+04 m.", "answer": "2.697133E+04", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the length of Hairs?=Q3: What is the length of Hadrian's Wall?=Q4: What is the ratio of the length of Hairs and that of Hadrian's Wall?=A1: 2.697133E+03 m=A2: 3.657600E+04 m=A3: 2.734033E-06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Hairs", "length" ] ] ] ] ] }, { "question": "How long does it take for Speed of Light to travel across Panama Canal?", "context": "CONTEXT:=F1: The length of Panama Canal is 9.670330E+04 times that of General Tom Thumb.=F2: The speed of Speed of Light is 2.997925E+08 m/s.=F3: The length of General Tom Thumb is 2.773680E-01 m.", "answer": "8.946990E-05 s", "program": "PROGRAM:=Q1: What is the length of Panama Canal?=Q2: What is the speed of Speed of Light?=Q3: What is the length of General Tom Thumb?=Q4: What is the ratio of the length of Panama Canal and the length of General Tom Thumb?=A1: 2.997925E+08 m/s=A2: 2.773680E-01 m=A3: 9.670330E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Panama Canal", "length" ] ], [ ".", [ "Speed of Light", "speed" ] ] ] ] ] }, { "question": "Assume Mount Elbrus's length is half its value. How many Willis Tower have the same length as Mount Elbrus?", "context": "CONTEXT:=F1: The length of Mount Elbrus is 1.719682E+03 m.=F2: The length of Willis Tower is 1.061224E+01 times that of Arc de Triomphe.=F3: The length of Arc de Triomphe is 1.493520E+01 m.", "answer": "5.425000E+00", "program": "PROGRAM:=Q1: What is the length of Mount Elbrus?=Q2: What is the length of Willis Tower?=Q3: What is the length of Arc de Triomphe?=Q4: What is half the length of Mount Elbrus?=Q5: What is the ratio of the length of Willis Tower and that of Arc de Triomphe?=A1: 1.719682E+03 m=A2: 1.493520E+01 m=A3: 1.061224E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Elbrus", "length" ] ], [ ".", [ "Willis Tower", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 713 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.349300E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 713 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(713, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "713" ] ] ] ] ] }, { "question": "Assume Blood Donation's volume is half its value. How many dollar bill fit in Blood Donation?", "context": "CONTEXT:=F1: The volume of Blood Donation is 1.415000E+01 m**3.=F2: The volume of dollar bill is 3.169600E-02 m**3.", "answer": "2.232143E+02", "program": "PROGRAM:=Q1: What is the volume of Blood Donation?=Q2: What is the volume of dollar bill?=Q3: What is half the volume of Blood Donation?=A1: 1.415000E+01 m**3=A2: 3.169600E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Blood Donation", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Abel Tasman National Park have the same area as Russia?", "context": "CONTEXT:=F1: The area of Russia is 1.709768E+13 m**2.=F2: The area of Abel Tasman National Park is 2.787356E+04 times that of Seal Island.=F3: The area of Seal Island is 8.082300E+03 m**2.", "answer": "7.589441E+04", "program": "PROGRAM:=Q1: What is the area of Russia?=Q2: What is the area of Abel Tasman National Park?=Q3: What is the area of Seal Island?=Q4: What is the ratio of the area of Abel Tasman National Park and that of Seal Island?=A1: 1.709768E+13 m**2=A2: 8.082300E+03 m**2=A3: 2.787356E+04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Russia", "area" ] ], [ ".", [ "Abel Tasman National Park", "area" ] ] ] ] ] }, { "question": "Assume Royal Albert Hall's volume is half its value. How many Baseball make Royal Albert Hall?", "context": "CONTEXT:=F1: The volume of Royal Albert Hall is 2.452195E+09 m**3.=F2: The volume of Baseball is 5.953600E+00 m**3.", "answer": "2.059422E+08", "program": "PROGRAM:=Q1: What is the volume of Royal Albert Hall?=Q2: What is the volume of Baseball?=Q3: What is half the volume of Royal Albert Hall?=A1: 2.452195E+09 m**3=A2: 5.953600E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Royal Albert Hall", "volume" ] ], [ ".", [ "Baseball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Bill Gates make up 205 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 205 kg.", "answer": "3.153846E+00", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 205 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "205" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "If 968 of Basketball were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 4.210526E-01 times that of bone.=F2: The volume of Basketball is 2.010493E+02 m**3.=F3: The density of bone is 1.900000E+09 kg * m ** -3.", "answer": "1.556926E+14 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Basketball?=Q3: What is the density of bone?=Q4: What is 968 times the volume of Basketball?=Q5: What is the ratio of the density of gasoline and that of bone?=A1: 2.010493E+02 m**3=A2: 1.900000E+09 kg * m ** -3=A3: 4.210526E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 968)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Basketball", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "968" ] ] ] ] ] }, { "question": "How many Mars Bars can 149 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.608000E+09 times that of Hairs.=F2: The cost of Mars Bars is $1.000000E+00.=F3: The cost of Hairs is $5.000000E+01.", "answer": "1.942960E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is the cost of Hairs?=Q4: What is 149 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Hairs?=A1: $1.000000E+00=A2: $5.000000E+01=A3: 2.608000E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 149)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "149" ] ] ] ] ] }, { "question": "How many Bill Gates can 696 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is $1.304000E+11.", "answer": "6.960000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is 696 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.304000E+11=Q1 -> A1 | F1=Q3 -> Mul(Q1, 696)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "696" ] ] ] ] ] }, { "question": "How long to digest 395 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.409500E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 395 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(395, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "395" ] ] ] ] ] }, { "question": "How many Car can 874 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Car is $4.000000E+04.", "answer": "2.849240E+09", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Car?=Q3: What is 874 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $4.000000E+04=Q1 -> A1 | F1=Q3 -> Mul(Q1, 874)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Car", "cost" ] ] ] ], [ "", [ "874" ] ] ] ] ] }, { "question": "How many Disneyland have the same area as China?", "context": "CONTEXT:=F1: The area of China is 1.599441E+12 times that of Car.=F2: The area of Disneyland is 6.503000E+05 m**2.=F3: The area of Car is 6.000000E+00 m**2.", "answer": "1.475726E+07", "program": "PROGRAM:=Q1: What is the area of China?=Q2: What is the area of Disneyland?=Q3: What is the area of Car?=Q4: What is the ratio of the area of China and that of Car?=A1: 6.503000E+05 m**2=A2: 6.000000E+00 m**2=A3: 1.599441E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "China", "area" ] ], [ ".", [ "Disneyland", "area" ] ] ] ] ] }, { "question": "How long to digest 509 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.104900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 509 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(509, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "509" ] ] ] ] ] }, { "question": "How long to digest 167 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.018700E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 167 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(167, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "167" ] ] ] ] ] }, { "question": "How many Birmingham fit on Vancouver Island?", "context": "CONTEXT:=F1: The area of Vancouver Island is 3.128408E+10 m**2.=F2: The area of Birmingham is 2.460077E+00 times that of Hilton Head.=F3: The area of Hilton Head is 1.088584E+08 m**2.", "answer": "1.168188E+02", "program": "PROGRAM:=Q1: What is the area of Vancouver Island?=Q2: What is the area of Birmingham?=Q3: What is the area of Hilton Head?=Q4: What is the ratio of the area of Birmingham and that of Hilton Head?=A1: 3.128408E+10 m**2=A2: 1.088584E+08 m**2=A3: 2.460077E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Vancouver Island", "area" ] ], [ ".", [ "Birmingham", "area" ] ] ] ] ] }, { "question": "Assume Washington, D.C.'s area is half its value. How many Inis M\u00f3r have the same area as Washington, D.C.?", "context": "CONTEXT:=F1: The area of Washington, D.C. is 1.774390E+08 m**2.=F2: The area of Inis M\u00f3r is 1.803353E+07 times that of Person.=F3: The area of Person is 1.700000E+00 m**2.", "answer": "2.893939E+00", "program": "PROGRAM:=Q1: What is the area of Washington, D.C.?=Q2: What is the area of Inis M\u00f3r?=Q3: What is the area of Person?=Q4: What is half the area of Washington, D.C.?=Q5: What is the ratio of the area of Inis M\u00f3r and that of Person?=A1: 1.774390E+08 m**2=A2: 1.700000E+00 m**2=A3: 1.803353E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Washington, D.C.", "area" ] ], [ ".", [ "Inis M\u00f3r", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Google database put together contain the same information as 879 of Pandora?", "context": "CONTEXT:=F1: The data of Google database is 7.500000E+15 bytes.=F2: The data of Pandora is 2.200000E+15 bytes.", "answer": "2.578400E+02", "program": "PROGRAM:=Q1: What is the data of Google database?=Q2: What is the data of Pandora?=Q3: What is 879 times the data of Pandora?=A1: 7.500000E+15 bytes=A2: 2.200000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 879)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Pandora", "data" ] ], [ ".", [ "Google database", "data" ] ] ] ], [ "", [ "879" ] ] ] ] ] }, { "question": "If 146 of Golf Ball (packed) were to have the same density as steel, how much would it weigh?", "context": "CONTEXT:=F1: The density of steel is 6.408163E+03 times that of air.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.=F3: The density of air is 1.225000E+06 kg * m ** -3.", "answer": "2.061848E+12 kg", "program": "PROGRAM:=Q1: What is the density of steel?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is the density of air?=Q4: What is 146 times the volume of Golf Ball (packed)?=Q5: What is the ratio of the density of steel and that of air?=A1: 1.799012E+00 m**3=A2: 1.225000E+06 kg * m ** -3=A3: 6.408163E+03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 146)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Golf Ball (packed)", "volume" ] ], [ ".", [ "steel", "density" ] ] ] ], [ "", [ "146" ] ] ] ] ] }, { "question": "How many Child make up 681 kgs?", "context": "CONTEXT:=F1: The mass of Child is 3.000000E+01 kg.=F2: The total mass that needs to be reached is 681 kg.", "answer": "2.270000E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 681 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "681" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How many Ha'Penny Bridge have the same length as Great Wall of China (wall only)?", "context": "CONTEXT:=F1: The length of Great Wall of China (wall only) is 1.907743E+06 m.=F2: The length of Ha'Penny Bridge is 2.145000E+01 times that of shark.=F3: The length of shark is 6.096000E-01 m.", "answer": "1.458974E+05", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (wall only)?=Q2: What is the length of Ha'Penny Bridge?=Q3: What is the length of shark?=Q4: What is the ratio of the length of Ha'Penny Bridge and that of shark?=A1: 1.907743E+06 m=A2: 6.096000E-01 m=A3: 2.145000E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (wall only)", "length" ] ], [ ".", [ "Ha'Penny Bridge", "length" ] ] ] ] ] }, { "question": "Assume Gumball's volume is half its value. How many dollar bill have the same volume as Gumball?", "context": "CONTEXT:=F1: The volume of Gumball is 2.547000E-01 m**3.=F2: The volume of dollar bill is 1.761856E-02 times that of Golf Ball (packed).=F3: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "4.017857E+00", "program": "PROGRAM:=Q1: What is the volume of Gumball?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Golf Ball (packed)?=Q4: What is half the volume of Gumball?=Q5: What is the ratio of the volume of dollar bill and that of Golf Ball (packed)?=A1: 2.547000E-01 m**3=A2: 1.799012E+00 m**3=A3: 1.761856E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Gumball", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Blackpool Tower's length is half its value. How many Kenny Baker have the same length as Blackpool Tower?", "context": "CONTEXT:=F1: The length of Blackpool Tower is 4.815840E+01 m.=F2: The length of Kenny Baker is 3.352800E-01 m.", "answer": "7.181818E+01", "program": "PROGRAM:=Q1: What is the length of Blackpool Tower?=Q2: What is the length of Kenny Baker?=Q3: What is half the length of Blackpool Tower?=A1: 4.815840E+01 m=A2: 3.352800E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Blackpool Tower", "length" ] ], [ ".", [ "Kenny Baker", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 233 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.421300E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 233 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(233, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "233" ] ] ] ] ] }, { "question": "Assume Las Vegas Strip's length is half its value. How many Olympic Pool have the same length as Las Vegas Strip?", "context": "CONTEXT:=F1: The length of Las Vegas Strip is 2.072640E+03 m.=F2: The length of Olympic Pool is 5.000000E+01 m.", "answer": "2.072640E+01", "program": "PROGRAM:=Q1: What is the length of Las Vegas Strip?=Q2: What is the length of Olympic Pool?=Q3: What is half the length of Las Vegas Strip?=A1: 2.072640E+03 m=A2: 5.000000E+01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Las Vegas Strip", "length" ] ], [ ".", [ "Olympic Pool", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Google Earth database put together contain the same information as 243 of smartphone?", "context": "CONTEXT:=F1: The data of Google Earth database is 6.200000E+14 bytes.=F2: The data of smartphone is 2.226087E-05 times that of US Census Bureau.=F3: The data of US Census Bureau is 2.300000E+16 bytes.", "answer": "2.006710E-01", "program": "PROGRAM:=Q1: What is the data of Google Earth database?=Q2: What is the data of smartphone?=Q3: What is the data of US Census Bureau?=Q4: What is 243 times the data of smartphone?=Q5: What is the ratio of the data of smartphone and that of US Census Bureau?=A1: 6.200000E+14 bytes=A2: 2.300000E+16 bytes=A3: 2.226087E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 243)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "smartphone", "data" ] ], [ ".", [ "Google Earth database", "data" ] ] ] ], [ "", [ "243" ] ] ] ] ] }, { "question": "If 149 of Sydney Harbour were to have the same density as bone, how much would it weigh?", "context": "CONTEXT:=F1: The density of bone is 1.590460E+13 kg * m ** -3.=F2: The volume of Sydney Harbour is 1.590460E+13 m**3.", "answer": "4.502592E+24 kg", "program": "PROGRAM:=Q1: What is the density of bone?=Q2: What is the volume of Sydney Harbour?=Q3: What is 149 times the volume of Sydney Harbour?=A1: 1.590460E+13 kg * m ** -3=A2: 1.590460E+13 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 149)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "bone", "density" ] ] ] ], [ "", [ "149" ] ] ] ] ] }, { "question": "How many King Size Bed have the same length as Christmas Tree (artificial)?", "context": "CONTEXT:=F1: The length of Christmas Tree (artificial) is 7.010400E-01 m.=F2: The length of King Size Bed is 6.193536E-01 m.", "answer": "1.131890E+00", "program": "PROGRAM:=Q1: What is the length of Christmas Tree (artificial)?=Q2: What is the length of King Size Bed?=A1: 7.010400E-01 m=A2: 6.193536E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Christmas Tree (artificial)", "length" ] ], [ ".", [ "King Size Bed", "length" ] ] ] ] ] }, { "question": "How many Bill Gates fit in Baseball (packed)?", "context": "CONTEXT:=F1: The volume of Baseball (packed) is 9.302500E+00 m**3.=F2: The volume of Bill Gates is 6.200000E-02 m**3.", "answer": "1.500403E+02", "program": "PROGRAM:=Q1: What is the volume of Baseball (packed)?=Q2: What is the volume of Bill Gates?=A1: 9.302500E+00 m**3=A2: 6.200000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Baseball (packed)", "volume" ] ], [ ".", [ "Bill Gates", "volume" ] ] ] ] ] }, { "question": "How many Hairs make up 737 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 4.615385E-04 times that of Bill Gates.=F2: The mass of Bill Gates is 6.500000E+01 kg.=F3: The total mass that needs to be reached is 737 kg.", "answer": "2.456667E+04", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the mass of Bill Gates?=Q3: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 737 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 4.615385E-04)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "737" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How many Internet put together contain the same information as 620 of Books in the Library of Congress?", "context": "CONTEXT:=F1: The data of Internet is 4.000000E+19 bytes.=F2: The data of Books in the Library of Congress is 1.500000E+07 times that of DVD.=F3: The data of DVD is 4.000000E+10 bytes.", "answer": "9.300000E+00", "program": "PROGRAM:=Q1: What is the data of Internet?=Q2: What is the data of Books in the Library of Congress?=Q3: What is the data of DVD?=Q4: What is 620 times the data of Books in the Library of Congress?=Q5: What is the ratio of the data of Books in the Library of Congress and that of DVD?=A1: 4.000000E+19 bytes=A2: 4.000000E+10 bytes=A3: 1.500000E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 620)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Books in the Library of Congress", "data" ] ], [ ".", [ "Internet", "data" ] ] ] ], [ "", [ "620" ] ] ] ] ] }, { "question": "How many Mars Bars make up 540 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 5.000000E-02 kg.=F2: The total mass that needs to be reached is 540 kg.", "answer": "1.080000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 540 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "540" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "How many dollar bill make Sydney Harbour?", "context": "CONTEXT:=F1: The volume of Sydney Harbour is 1.590460E+13 m**3.=F2: The volume of dollar bill is 3.962000E-03 times that of Car.=F3: The volume of Car is 8.000000E+00 m**3.", "answer": "5.017857E+14", "program": "PROGRAM:=Q1: What is the volume of Sydney Harbour?=Q2: What is the volume of dollar bill?=Q3: What is the volume of Car?=Q4: What is the ratio of the volume of dollar bill and that of Car?=A1: 1.590460E+13 m**3=A2: 8.000000E+00 m**3=A3: 3.962000E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Sydney Harbour", "volume" ] ], [ ".", [ "dollar bill", "volume" ] ] ] ] ] }, { "question": "How long does it take for Crocodile to travel across Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The speed of Crocodile is 2.941176E-02 times that of Porsche 911.=F3: The speed of Porsche 911 is 9.119616E+01 m/s.", "answer": "1.005552E+03 s", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the speed of Crocodile?=Q3: What is the speed of Porsche 911?=Q4: What is the ratio of the speed of Crocodile and the speed of Porsche 911?=A1: 2.697133E+03 m=A2: 9.119616E+01 m/s=A3: 2.941176E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Crocodile", "speed" ] ] ] ] ] }, { "question": "How many Bill Gates make up 133 kgs?", "context": "CONTEXT:=F1: The mass of Bill Gates is 6.500000E+01 kg.=F2: The total mass that needs to be reached is 133 kg.", "answer": "2.046154E+00", "program": "PROGRAM:=Q1: What is the mass of Bill Gates?=Q2: What is the total mass that needs to be reached?=A1: 6.500000E+01 kg=A2: 133 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "133" ] ], [ ".", [ "Bill Gates", "mass" ] ] ] ] ] }, { "question": "If 860 of suitcase were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 1.415000E+03 kg * m ** -3.=F2: The volume of suitcase is 7.865428E+02 times that of Golf Ball (packed).=F3: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "1.460280E+15 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of suitcase?=Q3: What is the volume of Golf Ball (packed)?=Q4: What is 860 times the volume of suitcase?=Q5: What is the ratio of the volume of suitcase and that of Golf Ball (packed)?=A1: 1.415000E+03 kg * m ** -3=A2: 1.799012E+00 m**3=A3: 7.865428E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 860)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "suitcase", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "860" ] ] ] ] ] }, { "question": "Assume Sun's volume is half its value. How many Marshmallow make Sun?", "context": "CONTEXT:=F1: The volume of Sun is 1.400000E+27 m**3.=F2: The volume of Marshmallow is 2.830000E+06 times that of Hairs.=F3: The volume of Hairs is 3.000000E-07 m**3.", "answer": "8.244994E+26", "program": "PROGRAM:=Q1: What is the volume of Sun?=Q2: What is the volume of Marshmallow?=Q3: What is the volume of Hairs?=Q4: What is half the volume of Sun?=Q5: What is the ratio of the volume of Marshmallow and that of Hairs?=A1: 1.400000E+27 m**3=A2: 3.000000E-07 m**3=A3: 2.830000E+06=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sun", "volume" ] ], [ ".", [ "Marshmallow", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many YouTube's video database put together contain the same information as 373 of Google Earth database?", "context": "CONTEXT:=F1: The data of YouTube's video database is 1.175000E+00 times that of Walmart's Mainframe.=F2: The data of Google Earth database is 6.200000E+14 bytes.=F3: The data of Walmart's Mainframe is 4.000000E+15 bytes.", "answer": "4.920426E+01", "program": "PROGRAM:=Q1: What is the data of YouTube's video database?=Q2: What is the data of Google Earth database?=Q3: What is the data of Walmart's Mainframe?=Q4: What is 373 times the data of Google Earth database?=Q5: What is the ratio of the data of YouTube's video database and that of Walmart's Mainframe?=A1: 6.200000E+14 bytes=A2: 4.000000E+15 bytes=A3: 1.175000E+00=Q2 -> A1 | F2=Q4 -> Mul(Q2, 373)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google Earth database", "data" ] ], [ ".", [ "YouTube's video database", "data" ] ] ] ], [ "", [ "373" ] ] ] ] ] }, { "question": "How many Hairs make up 65 kgs?", "context": "CONTEXT:=F1: The mass of Hairs is 4.081633E-25 times that of Moon.=F2: The mass of Moon is 7.350000E+22 kg.=F3: The total mass that needs to be reached is 65 kg.", "answer": "2.166667E+03", "program": "PROGRAM:=Q1: What is the mass of Hairs?=Q2: What is the mass of Moon?=Q3: What is the total mass that needs to be reached?=A1: 7.350000E+22 kg=A2: 65 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 4.081633E-25)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "65" ] ], [ ".", [ "Hairs", "mass" ] ] ] ] ] }, { "question": "How many Mozy put together contain the same information as 505 of HDTV Television Show (30 Minutes)?", "context": "CONTEXT:=F1: The data of Mozy is 3.636364E+01 times that of World of Warcraft.=F2: The data of HDTV Television Show (30 Minutes) is 3.620000E+10 bytes.=F3: The data of World of Warcraft is 1.100000E+16 bytes.", "answer": "4.570250E-05", "program": "PROGRAM:=Q1: What is the data of Mozy?=Q2: What is the data of HDTV Television Show (30 Minutes)?=Q3: What is the data of World of Warcraft?=Q4: What is 505 times the data of HDTV Television Show (30 Minutes)?=Q5: What is the ratio of the data of Mozy and that of World of Warcraft?=A1: 3.620000E+10 bytes=A2: 1.100000E+16 bytes=A3: 3.636364E+01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 505)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "HDTV Television Show (30 Minutes)", "data" ] ], [ ".", [ "Mozy", "data" ] ] ] ], [ "", [ "505" ] ] ] ] ] }, { "question": "How many Human Stomach fit in Lincoln Memorial Reflecting Pool?", "context": "CONTEXT:=F1: The volume of Lincoln Memorial Reflecting Pool is 7.244800E+08 m**3.=F2: The volume of Human Stomach is 1.333333E+00 times that of skull.=F3: The volume of skull is 4.245000E+01 m**3.", "answer": "1.280000E+07", "program": "PROGRAM:=Q1: What is the volume of Lincoln Memorial Reflecting Pool?=Q2: What is the volume of Human Stomach?=Q3: What is the volume of skull?=Q4: What is the ratio of the volume of Human Stomach and that of skull?=A1: 7.244800E+08 m**3=A2: 4.245000E+01 m**3=A3: 1.333333E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Lincoln Memorial Reflecting Pool", "volume" ] ], [ ".", [ "Human Stomach", "volume" ] ] ] ] ] }, { "question": "Assume Boracay Island's area is half its value. How many Quarter fit on Boracay Island?", "context": "CONTEXT:=F1: The area of Boracay Island is 1.032119E+07 m**2.=F2: The area of Quarter is 3.109375E-09 times that of Citadelle.=F3: The area of Citadelle is 1.486400E+05 m**2.", "answer": "1.116583E+10", "program": "PROGRAM:=Q1: What is the area of Boracay Island?=Q2: What is the area of Quarter?=Q3: What is the area of Citadelle?=Q4: What is half the area of Boracay Island?=Q5: What is the ratio of the area of Quarter and that of Citadelle?=A1: 1.032119E+07 m**2=A2: 1.486400E+05 m**2=A3: 3.109375E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Boracay Island", "area" ] ], [ ".", [ "Quarter", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Polonium-241 can 558 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.608000E+09 times that of Hairs.=F2: The cost of Polonium-241 is $4.920000E+13.=F3: The cost of Hairs is $5.000000E+01.", "answer": "1.478927E+00", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Polonium-241?=Q3: What is the cost of Hairs?=Q4: What is 558 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Hairs?=A1: $4.920000E+13=A2: $5.000000E+01=A3: 2.608000E+09=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 558)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Polonium-241", "cost" ] ] ] ], [ "", [ "558" ] ] ] ] ] }, { "question": "How many Mars Bars can 213 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 8.150000E+12 times that of Sheet of paper.=F2: The cost of Mars Bars is $1.000000E+00.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "2.777520E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is the cost of Sheet of paper?=Q4: What is 213 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Sheet of paper?=A1: $1.000000E+00=A2: $1.600000E-02=A3: 8.150000E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 213)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "213" ] ] ] ] ] }, { "question": "How long does it take for Cheetah to travel across Volga?", "context": "CONTEXT:=F1: The length of Volga is 1.075944E+06 m.=F2: The speed of Cheetah is 3.068930E+01 m/s.", "answer": "3.505926E+04 s", "program": "PROGRAM:=Q1: What is the length of Volga?=Q2: What is the speed of Cheetah?=A1: 1.075944E+06 m=A2: 3.068930E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Volga", "length" ] ], [ ".", [ "Cheetah", "speed" ] ] ] ] ] }, { "question": "How many Hubble Telescope put together contain the same information as 660 of Hubble Telescope?", "context": "CONTEXT:=F1: The data of Hubble Telescope is 1.100000E+15 bytes.=F2: The data of Hubble Telescope is 1.100000E+15 bytes.", "answer": "6.600000E+02", "program": "PROGRAM:=Q1: What is the data of Hubble Telescope?=Q2: What is the data of Hubble Telescope?=Q3: What is 660 times the data of Hubble Telescope?=A1: 1.100000E+15 bytes=A2: 1.100000E+15 bytes=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 660)=P: Div(Q3, Q1)", "hop": 0, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Hubble Telescope", "data" ] ], [ ".", [ "Hubble Telescope", "data" ] ] ] ], [ "", [ "660" ] ] ] ] ] }, { "question": "How long does it take for Bullet (Rifle) to travel across Daytona International Speedway?", "context": "CONTEXT:=F1: The length of Daytona International Speedway is 2.452640E+01 times that of Olympic Pool.=F2: The speed of Bullet (Rifle) is 9.164320E+02 m/s.=F3: The length of Olympic Pool is 5.000000E+01 m.", "answer": "1.338146E+00 s", "program": "PROGRAM:=Q1: What is the length of Daytona International Speedway?=Q2: What is the speed of Bullet (Rifle)?=Q3: What is the length of Olympic Pool?=Q4: What is the ratio of the length of Daytona International Speedway and the length of Olympic Pool?=A1: 9.164320E+02 m/s=A2: 5.000000E+01 m=A3: 2.452640E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Daytona International Speedway", "length" ] ], [ ".", [ "Bullet (Rifle)", "speed" ] ] ] ] ] }, { "question": "Assume Empire State Building's length is half its value. How many St. Paul's Cathedral have the same length as Empire State Building?", "context": "CONTEXT:=F1: The length of Empire State Building is 1.161318E+02 m.=F2: The length of St. Paul's Cathedral is 5.303520E+01 m.", "answer": "1.094856E+00", "program": "PROGRAM:=Q1: What is the length of Empire State Building?=Q2: What is the length of St. Paul's Cathedral?=Q3: What is half the length of Empire State Building?=A1: 1.161318E+02 m=A2: 5.303520E+01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Empire State Building", "length" ] ], [ ".", [ "St. Paul's Cathedral", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many head have the same volume as Basketball (packed)?", "context": "CONTEXT:=F1: The volume of Basketball (packed) is 3.141396E+02 m**3.=F2: The volume of head is 2.500000E-09 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "3.700113E+00", "program": "PROGRAM:=Q1: What is the volume of Basketball (packed)?=Q2: What is the volume of head?=Q3: What is the volume of Houston Astrodome?=Q4: What is the ratio of the volume of head and that of Houston Astrodome?=A1: 3.141396E+02 m**3=A2: 3.396000E+10 m**3=A3: 2.500000E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Basketball (packed)", "volume" ] ], [ ".", [ "head", "volume" ] ] ] ] ] }, { "question": "Assume Elephant's volume is half its value. How many Sheet of paper make Elephant?", "context": "CONTEXT:=F1: The volume of Elephant is 5.931650E-17 times that of Grand Canyon.=F2: The volume of Sheet of paper is 1.000000E-04 m**3.=F3: The volume of Grand Canyon is 1.180110E+17 m**3.", "answer": "3.500000E+04", "program": "PROGRAM:=Q1: What is the volume of Elephant?=Q2: What is the volume of Sheet of paper?=Q3: What is the volume of Grand Canyon?=Q4: What is half the volume of Elephant?=Q5: What is the ratio of the volume of Elephant and that of Grand Canyon?=A1: 1.000000E-04 m**3=A2: 1.180110E+17 m**3=A3: 5.931650E-17=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Elephant", "volume" ] ], [ ".", [ "Sheet of paper", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 125 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "7.625000E+00 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 125 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(125, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "125" ] ] ] ] ] }, { "question": "If 460 of Egg (Chicken) were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 1.924400E+00 kg * m ** -3.=F2: The volume of Egg (Chicken) is 1.924400E+00 m**3.", "answer": "7.081792E+11 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Egg (Chicken)?=Q3: What is 460 times the volume of Egg (Chicken)?=A1: 1.924400E+00 kg * m ** -3=A2: 1.924400E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 460)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Egg (Chicken)", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "460" ] ] ] ] ] }, { "question": "How many Facebook's Photo Storage put together contain the same information as 966 of Watson?", "context": "CONTEXT:=F1: The data of Facebook's Photo Storage is 1.600000E+00 times that of Ancestry.com's Census Records.=F2: The data of Watson is 3.500000E+13 bytes.=F3: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.", "answer": "4.226250E+00", "program": "PROGRAM:=Q1: What is the data of Facebook's Photo Storage?=Q2: What is the data of Watson?=Q3: What is the data of Ancestry.com's Census Records?=Q4: What is 966 times the data of Watson?=Q5: What is the ratio of the data of Facebook's Photo Storage and that of Ancestry.com's Census Records?=A1: 3.500000E+13 bytes=A2: 5.000000E+15 bytes=A3: 1.600000E+00=Q2 -> A1 | F2=Q4 -> Mul(Q2, 966)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Watson", "data" ] ], [ ".", [ "Facebook's Photo Storage", "data" ] ] ] ], [ "", [ "966" ] ] ] ] ] }, { "question": "How many World of Warcraft put together contain the same information as 912 of Books in the Library of Congress?", "context": "CONTEXT:=F1: The data of World of Warcraft is 1.100000E+16 bytes.=F2: The data of Books in the Library of Congress is 4.615385E+02 times that of IRS Compliance Database.=F3: The data of IRS Compliance Database is 1.300000E+15 bytes.", "answer": "4.974545E+04", "program": "PROGRAM:=Q1: What is the data of World of Warcraft?=Q2: What is the data of Books in the Library of Congress?=Q3: What is the data of IRS Compliance Database?=Q4: What is 912 times the data of Books in the Library of Congress?=Q5: What is the ratio of the data of Books in the Library of Congress and that of IRS Compliance Database?=A1: 1.100000E+16 bytes=A2: 1.300000E+15 bytes=A3: 4.615385E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 912)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Books in the Library of Congress", "data" ] ], [ ".", [ "World of Warcraft", "data" ] ] ] ], [ "", [ "912" ] ] ] ] ] }, { "question": "Assume Lake Erie's area is half its value. How many Ellis Island have the same area as Lake Erie?", "context": "CONTEXT:=F1: The area of Lake Erie is 5.192127E+07 times that of Basketball court.=F2: The area of Ellis Island is 1.105510E+05 m**2.=F3: The area of Basketball court is 4.956215E+02 m**2.", "answer": "1.163866E+05", "program": "PROGRAM:=Q1: What is the area of Lake Erie?=Q2: What is the area of Ellis Island?=Q3: What is the area of Basketball court?=Q4: What is half the area of Lake Erie?=Q5: What is the ratio of the area of Lake Erie and that of Basketball court?=A1: 1.105510E+05 m**2=A2: 4.956215E+02 m**2=A3: 5.192127E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Lake Erie", "area" ] ], [ ".", [ "Ellis Island", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 418 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.549800E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 418 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(418, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "418" ] ] ] ] ] }, { "question": "Assume Grand Canyon National Park's area is half its value. How many Elephant have the same area as Grand Canyon National Park?", "context": "CONTEXT:=F1: The area of Grand Canyon National Park is 4.930430E+09 m**2.=F2: The area of Elephant is 5.038859E-08 times that of Dublin.=F3: The area of Dublin is 3.175322E+08 m**2.", "answer": "1.540759E+08", "program": "PROGRAM:=Q1: What is the area of Grand Canyon National Park?=Q2: What is the area of Elephant?=Q3: What is the area of Dublin?=Q4: What is half the area of Grand Canyon National Park?=Q5: What is the ratio of the area of Elephant and that of Dublin?=A1: 4.930430E+09 m**2=A2: 3.175322E+08 m**2=A3: 5.038859E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Grand Canyon National Park", "area" ] ], [ ".", [ "Elephant", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Sheet of paper have the same length as General Tom Thumb?", "context": "CONTEXT:=F1: The length of General Tom Thumb is 2.773680E-01 m.=F2: The length of Sheet of paper is 2.000000E-01 m.", "answer": "1.386840E+00", "program": "PROGRAM:=Q1: What is the length of General Tom Thumb?=Q2: What is the length of Sheet of paper?=A1: 2.773680E-01 m=A2: 2.000000E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "General Tom Thumb", "length" ] ], [ ".", [ "Sheet of paper", "length" ] ] ] ] ] }, { "question": "How long does it take for Michael Johnson to travel across Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The speed of Michael Johnson is 3.128378E-01 times that of Hurricane.=F3: The speed of Hurricane is 3.308096E+01 m/s.", "answer": "2.606183E+02 s", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the speed of Michael Johnson?=Q3: What is the speed of Hurricane?=Q4: What is the ratio of the speed of Michael Johnson and the speed of Hurricane?=A1: 2.697133E+03 m=A2: 3.308096E+01 m/s=A3: 3.128378E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Michael Johnson", "speed" ] ] ] ] ] }, { "question": "How long does it take for Knuckleball (baseball) to travel across Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 3.657600E+04 m.=F2: The speed of Knuckleball (baseball) is 2.995168E+01 m/s.", "answer": "1.221167E+03 s", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the speed of Knuckleball (baseball)?=A1: 3.657600E+04 m=A2: 2.995168E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "Knuckleball (baseball)", "speed" ] ] ] ] ] }, { "question": "If 745 of Mars Bars were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 7.011394E-01 times that of oxygen.=F2: The volume of Mars Bars is 3.000000E-03 m**3.=F3: The density of oxygen is 1.141000E+09 kg * m ** -3.", "answer": "1.788000E+09 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Mars Bars?=Q3: What is the density of oxygen?=Q4: What is 745 times the volume of Mars Bars?=Q5: What is the ratio of the density of gasoline and that of oxygen?=A1: 3.000000E-03 m**3=A2: 1.141000E+09 kg * m ** -3=A3: 7.011394E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 745)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Mars Bars", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "745" ] ] ] ] ] }, { "question": "How long does it take for Cheetah to travel across I-80?", "context": "CONTEXT:=F1: The length of I-80 is 1.413672E+06 m.=F2: The speed of Cheetah is 3.068930E+01 m/s.", "answer": "4.606399E+04 s", "program": "PROGRAM:=Q1: What is the length of I-80?=Q2: What is the speed of Cheetah?=A1: 1.413672E+06 m=A2: 3.068930E+01 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "I-80", "length" ] ], [ ".", [ "Cheetah", "speed" ] ] ] ] ] }, { "question": "Assume Vinson Massif's length is half its value. How many Red Blood Cell have the same length as Vinson Massif?", "context": "CONTEXT:=F1: The length of Vinson Massif is 1.491082E+03 m.=F2: The length of Red Blood Cell is 2.286000E-06 m.", "answer": "3.261333E+08", "program": "PROGRAM:=Q1: What is the length of Vinson Massif?=Q2: What is the length of Red Blood Cell?=Q3: What is half the length of Vinson Massif?=A1: 1.491082E+03 m=A2: 2.286000E-06 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Vinson Massif", "length" ] ], [ ".", [ "Red Blood Cell", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 511 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "3.117100E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 511 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(511, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "511" ] ] ] ] ] }, { "question": "How long to digest 252 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.537200E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 252 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(252, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "252" ] ] ] ] ] }, { "question": "Assume Sun's volume is half its value. How many Bowling Ball make Sun?", "context": "CONTEXT:=F1: The volume of Sun is 1.400000E+27 m**3.=F2: The volume of Bowling Ball is 1.053869E-01 times that of suitcase.=F3: The volume of suitcase is 1.415000E+03 m**3.", "answer": "4.694129E+24", "program": "PROGRAM:=Q1: What is the volume of Sun?=Q2: What is the volume of Bowling Ball?=Q3: What is the volume of suitcase?=Q4: What is half the volume of Sun?=Q5: What is the ratio of the volume of Bowling Ball and that of suitcase?=A1: 1.400000E+27 m**3=A2: 1.415000E+03 m**3=A3: 1.053869E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Sun", "volume" ] ], [ ".", [ "Bowling Ball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Distance from Earth to the Moon's length is half its value. How many Beetle (Volkswagen) have the same length as Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 1.171762E+08 m.=F2: The length of Beetle (Volkswagen) is 2.027658E-03 times that of Kentucky Derby.=F3: The length of Kentucky Derby is 6.131601E+02 m.", "answer": "4.712387E+07", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the length of Beetle (Volkswagen)?=Q3: What is the length of Kentucky Derby?=Q4: What is half the length of Distance from Earth to the Moon?=Q5: What is the ratio of the length of Beetle (Volkswagen) and that of Kentucky Derby?=A1: 1.171762E+08 m=A2: 6.131601E+02 m=A3: 2.027658E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Beetle (Volkswagen)", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many pizza have the same area as New York City?", "context": "CONTEXT:=F1: The area of New York City is 7.854695E+08 m**2.=F2: The area of pizza is 7.443661E-15 times that of Canada.=F3: The area of Canada is 9.984335E+12 m**2.", "answer": "1.056875E+10", "program": "PROGRAM:=Q1: What is the area of New York City?=Q2: What is the area of pizza?=Q3: What is the area of Canada?=Q4: What is the ratio of the area of pizza and that of Canada?=A1: 7.854695E+08 m**2=A2: 9.984335E+12 m**2=A3: 7.443661E-15=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "New York City", "area" ] ], [ ".", [ "pizza", "area" ] ] ] ] ] }, { "question": "Assume Land area of Earth's area is half its value. How many Indira Gandhi International Airport (DEL) fit on Land area of Earth?", "context": "CONTEXT:=F1: The area of Land area of Earth is 1.187556E+07 times that of Auckland International Airport (AKL).=F2: The area of Indira Gandhi International Airport (DEL) is 2.066096E+07 m**2.=F3: The area of Auckland International Airport (AKL) is 1.254150E+07 m**2.", "answer": "3.604317E+06", "program": "PROGRAM:=Q1: What is the area of Land area of Earth?=Q2: What is the area of Indira Gandhi International Airport (DEL)?=Q3: What is the area of Auckland International Airport (AKL)?=Q4: What is half the area of Land area of Earth?=Q5: What is the ratio of the area of Land area of Earth and that of Auckland International Airport (AKL)?=A1: 2.066096E+07 m**2=A2: 1.254150E+07 m**2=A3: 1.187556E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Land area of Earth", "area" ] ], [ ".", [ "Indira Gandhi International Airport (DEL)", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Aspirin have the same length as Calangute Beach?", "context": "CONTEXT:=F1: The length of Calangute Beach is 2.133600E+03 m.=F2: The length of Aspirin is 3.717472E-09 times that of Mississippi River.=F3: The length of Mississippi River is 1.147877E+06 m.", "answer": "5.000000E+05", "program": "PROGRAM:=Q1: What is the length of Calangute Beach?=Q2: What is the length of Aspirin?=Q3: What is the length of Mississippi River?=Q4: What is the ratio of the length of Aspirin and that of Mississippi River?=A1: 2.133600E+03 m=A2: 1.147877E+06 m=A3: 3.717472E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Calangute Beach", "length" ] ], [ ".", [ "Aspirin", "length" ] ] ] ] ] }, { "question": "Assume Brisbane's area is half its value. How many Hairs have the same area as Brisbane?", "context": "CONTEXT:=F1: The area of Brisbane is 1.584131E+10 m**2.=F2: The area of Hairs is 3.000000E-06 m**2.", "answer": "2.640218E+15", "program": "PROGRAM:=Q1: What is the area of Brisbane?=Q2: What is the area of Hairs?=Q3: What is half the area of Hairs?=A1: 1.584131E+10 m**2=A2: 3.000000E-06 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Brisbane", "area" ] ], [ ".", [ "Hairs", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Secretariat to travel across Mount Everest?", "context": "CONTEXT:=F1: The length of Mount Everest is 2.697133E+03 m.=F2: The speed of Secretariat is 1.843137E-01 times that of Porsche 911.=F3: The speed of Porsche 911 is 9.119616E+01 m/s.", "answer": "1.604605E+02 s", "program": "PROGRAM:=Q1: What is the length of Mount Everest?=Q2: What is the speed of Secretariat?=Q3: What is the speed of Porsche 911?=Q4: What is the ratio of the speed of Secretariat and the speed of Porsche 911?=A1: 2.697133E+03 m=A2: 9.119616E+01 m/s=A3: 1.843137E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Mount Everest", "length" ] ], [ ".", [ "Secretariat", "speed" ] ] ] ] ] }, { "question": "Assume Navy Pier's length is half its value. How many smartphone have the same length as Navy Pier?", "context": "CONTEXT:=F1: The length of Navy Pier is 2.743200E+02 m.=F2: The length of smartphone is 1.553519E-08 times that of Amazon River.=F3: The length of Amazon River is 1.961998E+06 m.", "answer": "4.500000E+03", "program": "PROGRAM:=Q1: What is the length of Navy Pier?=Q2: What is the length of smartphone?=Q3: What is the length of Amazon River?=Q4: What is half the length of Navy Pier?=Q5: What is the ratio of the length of smartphone and that of Amazon River?=A1: 2.743200E+02 m=A2: 1.961998E+06 m=A3: 1.553519E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Navy Pier", "length" ] ], [ ".", [ "smartphone", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Bowling Lane's length is half its value. How many Herv\u00e9 Villechaize have the same length as Bowling Lane?", "context": "CONTEXT:=F1: The length of Bowling Lane is 3.192667E+06 times that of Nucleus (Cellular).=F2: The length of Herv\u00e9 Villechaize is 3.657600E-01 m.=F3: The length of Nucleus (Cellular) is 1.828800E-06 m.", "answer": "7.981667E+00", "program": "PROGRAM:=Q1: What is the length of Bowling Lane?=Q2: What is the length of Herv\u00e9 Villechaize?=Q3: What is the length of Nucleus (Cellular)?=Q4: What is half the length of Bowling Lane?=Q5: What is the ratio of the length of Bowling Lane and that of Nucleus (Cellular)?=A1: 3.657600E-01 m=A2: 1.828800E-06 m=A3: 3.192667E+06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Bowling Lane", "length" ] ], [ ".", [ "Herv\u00e9 Villechaize", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Watson put together contain the same information as 760 of Google Earth database?", "context": "CONTEXT:=F1: The data of Watson is 7.777778E+01 times that of Wikipedia.=F2: The data of Google Earth database is 6.200000E+14 bytes.=F3: The data of Wikipedia is 4.500000E+11 bytes.", "answer": "1.346286E+04", "program": "PROGRAM:=Q1: What is the data of Watson?=Q2: What is the data of Google Earth database?=Q3: What is the data of Wikipedia?=Q4: What is 760 times the data of Google Earth database?=Q5: What is the ratio of the data of Watson and that of Wikipedia?=A1: 6.200000E+14 bytes=A2: 4.500000E+11 bytes=A3: 7.777778E+01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 760)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Google Earth database", "data" ] ], [ ".", [ "Watson", "data" ] ] ] ], [ "", [ "760" ] ] ] ] ] }, { "question": "How many Windsor Castle fit on Montana?", "context": "CONTEXT:=F1: The area of Montana is 3.808256E+11 m**2.=F2: The area of Windsor Castle is 5.295300E+04 m**2.", "answer": "7.191766E+06", "program": "PROGRAM:=Q1: What is the area of Montana?=Q2: What is the area of Windsor Castle?=A1: 3.808256E+11 m**2=A2: 5.295300E+04 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Montana", "area" ] ], [ ".", [ "Windsor Castle", "area" ] ] ] ] ] }, { "question": "How long to digest 404 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.464400E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 404 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(404, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "404" ] ] ] ] ] }, { "question": "How many Letters Delivered by the US Postal Service in 2010 put together contain the same information as 289 of LHC Data Generated per Second?", "context": "CONTEXT:=F1: The data of Letters Delivered by the US Postal Service in 2010 is 4.000000E+16 bytes.=F2: The data of LHC Data Generated per Second is 4.210526E-02 times that of Imgur's Monthly Bandwidth.=F3: The data of Imgur's Monthly Bandwidth is 1.900000E+16 bytes.", "answer": "5.780000E+00", "program": "PROGRAM:=Q1: What is the data of Letters Delivered by the US Postal Service in 2010?=Q2: What is the data of LHC Data Generated per Second?=Q3: What is the data of Imgur's Monthly Bandwidth?=Q4: What is 289 times the data of LHC Data Generated per Second?=Q5: What is the ratio of the data of LHC Data Generated per Second and that of Imgur's Monthly Bandwidth?=A1: 4.000000E+16 bytes=A2: 1.900000E+16 bytes=A3: 4.210526E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 289)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "LHC Data Generated per Second", "data" ] ], [ ".", [ "Letters Delivered by the US Postal Service in 2010", "data" ] ] ] ], [ "", [ "289" ] ] ] ] ] }, { "question": "How many Mars Bars can 433 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Mars Bars is $1.000000E+00.", "answer": "5.646320E+13", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Mars Bars?=Q3: What is 433 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.000000E+00=Q1 -> A1 | F1=Q3 -> Mul(Q1, 433)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Mars Bars", "cost" ] ] ] ], [ "", [ "433" ] ] ] ] ] }, { "question": "How long does it take for Jet Fighter to travel across Grand Canyon?", "context": "CONTEXT:=F1: The length of Grand Canyon is 1.359408E+05 m.=F2: The speed of Jet Fighter is 7.477567E+00 times that of Arrow (archery).=F3: The speed of Arrow (archery) is 8.967622E+01 m/s.", "answer": "2.027273E+02 s", "program": "PROGRAM:=Q1: What is the length of Grand Canyon?=Q2: What is the speed of Jet Fighter?=Q3: What is the speed of Arrow (archery)?=Q4: What is the ratio of the speed of Jet Fighter and the speed of Arrow (archery)?=A1: 1.359408E+05 m=A2: 8.967622E+01 m/s=A3: 7.477567E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "length" ] ], [ ".", [ "Jet Fighter", "speed" ] ] ] ] ] }, { "question": "How many Philippine Arena have the same area as Tshwane?", "context": "CONTEXT:=F1: The area of Tshwane is 6.367366E+09 m**2.=F2: The area of Philippine Arena is 1.623254E-05 times that of Cape Town.=F3: The area of Cape Town is 2.460921E+09 m**2.", "answer": "1.593953E+05", "program": "PROGRAM:=Q1: What is the area of Tshwane?=Q2: What is the area of Philippine Arena?=Q3: What is the area of Cape Town?=Q4: What is the ratio of the area of Philippine Arena and that of Cape Town?=A1: 6.367366E+09 m**2=A2: 2.460921E+09 m**2=A3: 1.623254E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Tshwane", "area" ] ], [ ".", [ "Philippine Arena", "area" ] ] ] ] ] }, { "question": "Assume Mississippi River's length is half its value. How many Ostankino Tower have the same length as Mississippi River?", "context": "CONTEXT:=F1: The length of Mississippi River is 1.147877E+06 m.=F2: The length of Ostankino Tower is 1.645920E+02 m.", "answer": "3.487037E+03", "program": "PROGRAM:=Q1: What is the length of Mississippi River?=Q2: What is the length of Ostankino Tower?=Q3: What is half the length of Mississippi River?=A1: 1.147877E+06 m=A2: 1.645920E+02 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mississippi River", "length" ] ], [ ".", [ "Ostankino Tower", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Speed of Light to travel across Distance from Earth to the Moon?", "context": "CONTEXT:=F1: The length of Distance from Earth to the Moon is 1.171762E+08 m.=F2: The speed of Speed of Light is 2.997925E+08 m/s.", "answer": "3.908579E-01 s", "program": "PROGRAM:=Q1: What is the length of Distance from Earth to the Moon?=Q2: What is the speed of Speed of Light?=A1: 1.171762E+08 m=A2: 2.997925E+08 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from Earth to the Moon", "length" ] ], [ ".", [ "Speed of Light", "speed" ] ] ] ] ] }, { "question": "Assume Mount Logan's length is half its value. How many Grain of Sand have the same length as Mount Logan?", "context": "CONTEXT:=F1: The length of Mount Logan is 1.816303E+03 m.=F2: The length of Grain of Sand is 3.810000E-04 m.", "answer": "2.383600E+06", "program": "PROGRAM:=Q1: What is the length of Mount Logan?=Q2: What is the length of Grain of Sand?=Q3: What is half the length of Mount Logan?=A1: 1.816303E+03 m=A2: 3.810000E-04 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Mount Logan", "length" ] ], [ ".", [ "Grain of Sand", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Glucose Molecule have the same length as 405?", "context": "CONTEXT:=F1: The length of 405 is 5.735236E+04 times that of Queen Size Bed.=F2: The length of Glucose Molecule is 4.572000E-10 m.=F3: The length of Queen Size Bed is 6.193536E-01 m.", "answer": "7.769333E+13", "program": "PROGRAM:=Q1: What is the length of 405?=Q2: What is the length of Glucose Molecule?=Q3: What is the length of Queen Size Bed?=Q4: What is the ratio of the length of 405 and that of Queen Size Bed?=A1: 4.572000E-10 m=A2: 6.193536E-01 m=A3: 5.735236E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "405", "length" ] ], [ ".", [ "Glucose Molecule", "length" ] ] ] ] ] }, { "question": "How many Mackinac Island fit on Fort Bliss?", "context": "CONTEXT:=F1: The area of Fort Bliss is 1.952000E+04 times that of Washington National Cathedral.=F2: The area of Mackinac Island is 1.130686E+07 m**2.=F3: The area of Washington National Cathedral is 2.322500E+05 m**2.", "answer": "4.009531E+02", "program": "PROGRAM:=Q1: What is the area of Fort Bliss?=Q2: What is the area of Mackinac Island?=Q3: What is the area of Washington National Cathedral?=Q4: What is the ratio of the area of Fort Bliss and that of Washington National Cathedral?=A1: 1.130686E+07 m**2=A2: 2.322500E+05 m**2=A3: 1.952000E+04=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Fort Bliss", "area" ] ], [ ".", [ "Mackinac Island", "area" ] ] ] ] ] }, { "question": "Assume Great Pyramid of Giza's volume is half its value. How many Bill Gates have the same volume as Great Pyramid of Giza?", "context": "CONTEXT:=F1: The volume of Great Pyramid of Giza is 6.870148E+10 m**3.=F2: The volume of Bill Gates is 2.894072E-05 times that of Car Gas Tank.=F3: The volume of Car Gas Tank is 2.142310E+03 m**3.", "answer": "5.540442E+11", "program": "PROGRAM:=Q1: What is the volume of Great Pyramid of Giza?=Q2: What is the volume of Bill Gates?=Q3: What is the volume of Car Gas Tank?=Q4: What is half the volume of Great Pyramid of Giza?=Q5: What is the ratio of the volume of Bill Gates and that of Car Gas Tank?=A1: 6.870148E+10 m**3=A2: 2.142310E+03 m**3=A3: 2.894072E-05=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Great Pyramid of Giza", "volume" ] ], [ ".", [ "Bill Gates", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Hurricane to travel across Hadrian's Wall?", "context": "CONTEXT:=F1: The length of Hadrian's Wall is 3.657600E+04 m.=F2: The speed of Hurricane is 1.850000E+00 times that of Hare.=F3: The speed of Hare is 1.788160E+01 m/s.", "answer": "1.105651E+03 s", "program": "PROGRAM:=Q1: What is the length of Hadrian's Wall?=Q2: What is the speed of Hurricane?=Q3: What is the speed of Hare?=Q4: What is the ratio of the speed of Hurricane and the speed of Hare?=A1: 3.657600E+04 m=A2: 1.788160E+01 m/s=A3: 1.850000E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hadrian's Wall", "length" ] ], [ ".", [ "Hurricane", "speed" ] ] ] ] ] }, { "question": "How many Canton Tower have the same length as Grand Canyon?", "context": "CONTEXT:=F1: The length of Grand Canyon is 1.359408E+05 m.=F2: The length of Canton Tower is 2.074830E+00 times that of QE2.=F3: The length of QE2 is 8.961120E+01 m.", "answer": "7.311475E+02", "program": "PROGRAM:=Q1: What is the length of Grand Canyon?=Q2: What is the length of Canton Tower?=Q3: What is the length of QE2?=Q4: What is the ratio of the length of Canton Tower and that of QE2?=A1: 1.359408E+05 m=A2: 8.961120E+01 m=A3: 2.074830E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "length" ] ], [ ".", [ "Canton Tower", "length" ] ] ] ] ] }, { "question": "Assume Hawaii (Island)'s area is half its value. How many Pitcairn Islands have the same area as Hawaii (Island)?", "context": "CONTEXT:=F1: The area of Hawaii (Island) is 1.043211E+10 m**2.=F2: The area of Pitcairn Islands is 4.737900E+07 m**2.", "answer": "1.100922E+02", "program": "PROGRAM:=Q1: What is the area of Hawaii (Island)?=Q2: What is the area of Pitcairn Islands?=Q3: What is half the area of Pitcairn Islands?=A1: 1.043211E+10 m**2=A2: 4.737900E+07 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hawaii (Island)", "area" ] ], [ ".", [ "Pitcairn Islands", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 409 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.494900E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 409 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(409, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "409" ] ] ] ] ] }, { "question": "Assume Abel Tasman National Park's area is half its value. How many Fort Knox fit on Abel Tasman National Park?", "context": "CONTEXT:=F1: The area of Abel Tasman National Park is 1.853976E-01 times that of Los Angeles.=F2: The area of Fort Knox is 1.179830E+03 m**2.=F3: The area of Los Angeles is 1.215132E+09 m**2.", "answer": "9.547244E+04", "program": "PROGRAM:=Q1: What is the area of Abel Tasman National Park?=Q2: What is the area of Fort Knox?=Q3: What is the area of Los Angeles?=Q4: What is half the area of Abel Tasman National Park?=Q5: What is the ratio of the area of Abel Tasman National Park and that of Los Angeles?=A1: 1.179830E+03 m**2=A2: 1.215132E+09 m**2=A3: 1.853976E-01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Abel Tasman National Park", "area" ] ], [ ".", [ "Fort Knox", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Grass growing to travel across Great Wall of China (total)?", "context": "CONTEXT:=F1: The length of Great Wall of China (total) is 2.697480E+06 m.=F2: The speed of Grass growing is 4.436690E-10 times that of Arrow (archery).=F3: The speed of Arrow (archery) is 8.967622E+01 m/s.", "answer": "6.779877E+13 s", "program": "PROGRAM:=Q1: What is the length of Great Wall of China (total)?=Q2: What is the speed of Grass growing?=Q3: What is the speed of Arrow (archery)?=Q4: What is the ratio of the speed of Grass growing and the speed of Arrow (archery)?=A1: 2.697480E+06 m=A2: 8.967622E+01 m/s=A3: 4.436690E-10=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Great Wall of China (total)", "length" ] ], [ ".", [ "Grass growing", "speed" ] ] ] ] ] }, { "question": "How many Child make up 561 kgs?", "context": "CONTEXT:=F1: The mass of Child is 6.000000E+02 times that of Mars Bars.=F2: The mass of Mars Bars is 5.000000E-02 kg.=F3: The total mass that needs to be reached is 561 kg.", "answer": "1.870000E+01", "program": "PROGRAM:=Q1: What is the mass of Child?=Q2: What is the mass of Mars Bars?=Q3: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 561 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 6.000000E+02)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "561" ] ], [ ".", [ "Child", "mass" ] ] ] ] ] }, { "question": "How many Human Stomach fit in Spaceship Earth (EPCOT Center)?", "context": "CONTEXT:=F1: The volume of Spaceship Earth (EPCOT Center) is 1.754600E+09 m**3.=F2: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "3.100000E+07", "program": "PROGRAM:=Q1: What is the volume of Spaceship Earth (EPCOT Center)?=Q2: What is the volume of Human Stomach?=A1: 1.754600E+09 m**3=A2: 5.660000E+01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Spaceship Earth (EPCOT Center)", "volume" ] ], [ ".", [ "Human Stomach", "volume" ] ] ] ] ] }, { "question": "How many Sheet of paper make up 349 kgs?", "context": "CONTEXT:=F1: The mass of Sheet of paper is 1.666667E-04 times that of Child.=F2: The mass of Child is 3.000000E+01 kg.=F3: The total mass that needs to be reached is 349 kg.", "answer": "6.980000E+04", "program": "PROGRAM:=Q1: What is the mass of Sheet of paper?=Q2: What is the mass of Child?=Q3: What is the total mass that needs to be reached?=A1: 3.000000E+01 kg=A2: 349 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.666667E-04)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "349" ] ], [ ".", [ "Sheet of paper", "mass" ] ] ] ] ] }, { "question": "How many Hairs can 984 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 8.150000E+12 times that of Sheet of paper.=F2: The cost of Hairs is $5.000000E+01.=F3: The cost of Sheet of paper is $1.600000E-02.", "answer": "2.566272E+12", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Sheet of paper?=Q4: What is 984 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Sheet of paper?=A1: $5.000000E+01=A2: $1.600000E-02=A3: 8.150000E+12=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 984)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "984" ] ] ] ] ] }, { "question": "Assume King Shaka International Airport (DUR)'s area is half its value. How many Olympic Pool have the same area as King Shaka International Airport (DUR)?", "context": "CONTEXT:=F1: The area of King Shaka International Airport (DUR) is 8.740157E+01 times that of Fort Knox.=F2: The area of Olympic Pool is 1.250000E+03 m**2.=F3: The area of Fort Knox is 1.179830E+03 m**2.", "answer": "4.124760E+01", "program": "PROGRAM:=Q1: What is the area of King Shaka International Airport (DUR)?=Q2: What is the area of Olympic Pool?=Q3: What is the area of Fort Knox?=Q4: What is half the area of King Shaka International Airport (DUR)?=Q5: What is the ratio of the area of King Shaka International Airport (DUR) and that of Fort Knox?=A1: 1.250000E+03 m**2=A2: 1.179830E+03 m**2=A3: 8.740157E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "King Shaka International Airport (DUR)", "area" ] ], [ ".", [ "Olympic Pool", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Washington Monument have the same length as Gocta Falls?", "context": "CONTEXT:=F1: The length of Gocta Falls is 2.350008E+02 m.=F2: The length of Washington Monument is 1.881000E-01 times that of Navy Pier.=F3: The length of Navy Pier is 2.743200E+02 m.", "answer": "4.554315E+00", "program": "PROGRAM:=Q1: What is the length of Gocta Falls?=Q2: What is the length of Washington Monument?=Q3: What is the length of Navy Pier?=Q4: What is the ratio of the length of Washington Monument and that of Navy Pier?=A1: 2.350008E+02 m=A2: 2.743200E+02 m=A3: 1.881000E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Gocta Falls", "length" ] ], [ ".", [ "Washington Monument", "length" ] ] ] ] ] }, { "question": "Assume Houston Astrodome's volume is half its value. How many Golf Ball (packed) make Houston Astrodome?", "context": "CONTEXT:=F1: The volume of Houston Astrodome is 3.396000E+10 m**3.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "9.438514E+09", "program": "PROGRAM:=Q1: What is the volume of Houston Astrodome?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is half the volume of Houston Astrodome?=A1: 3.396000E+10 m**3=A2: 1.799012E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Houston Astrodome", "volume" ] ], [ ".", [ "Golf Ball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 212 of Child were to have the same density as water, how much would it weigh?", "context": "CONTEXT:=F1: The density of water is 3.000000E-02 kg * m ** -3.=F2: The volume of Child is 1.177856E-01 times that of Gumball.=F3: The volume of Gumball is 2.547000E-01 m**3.", "answer": "6.340920E+09 kg", "program": "PROGRAM:=Q1: What is the density of water?=Q2: What is the volume of Child?=Q3: What is the volume of Gumball?=Q4: What is 212 times the volume of Child?=Q5: What is the ratio of the volume of Child and that of Gumball?=A1: 3.000000E-02 kg * m ** -3=A2: 2.547000E-01 m**3=A3: 1.177856E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 212)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Child", "volume" ] ], [ ".", [ "water", "density" ] ] ] ], [ "", [ "212" ] ] ] ] ] }, { "question": "Assume Capitol Rotunda (US)'s volume is half its value. How many Olympic Swimming Pool fit in Capitol Rotunda (US)?", "context": "CONTEXT:=F1: The volume of Capitol Rotunda (US) is 1.047100E+09 m**3.=F2: The volume of Olympic Swimming Pool is 2.083333E-03 times that of Houston Astrodome.=F3: The volume of Houston Astrodome is 3.396000E+10 m**3.", "answer": "7.400000E+00", "program": "PROGRAM:=Q1: What is the volume of Capitol Rotunda (US)?=Q2: What is the volume of Olympic Swimming Pool?=Q3: What is the volume of Houston Astrodome?=Q4: What is half the volume of Capitol Rotunda (US)?=Q5: What is the ratio of the volume of Olympic Swimming Pool and that of Houston Astrodome?=A1: 1.047100E+09 m**3=A2: 3.396000E+10 m**3=A3: 2.083333E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Capitol Rotunda (US)", "volume" ] ], [ ".", [ "Olympic Swimming Pool", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Grand Canyon's volume is half its value. How many Gumball fit in Grand Canyon?", "context": "CONTEXT:=F1: The volume of Grand Canyon is 1.180110E+17 m**3.=F2: The volume of Gumball is 2.547000E-01 m**3.", "answer": "2.316667E+17", "program": "PROGRAM:=Q1: What is the volume of Grand Canyon?=Q2: What is the volume of Gumball?=Q3: What is half the volume of Grand Canyon?=A1: 1.180110E+17 m**3=A2: 2.547000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Gumball", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Christchurch's area is half its value. How many Indira Gandhi International Airport (DEL) fit on Christchurch?", "context": "CONTEXT:=F1: The area of Christchurch is 6.066370E+08 m**2.=F2: The area of Indira Gandhi International Airport (DEL) is 4.118519E+02 times that of Polo field.=F3: The area of Polo field is 5.016600E+04 m**2.", "answer": "1.468076E+01", "program": "PROGRAM:=Q1: What is the area of Christchurch?=Q2: What is the area of Indira Gandhi International Airport (DEL)?=Q3: What is the area of Polo field?=Q4: What is half the area of Christchurch?=Q5: What is the ratio of the area of Indira Gandhi International Airport (DEL) and that of Polo field?=A1: 6.066370E+08 m**2=A2: 5.016600E+04 m**2=A3: 4.118519E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Christchurch", "area" ] ], [ ".", [ "Indira Gandhi International Airport (DEL)", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "If 474 of Great Pyramid of Giza were to have the same density as Gallon of Paint, how much would it weigh?", "context": "CONTEXT:=F1: The density of Gallon of Paint is 6.870148E+10 kg * m ** -3.=F2: The volume of Great Pyramid of Giza is 2.748059E+07 times that of Olympic Pool.=F3: The volume of Olympic Pool is 2.500000E+03 m**3.", "answer": "3.907740E+22 kg", "program": "PROGRAM:=Q1: What is the density of Gallon of Paint?=Q2: What is the volume of Great Pyramid of Giza?=Q3: What is the volume of Olympic Pool?=Q4: What is 474 times the volume of Great Pyramid of Giza?=Q5: What is the ratio of the volume of Great Pyramid of Giza and that of Olympic Pool?=A1: 6.870148E+10 kg * m ** -3=A2: 2.500000E+03 m**3=A3: 2.748059E+07=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 474)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Great Pyramid of Giza", "volume" ] ], [ ".", [ "Gallon of Paint", "density" ] ] ] ], [ "", [ "474" ] ] ] ] ] }, { "question": "How long to digest 253 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.543300E+01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 253 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(253, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "253" ] ] ] ] ] }, { "question": "How many Avatar put together contain the same information as 746 of Hubble Telescope?", "context": "CONTEXT:=F1: The data of Avatar is 8.000000E+15 bytes.=F2: The data of Hubble Telescope is 2.820513E-09 times that of All Spoken Words in Human History (recorded).=F3: The data of All Spoken Words in Human History (recorded) is 3.900000E+23 bytes.", "answer": "1.025750E+02", "program": "PROGRAM:=Q1: What is the data of Avatar?=Q2: What is the data of Hubble Telescope?=Q3: What is the data of All Spoken Words in Human History (recorded)?=Q4: What is 746 times the data of Hubble Telescope?=Q5: What is the ratio of the data of Hubble Telescope and that of All Spoken Words in Human History (recorded)?=A1: 8.000000E+15 bytes=A2: 3.900000E+23 bytes=A3: 2.820513E-09=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 746)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Hubble Telescope", "data" ] ], [ ".", [ "Avatar", "data" ] ] ] ], [ "", [ "746" ] ] ] ] ] }, { "question": "How many Mars Bars make up 120 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 5.000000E-02 kg.=F2: The total mass that needs to be reached is 120 kg.", "answer": "2.400000E+03", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the total mass that needs to be reached?=A1: 5.000000E-02 kg=A2: 120 kg=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q2, Q1)", "hop": 0, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "120" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "Assume Phoenix's area is half its value. How many United States Capitol have the same area as Phoenix?", "context": "CONTEXT:=F1: The area of Phoenix is 1.226280E+09 m**2.=F2: The area of United States Capitol is 4.032258E-01 times that of Rizal Park.=F3: The area of Rizal Park is 5.759800E+05 m**2.", "answer": "2.640000E+03", "program": "PROGRAM:=Q1: What is the area of Phoenix?=Q2: What is the area of United States Capitol?=Q3: What is the area of Rizal Park?=Q4: What is half the area of Phoenix?=Q5: What is the ratio of the area of United States Capitol and that of Rizal Park?=A1: 1.226280E+09 m**2=A2: 5.759800E+05 m**2=A3: 4.032258E-01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Phoenix", "area" ] ], [ ".", [ "United States Capitol", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Mars Bars make up 749 kgs?", "context": "CONTEXT:=F1: The mass of Mars Bars is 1.000000E+01 times that of Sheet of paper.=F2: The mass of Sheet of paper is 5.000000E-03 kg.=F3: The total mass that needs to be reached is 749 kg.", "answer": "1.498000E+04", "program": "PROGRAM:=Q1: What is the mass of Mars Bars?=Q2: What is the mass of Sheet of paper?=Q3: What is the total mass that needs to be reached?=A1: 5.000000E-03 kg=A2: 749 kg=Q2 -> A1 | F2=Q1 -> Mul(Q2, 1.000000E+01)=Q3 -> A2 | F3=P: Div(Q3, Q1)", "hop": 1, "template": "$k / $x.mass", "program_simple": [ [ "/", [ [ "", [ "749" ] ], [ ".", [ "Mars Bars", "mass" ] ] ] ] ] }, { "question": "Assume Basketball's volume is half its value. How many Golf Ball (packed) make Basketball?", "context": "CONTEXT:=F1: The volume of Basketball is 3.376937E+01 times that of Baseball.=F2: The volume of Golf Ball (packed) is 1.799012E+00 m**3.=F3: The volume of Baseball is 5.953600E+00 m**3.", "answer": "5.587771E+01", "program": "PROGRAM:=Q1: What is the volume of Basketball?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is the volume of Baseball?=Q4: What is half the volume of Basketball?=Q5: What is the ratio of the volume of Basketball and that of Baseball?=A1: 1.799012E+00 m**3=A2: 5.953600E+00 m**3=A3: 3.376937E+01=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Basketball", "volume" ] ], [ ".", [ "Golf Ball (packed)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Meteor to travel across Calangute Beach?", "context": "CONTEXT:=F1: The length of Calangute Beach is 3.181818E+03 times that of Shaq.=F2: The speed of Meteor is 4.202176E+04 m/s.=F3: The length of Shaq is 6.705600E-01 m.", "answer": "5.077369E-02 s", "program": "PROGRAM:=Q1: What is the length of Calangute Beach?=Q2: What is the speed of Meteor?=Q3: What is the length of Shaq?=Q4: What is the ratio of the length of Calangute Beach and the length of Shaq?=A1: 4.202176E+04 m/s=A2: 6.705600E-01 m=A3: 3.181818E+03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Calangute Beach", "length" ] ], [ ".", [ "Meteor", "speed" ] ] ] ] ] }, { "question": "How long does it take for Meteor to travel across Distance from L.A. to New York?", "context": "CONTEXT:=F1: The length of Distance from L.A. to New York is 1.368552E+06 m.=F2: The speed of Meteor is 7.833333E+02 times that of Skydiver (belly-to-earth).=F3: The speed of Skydiver (belly-to-earth) is 5.364480E+01 m/s.", "answer": "3.256770E+01 s", "program": "PROGRAM:=Q1: What is the length of Distance from L.A. to New York?=Q2: What is the speed of Meteor?=Q3: What is the speed of Skydiver (belly-to-earth)?=Q4: What is the ratio of the speed of Meteor and the speed of Skydiver (belly-to-earth)?=A1: 1.368552E+06 m=A2: 5.364480E+01 m/s=A3: 7.833333E+02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Distance from L.A. to New York", "length" ] ], [ ".", [ "Meteor", "speed" ] ] ] ] ] }, { "question": "How long to digest 7 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "4.270000E-01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 7 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(7, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "7" ] ] ] ] ] }, { "question": "How many King Size Bed have the same length as Mississippi River?", "context": "CONTEXT:=F1: The length of Mississippi River is 1.147877E+06 m.=F2: The length of King Size Bed is 2.902857E-04 times that of Calangute Beach.=F3: The length of Calangute Beach is 2.133600E+03 m.", "answer": "1.853346E+06", "program": "PROGRAM:=Q1: What is the length of Mississippi River?=Q2: What is the length of King Size Bed?=Q3: What is the length of Calangute Beach?=Q4: What is the ratio of the length of King Size Bed and that of Calangute Beach?=A1: 1.147877E+06 m=A2: 2.133600E+03 m=A3: 2.902857E-04=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Mississippi River", "length" ] ], [ ".", [ "King Size Bed", "length" ] ] ] ] ] }, { "question": "How many Sydney Kingsford Smith Airport (SYD) fit on Indianapolis?", "context": "CONTEXT:=F1: The area of Indianapolis is 1.836141E-06 times that of Earth.=F2: The area of Sydney Kingsford Smith Airport (SYD) is 9.290000E+06 m**2.=F3: The area of Earth is 5.100000E+14 m**2.", "answer": "1.008000E+02", "program": "PROGRAM:=Q1: What is the area of Indianapolis?=Q2: What is the area of Sydney Kingsford Smith Airport (SYD)?=Q3: What is the area of Earth?=Q4: What is the ratio of the area of Indianapolis and that of Earth?=A1: 9.290000E+06 m**2=A2: 5.100000E+14 m**2=A3: 1.836141E-06=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis", "area" ] ], [ ".", [ "Sydney Kingsford Smith Airport (SYD)", "area" ] ] ] ] ] }, { "question": "How many Ottawa have the same area as Moon?", "context": "CONTEXT:=F1: The area of Moon is 3.800000E+13 m**2.=F2: The area of Ottawa is 6.767189E+09 m**2.", "answer": "5.615330E+03", "program": "PROGRAM:=Q1: What is the area of Moon?=Q2: What is the area of Ottawa?=A1: 3.800000E+13 m**2=A2: 6.767189E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Moon", "area" ] ], [ ".", [ "Ottawa", "area" ] ] ] ] ] }, { "question": "Assume Blood in a Human Body's volume is half its value. How many Human Stomach fit in Blood in a Human Body?", "context": "CONTEXT:=F1: The volume of Blood in a Human Body is 1.415000E+02 m**3.=F2: The volume of Human Stomach is 5.660000E+01 m**3.", "answer": "1.250000E+00", "program": "PROGRAM:=Q1: What is the volume of Blood in a Human Body?=Q2: What is the volume of Human Stomach?=Q3: What is half the volume of Blood in a Human Body?=A1: 1.415000E+02 m**3=A2: 5.660000E+01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Blood in a Human Body", "volume" ] ], [ ".", [ "Human Stomach", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long to digest 2 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "1.220000E-01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 2 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(2, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Human Brain put together contain the same information as 863 of Facebook's Photo Storage?", "context": "CONTEXT:=F1: The data of Human Brain is 2.300000E+16 bytes.=F2: The data of Facebook's Photo Storage is 1.600000E+00 times that of Ancestry.com's Census Records.=F3: The data of Ancestry.com's Census Records is 5.000000E+15 bytes.", "answer": "3.001739E+02", "program": "PROGRAM:=Q1: What is the data of Human Brain?=Q2: What is the data of Facebook's Photo Storage?=Q3: What is the data of Ancestry.com's Census Records?=Q4: What is 863 times the data of Facebook's Photo Storage?=Q5: What is the ratio of the data of Facebook's Photo Storage and that of Ancestry.com's Census Records?=A1: 2.300000E+16 bytes=A2: 5.000000E+15 bytes=A3: 1.600000E+00=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Mul(Q2, 863)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Facebook's Photo Storage", "data" ] ], [ ".", [ "Human Brain", "data" ] ] ] ], [ "", [ "863" ] ] ] ] ] }, { "question": "How many Sheet of paper can 804 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Sheet of paper is $1.600000E-02.", "answer": "6.552600E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is 804 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.600000E-02=Q1 -> A1 | F1=Q3 -> Mul(Q1, 804)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "804" ] ] ] ] ] }, { "question": "Assume Olympic Pool's volume is half its value. How many Puck (Hockey) have the same volume as Olympic Pool?", "context": "CONTEXT:=F1: The volume of Olympic Pool is 1.766784E+02 times that of Blood Donation.=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.=F3: The volume of Blood Donation is 1.415000E+01 m**3.", "answer": "3.813204E+02", "program": "PROGRAM:=Q1: What is the volume of Olympic Pool?=Q2: What is the volume of Puck (Hockey)?=Q3: What is the volume of Blood Donation?=Q4: What is half the volume of Olympic Pool?=Q5: What is the ratio of the volume of Olympic Pool and that of Blood Donation?=A1: 3.278083E+00 m**3=A2: 1.415000E+01 m**3=A3: 1.766784E+02=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.volume / $x.volume / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Olympic Pool", "volume" ] ], [ ".", [ "Puck (Hockey)", "volume" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Vinson Massif's length is half its value. How many Grain of Sand have the same length as Vinson Massif?", "context": "CONTEXT:=F1: The length of Vinson Massif is 1.491082E+03 m.=F2: The length of Grain of Sand is 3.810000E-04 m.", "answer": "1.956800E+06", "program": "PROGRAM:=Q1: What is the length of Vinson Massif?=Q2: What is the length of Grain of Sand?=Q3: What is half the length of Vinson Massif?=A1: 1.491082E+03 m=A2: 3.810000E-04 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Vinson Massif", "length" ] ], [ ".", [ "Grain of Sand", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Angel Falls's length is half its value. How many Golden Gate Bridge have the same length as Angel Falls?", "context": "CONTEXT:=F1: The length of Angel Falls is 2.983992E+02 m.=F2: The length of Golden Gate Bridge is 2.476003E-02 times that of Mauna Loa.=F3: The length of Mauna Loa is 2.794406E+03 m.", "answer": "2.156388E+00", "program": "PROGRAM:=Q1: What is the length of Angel Falls?=Q2: What is the length of Golden Gate Bridge?=Q3: What is the length of Mauna Loa?=Q4: What is half the length of Angel Falls?=Q5: What is the ratio of the length of Golden Gate Bridge and that of Mauna Loa?=A1: 2.983992E+02 m=A2: 2.794406E+03 m=A3: 2.476003E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Angel Falls", "length" ] ], [ ".", [ "Golden Gate Bridge", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many STARBUCKS Venti Coffee have the same volume as Human Stomach?", "context": "CONTEXT:=F1: The volume of Human Stomach is 5.660000E+01 m**3.=F2: The volume of STARBUCKS Venti Coffee is 1.669700E+01 m**3.", "answer": "3.389831E+00", "program": "PROGRAM:=Q1: What is the volume of Human Stomach?=Q2: What is the volume of STARBUCKS Venti Coffee?=A1: 5.660000E+01 m**3=A2: 1.669700E+01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Human Stomach", "volume" ] ], [ ".", [ "STARBUCKS Venti Coffee", "volume" ] ] ] ] ] }, { "question": "How long does it take for Arrow (archery) to travel across Puncak Jaya?", "context": "CONTEXT:=F1: The length of Puncak Jaya is 8.140000E+08 times that of Nucleus (Cellular).=F2: The speed of Arrow (archery) is 8.967622E+01 m/s.=F3: The length of Nucleus (Cellular) is 1.828800E-06 m.", "answer": "1.660020E+01 s", "program": "PROGRAM:=Q1: What is the length of Puncak Jaya?=Q2: What is the speed of Arrow (archery)?=Q3: What is the length of Nucleus (Cellular)?=Q4: What is the ratio of the length of Puncak Jaya and the length of Nucleus (Cellular)?=A1: 8.967622E+01 m/s=A2: 1.828800E-06 m=A3: 8.140000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Puncak Jaya", "length" ] ], [ ".", [ "Arrow (archery)", "speed" ] ] ] ] ] }, { "question": "If 25 of Puck (Hockey) were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 3.278083E+00 kg * m ** -3.=F2: The volume of Puck (Hockey) is 3.278083E+00 m**3.", "answer": "7.513367E+10 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Puck (Hockey)?=Q3: What is 25 times the volume of Puck (Hockey)?=A1: 3.278083E+00 kg * m ** -3=A2: 3.278083E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 25)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Puck (Hockey)", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "25" ] ] ] ] ] }, { "question": "How many Eden Park have the same area as Alaska?", "context": "CONTEXT:=F1: The area of Alaska is 1.717798E+12 m**2.=F2: The area of Eden Park is 1.218774E-02 times that of London Heathrow Airport (LHR).=F3: The area of London Heathrow Airport (LHR) is 1.227209E+07 m**2.", "answer": "1.148499E+07", "program": "PROGRAM:=Q1: What is the area of Alaska?=Q2: What is the area of Eden Park?=Q3: What is the area of London Heathrow Airport (LHR)?=Q4: What is the ratio of the area of Eden Park and that of London Heathrow Airport (LHR)?=A1: 1.717798E+12 m**2=A2: 1.227209E+07 m**2=A3: 1.218774E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Alaska", "area" ] ], [ ".", [ "Eden Park", "area" ] ] ] ] ] }, { "question": "If 549 of Marshmallow were to have the same density as bone, how much would it weigh?", "context": "CONTEXT:=F1: The density of bone is 7.600000E-01 times that of glass.=F2: The volume of Marshmallow is 8.490000E-01 m**3.=F3: The density of glass is 2.500000E+09 kg * m ** -3.", "answer": "8.855919E+11 kg", "program": "PROGRAM:=Q1: What is the density of bone?=Q2: What is the volume of Marshmallow?=Q3: What is the density of glass?=Q4: What is 549 times the volume of Marshmallow?=Q5: What is the ratio of the density of bone and that of glass?=A1: 8.490000E-01 m**3=A2: 2.500000E+09 kg * m ** -3=A3: 7.600000E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 549)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Marshmallow", "volume" ] ], [ ".", [ "bone", "density" ] ] ] ], [ "", [ "549" ] ] ] ] ] }, { "question": "How many Disneyland have the same area as London?", "context": "CONTEXT:=F1: The area of London is 1.579300E+09 m**2.=F2: The area of Disneyland is 6.503000E+05 m**2.", "answer": "2.428571E+03", "program": "PROGRAM:=Q1: What is the area of London?=Q2: What is the area of Disneyland?=A1: 1.579300E+09 m**2=A2: 6.503000E+05 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "London", "area" ] ], [ ".", [ "Disneyland", "area" ] ] ] ] ] }, { "question": "How many Basketball court fit on Great Barrier Reef?", "context": "CONTEXT:=F1: The area of Great Barrier Reef is 2.927521E+11 times that of Bathtub.=F2: The area of Basketball court is 4.956215E+02 m**2.=F3: The area of Bathtub is 1.190000E+00 m**2.", "answer": "7.029053E+08", "program": "PROGRAM:=Q1: What is the area of Great Barrier Reef?=Q2: What is the area of Basketball court?=Q3: What is the area of Bathtub?=Q4: What is the ratio of the area of Great Barrier Reef and that of Bathtub?=A1: 4.956215E+02 m**2=A2: 1.190000E+00 m**2=A3: 2.927521E+11=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Great Barrier Reef", "area" ] ], [ ".", [ "Basketball court", "area" ] ] ] ] ] }, { "question": "How many King Size Bed fit on Manchester Cathedral?", "context": "CONTEXT:=F1: The area of Manchester Cathedral is 1.238357E+03 m**2.=F2: The area of King Size Bed is 4.031860E+00 m**2.", "answer": "3.071429E+02", "program": "PROGRAM:=Q1: What is the area of Manchester Cathedral?=Q2: What is the area of King Size Bed?=A1: 1.238357E+03 m**2=A2: 4.031860E+00 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Manchester Cathedral", "area" ] ], [ ".", [ "King Size Bed", "area" ] ] ] ] ] }, { "question": "Assume Land area of Earth's area is half its value. How many Fort Bliss fit on Land area of Earth?", "context": "CONTEXT:=F1: The area of Land area of Earth is 1.489373E+14 m**2.=F2: The area of Fort Bliss is 4.533520E+09 m**2.", "answer": "1.642623E+04", "program": "PROGRAM:=Q1: What is the area of Land area of Earth?=Q2: What is the area of Fort Bliss?=Q3: What is half the area of Fort Bliss?=A1: 1.489373E+14 m**2=A2: 4.533520E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Land area of Earth", "area" ] ], [ ".", [ "Fort Bliss", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Bill Gates can 323 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Bill Gates is $1.304000E+11.", "answer": "3.230000E+02", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bill Gates?=Q3: What is 323 times the cost of Bill Gates?=A1: $1.304000E+11=A2: $1.304000E+11=Q1 -> A1 | F1=Q3 -> Mul(Q1, 323)=Q2 -> A2 | F2=P: Div(Q3, Q2)", "hop": 0, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bill Gates", "cost" ] ] ] ], [ "", [ "323" ] ] ] ] ] }, { "question": "How long does it take for Bull to travel across Hollywood Walk of Fame?", "context": "CONTEXT:=F1: The length of Hollywood Walk of Fame is 1.188720E+03 m.=F2: The speed of Bull is 6.705600E+00 m/s.", "answer": "1.772727E+02 s", "program": "PROGRAM:=Q1: What is the length of Hollywood Walk of Fame?=Q2: What is the speed of Bull?=A1: 1.188720E+03 m=A2: 6.705600E+00 m/s=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Hollywood Walk of Fame", "length" ] ], [ ".", [ "Bull", "speed" ] ] ] ] ] }, { "question": "How many Sheet of paper can 902 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+08 times that of Bathtub.=F2: The cost of Sheet of paper is $1.600000E-02.=F3: The cost of Bathtub is $1.000000E+03.", "answer": "7.351300E+15", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Sheet of paper?=Q3: What is the cost of Bathtub?=Q4: What is 902 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Bathtub?=A1: $1.600000E-02=A2: $1.000000E+03=A3: 1.304000E+08=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 902)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Sheet of paper", "cost" ] ] ] ], [ "", [ "902" ] ] ] ] ] }, { "question": "How many London have the same area as Tshwane?", "context": "CONTEXT:=F1: The area of Tshwane is 6.367366E+09 m**2.=F2: The area of London is 1.579300E+09 m**2.", "answer": "4.031765E+00", "program": "PROGRAM:=Q1: What is the area of Tshwane?=Q2: What is the area of London?=A1: 6.367366E+09 m**2=A2: 1.579300E+09 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "Tshwane", "area" ] ], [ ".", [ "London", "area" ] ] ] ] ] }, { "question": "How long does it take for Knuckleball (baseball) to travel across Indianapolis Motor Speedway?", "context": "CONTEXT:=F1: The length of Indianapolis Motor Speedway is 1.226320E+03 m.=F2: The speed of Knuckleball (baseball) is 7.799767E-02 times that of Bullet (Handgun).=F3: The speed of Bullet (Handgun) is 3.840074E+02 m/s.", "answer": "4.094328E+01 s", "program": "PROGRAM:=Q1: What is the length of Indianapolis Motor Speedway?=Q2: What is the speed of Knuckleball (baseball)?=Q3: What is the speed of Bullet (Handgun)?=Q4: What is the ratio of the speed of Knuckleball (baseball) and the speed of Bullet (Handgun)?=A1: 1.226320E+03 m=A2: 3.840074E+02 m/s=A3: 7.799767E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Indianapolis Motor Speedway", "length" ] ], [ ".", [ "Knuckleball (baseball)", "speed" ] ] ] ] ] }, { "question": "How many Polonium-241 can 548 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 1.304000E+11 times that of Mars Bars.=F2: The cost of Polonium-241 is $4.920000E+13.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "1.452423E+00", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Polonium-241?=Q3: What is the cost of Mars Bars?=Q4: What is 548 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Mars Bars?=A1: $4.920000E+13=A2: $1.000000E+00=A3: 1.304000E+11=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 548)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Polonium-241", "cost" ] ] ] ], [ "", [ "548" ] ] ] ] ] }, { "question": "How many Bathtub can 186 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is 2.650407E-03 times that of Polonium-241.=F2: The cost of Bathtub is $1.000000E+03.=F3: The cost of Polonium-241 is $4.920000E+13.", "answer": "2.425440E+10", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Bathtub?=Q3: What is the cost of Polonium-241?=Q4: What is 186 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Bill Gates and the cost of Polonium-241?=A1: $1.000000E+03=A2: $4.920000E+13=A3: 2.650407E-03=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Mul(Q1, 186)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Bathtub", "cost" ] ] ] ], [ "", [ "186" ] ] ] ] ] }, { "question": "How many Person have the same volume as Puck (Hockey)?", "context": "CONTEXT:=F1: The volume of Puck (Hockey) is 3.278083E+00 m**3.=F2: The volume of Person is 6.000000E-02 m**3.", "answer": "5.463472E+01", "program": "PROGRAM:=Q1: What is the volume of Puck (Hockey)?=Q2: What is the volume of Person?=A1: 3.278083E+00 m**3=A2: 6.000000E-02 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Puck (Hockey)", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ] ] }, { "question": "How long to digest 4 grams of Mars Bars?", "context": "CONTEXT:=F1: The calories of Mars Bars is 3.965000E+00 calories.=F2: The average human metabolic rate is 65 calories/hour.", "answer": "2.440000E-01 hour", "program": "PROGRAM:=Q1: What is the calories of Mars Bars?=Q2: What is 4 times the calories of Mars Bars?=Q3: What is the average human metabolic rate?=A1: 3.965000E+00 calories=A2: 6.500000E+01=Q1 -> A1 | F1=Q2 -> Mul(4, Q1)=Q3 -> A2 | F2=P: Div(Q2, Q3)", "hop": 0, "template": "$k * $x.calories / 65", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Mars Bars", "calories" ] ], [ "", [ "65" ] ] ] ], [ "", [ "4" ] ] ] ] ] }, { "question": "How many Person fit in Grand Canyon?", "context": "CONTEXT:=F1: The volume of Grand Canyon is 1.180110E+17 m**3.=F2: The volume of Person is 3.335164E-02 times that of Golf Ball (packed).=F3: The volume of Golf Ball (packed) is 1.799012E+00 m**3.", "answer": "1.966850E+18", "program": "PROGRAM:=Q1: What is the volume of Grand Canyon?=Q2: What is the volume of Person?=Q3: What is the volume of Golf Ball (packed)?=Q4: What is the ratio of the volume of Person and that of Golf Ball (packed)?=A1: 1.180110E+17 m**3=A2: 1.799012E+00 m**3=A3: 3.335164E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "volume" ] ], [ ".", [ "Person", "volume" ] ] ] ] ] }, { "question": "How many Hairs can 139 of Bill Gates buy?", "context": "CONTEXT:=F1: The cost of Bill Gates is $1.304000E+11.=F2: The cost of Hairs is 5.000000E+01 times that of Mars Bars.=F3: The cost of Mars Bars is $1.000000E+00.", "answer": "3.625120E+11", "program": "PROGRAM:=Q1: What is the cost of Bill Gates?=Q2: What is the cost of Hairs?=Q3: What is the cost of Mars Bars?=Q4: What is 139 times the cost of Bill Gates?=Q5: What is the ratio of the cost of Hairs and the cost of Mars Bars?=A1: $1.304000E+11=A2: $1.000000E+00=A3: 5.000000E+01=Q1 -> A1 | F1=Q4 -> Mul(Q1, 139)=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.cost * $k / $x.cost", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "Bill Gates", "cost" ] ], [ ".", [ "Hairs", "cost" ] ] ] ], [ "", [ "139" ] ] ] ] ] }, { "question": "If 179 of Car Gas Tank were to have the same density as ice, how much would it weigh?", "context": "CONTEXT:=F1: The density of ice is 7.640000E-01 times that of Gallon of Paint.=F2: The volume of Car Gas Tank is 2.142310E+03 m**3.=F3: The density of Gallon of Paint is 1.200000E+09 kg * m ** -3.", "answer": "3.515685E+14 kg", "program": "PROGRAM:=Q1: What is the density of ice?=Q2: What is the volume of Car Gas Tank?=Q3: What is the density of Gallon of Paint?=Q4: What is 179 times the volume of Car Gas Tank?=Q5: What is the ratio of the density of ice and that of Gallon of Paint?=A1: 2.142310E+03 m**3=A2: 1.200000E+09 kg * m ** -3=A3: 7.640000E-01=Q2 -> A1 | F2=Q4 -> Mul(Q2, 179)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Mul(Q4, Q1)", "hop": 1, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Car Gas Tank", "volume" ] ], [ ".", [ "ice", "density" ] ] ] ], [ "", [ "179" ] ] ] ] ] }, { "question": "Assume English Channel's length is half its value. How many Puncak Jaya have the same length as English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The length of Puncak Jaya is 1.507407E+01 times that of Eiffel Tower.=F3: The length of Eiffel Tower is 9.875520E+01 m.", "answer": "1.095414E+01", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the length of Puncak Jaya?=Q3: What is the length of Eiffel Tower?=Q4: What is half the length of English Channel?=Q5: What is the ratio of the length of Puncak Jaya and that of Eiffel Tower?=A1: 3.261360E+04 m=A2: 9.875520E+01 m=A3: 1.507407E+01=Q1 -> A1 | F1=Q3 -> A2 | F3=Q5 -> A3 | F2=Q2 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Puncak Jaya", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How long does it take for Sloth to travel across Grand Canyon?", "context": "CONTEXT:=F1: The length of Grand Canyon is 1.359408E+05 m.=F2: The speed of Sloth is 8.849558E-03 times that of Noah Ngeny.=F3: The speed of Noah Ngeny is 7.577328E+00 m/s.", "answer": "2.027273E+06 s", "program": "PROGRAM:=Q1: What is the length of Grand Canyon?=Q2: What is the speed of Sloth?=Q3: What is the speed of Noah Ngeny?=Q4: What is the ratio of the speed of Sloth and the speed of Noah Ngeny?=A1: 1.359408E+05 m=A2: 7.577328E+00 m/s=A3: 8.849558E-03=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Grand Canyon", "length" ] ], [ ".", [ "Sloth", "speed" ] ] ] ] ] }, { "question": "Assume English Channel's length is half its value. How many Brachiosaurus have the same length as English Channel?", "context": "CONTEXT:=F1: The length of English Channel is 3.261360E+04 m.=F2: The length of Brachiosaurus is 3.962400E+00 m.", "answer": "4.115385E+03", "program": "PROGRAM:=Q1: What is the length of English Channel?=Q2: What is the length of Brachiosaurus?=Q3: What is half the length of English Channel?=A1: 3.261360E+04 m=A2: 3.962400E+00 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "English Channel", "length" ] ], [ ".", [ "Brachiosaurus", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Isle of Man have the same area as New York City?", "context": "CONTEXT:=F1: The area of New York City is 1.294793E+00 times that of Christchurch.=F2: The area of Isle of Man is 5.722640E+08 m**2.=F3: The area of Christchurch is 6.066370E+08 m**2.", "answer": "1.372565E+00", "program": "PROGRAM:=Q1: What is the area of New York City?=Q2: What is the area of Isle of Man?=Q3: What is the area of Christchurch?=Q4: What is the ratio of the area of New York City and that of Christchurch?=A1: 5.722640E+08 m**2=A2: 6.066370E+08 m**2=A3: 1.294793E+00=Q2 -> A1 | F2=Q3 -> A2 | F3=Q4 -> A3 | F1=Q1 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.area / $x.area", "program_simple": [ [ "/", [ [ ".", [ "New York City", "area" ] ], [ ".", [ "Isle of Man", "area" ] ] ] ] ] }, { "question": "Assume Ha'Penny Bridge's length is half its value. How many Sheet of paper have the same length as Ha'Penny Bridge?", "context": "CONTEXT:=F1: The length of Ha'Penny Bridge is 1.307592E+01 m.=F2: The length of Sheet of paper is 2.000000E-01 m.", "answer": "3.268980E+01", "program": "PROGRAM:=Q1: What is the length of Ha'Penny Bridge?=Q2: What is the length of Sheet of paper?=Q3: What is half the length of Ha'Penny Bridge?=A1: 1.307592E+01 m=A2: 2.000000E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q1, 2)=P: Div(Q3, Q2)", "hop": 0, "template": "$y.length / $x.length / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Ha'Penny Bridge", "length" ] ], [ ".", [ "Sheet of paper", "length" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Marshmallow make Blood Donation?", "context": "CONTEXT:=F1: The volume of Blood Donation is 1.415000E+01 m**3.=F2: The volume of Marshmallow is 8.490000E-01 m**3.", "answer": "1.666667E+01", "program": "PROGRAM:=Q1: What is the volume of Blood Donation?=Q2: What is the volume of Marshmallow?=A1: 1.415000E+01 m**3=A2: 8.490000E-01 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Blood Donation", "volume" ] ], [ ".", [ "Marshmallow", "volume" ] ] ] ] ] }, { "question": "How long does it take for Crocodile to travel across Rhine?", "context": "CONTEXT:=F1: The length of Rhine is 4.023360E+05 m.=F2: The speed of Crocodile is 3.000000E-02 times that of Lamborghini Gallardo.=F3: The speed of Lamborghini Gallardo is 8.940800E+01 m/s.", "answer": "1.500000E+05 s", "program": "PROGRAM:=Q1: What is the length of Rhine?=Q2: What is the speed of Crocodile?=Q3: What is the speed of Lamborghini Gallardo?=Q4: What is the ratio of the speed of Crocodile and the speed of Lamborghini Gallardo?=A1: 4.023360E+05 m=A2: 8.940800E+01 m/s=A3: 3.000000E-02=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.length / $x.speed", "program_simple": [ [ "/", [ [ ".", [ "Rhine", "length" ] ], [ ".", [ "Crocodile", "speed" ] ] ] ] ] }, { "question": "If 273 of Baseball were to have the same density as gasoline, how much would it weigh?", "context": "CONTEXT:=F1: The density of gasoline is 5.953600E+00 kg * m ** -3.=F2: The volume of Baseball is 5.953600E+00 m**3.", "answer": "1.300266E+12 kg", "program": "PROGRAM:=Q1: What is the density of gasoline?=Q2: What is the volume of Baseball?=Q3: What is 273 times the volume of Baseball?=A1: 5.953600E+00 kg * m ** -3=A2: 5.953600E+00 m**3=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Mul(Q2, 273)=P: Mul(Q3, Q1)", "hop": 0, "template": "$k * $y.density * $x.volume", "program_simple": [ [ "*", [ [ "*", [ [ ".", [ "Baseball", "volume" ] ], [ ".", [ "gasoline", "density" ] ] ] ], [ "", [ "273" ] ] ] ] ] }, { "question": "How many Andr\u00e9 the Giant have the same length as Big Ben?", "context": "CONTEXT:=F1: The length of Big Ben is 2.926080E+01 m.=F2: The length of Andr\u00e9 the Giant is 6.705600E-01 m.", "answer": "4.363636E+01", "program": "PROGRAM:=Q1: What is the length of Big Ben?=Q2: What is the length of Andr\u00e9 the Giant?=A1: 2.926080E+01 m=A2: 6.705600E-01 m=Q1 -> A1 | F1=Q2 -> A2 | F2=P: Div(Q1, Q2)", "hop": 0, "template": "$y.length / $x.length", "program_simple": [ [ "/", [ [ ".", [ "Big Ben", "length" ] ], [ ".", [ "Andr\u00e9 the Giant", "length" ] ] ] ] ] }, { "question": "Assume Hawaii's area is half its value. How many Soccer City have the same area as Hawaii?", "context": "CONTEXT:=F1: The area of Hawaii is 1.866467E+07 times that of Hockey rink.=F2: The area of Soccer City is 2.415400E+05 m**2.=F3: The area of Hockey rink is 1.516779E+03 m**2.", "answer": "5.860352E+04", "program": "PROGRAM:=Q1: What is the area of Hawaii?=Q2: What is the area of Soccer City ?=Q3: What is the area of Hockey rink?=Q4: What is half the area of Hawaii?=Q5: What is the ratio of the area of Hawaii and that of Hockey rink?=A1: 2.415400E+05 m**2=A2: 1.516779E+03 m**2=A3: 1.866467E+07=Q2 -> A1 | F2=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=Q4 -> Div(Q1, 2)=P: Div(Q4, Q2)", "hop": 1, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Hawaii", "area" ] ], [ ".", [ "Soccer City ", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "Assume Kansas's area is half its value. How many Lake Erie fit on Kansas?", "context": "CONTEXT:=F1: The area of Kansas is 2.130894E+11 m**2.=F2: The area of Lake Erie is 2.573330E+10 m**2.", "answer": "4.140343E+00", "program": "PROGRAM:=Q1: What is the area of Kansas?=Q2: What is the area of Lake Erie?=Q3: What is half the area of Lake Erie?=A1: 2.130894E+11 m**2=A2: 2.573330E+10 m**2=Q1 -> A1 | F1=Q2 -> A2 | F2=Q3 -> Div(Q2, 2)=P: Div(Q1, Q3)", "hop": 0, "template": "$y.area / $x.area / 2", "program_simple": [ [ "/", [ [ "/", [ [ ".", [ "Kansas", "area" ] ], [ ".", [ "Lake Erie", "area" ] ] ] ], [ "", [ "2" ] ] ] ] ] }, { "question": "How many Despicable Me put together contain the same information as 435 of IRS Compliance Database?", "context": "CONTEXT:=F1: The data of Despicable Me is 2.777778E+03 times that of Wikipedia.=F2: The data of IRS Compliance Database is 1.300000E+15 bytes.=F3: The data of Wikipedia is 4.500000E+11 bytes.", "answer": "4.524000E+02", "program": "PROGRAM:=Q1: What is the data of Despicable Me?=Q2: What is the data of IRS Compliance Database?=Q3: What is the data of Wikipedia?=Q4: What is 435 times the data of IRS Compliance Database?=Q5: What is the ratio of the data of Despicable Me and that of Wikipedia?=A1: 1.300000E+15 bytes=A2: 4.500000E+11 bytes=A3: 2.777778E+03=Q2 -> A1 | F2=Q4 -> Mul(Q2, 435)=Q3 -> A2 | F3=Q5 -> A3 | F1=Q1 -> Mul(Q3, Q5)=P: Div(Q4, Q1)", "hop": 1, "template": "$k * $x.data / $y.data", "program_simple": [ [ "*", [ [ "/", [ [ ".", [ "IRS Compliance Database", "data" ] ], [ ".", [ "Despicable Me", "data" ] ] ] ], [ "", [ "435" ] ] ] ] ] }, { "question": "How many Golf Ball (packed) fit in Hot Air Balloon?", "context": "CONTEXT:=F1: The volume of Hot Air Balloon is 6.226000E+07 m**3.=F2: The volume of Golf Ball (packed) is 1.107480E-08 times that of Goodyear Blimp.=F3: The volume of Goodyear Blimp is 1.624420E+08 m**3.", "answer": "3.460788E+07", "program": "PROGRAM:=Q1: What is the volume of Hot Air Balloon?=Q2: What is the volume of Golf Ball (packed)?=Q3: What is the volume of Goodyear Blimp?=Q4: What is the ratio of the volume of Golf Ball (packed) and that of Goodyear Blimp?=A1: 6.226000E+07 m**3=A2: 1.624420E+08 m**3=A3: 1.107480E-08=Q1 -> A1 | F1=Q3 -> A2 | F3=Q4 -> A3 | F2=Q2 -> Mul(Q3, Q4)=P: Div(Q1, Q2)", "hop": 1, "template": "$y.volume / $x.volume", "program_simple": [ [ "/", [ [ ".", [ "Hot Air Balloon", "volume" ] ], [ ".", [ "Golf Ball (packed)", "volume" ] ] ] ] ] } ]