hypothesis stringlengths 11 215 | context stringlengths 0 2.9k | hypothesis_formula stringlengths 3 39 | context_formula stringlengths 0 905 | proofs sequence | proof_label stringclasses 3
values | proofs_formula sequence | world_assump_label stringclasses 3
values | original_tree_depth int64 1 4 | depth int64 0 3 ⌀ | num_formula_distractors int64 0 22 | num_translation_distractors int64 0 0 | num_all_distractors int64 0 22 | negative_hypothesis stringlengths 15 193 ⌀ | negative_hypothesis_formula stringlengths 3 37 ⌀ | negative_original_tree_depth int64 0 25 ⌀ | negative_proofs sequence | negative_proof_label stringclasses 2
values | negative_world_assump_label stringclasses 2
values | prompt_serial stringlengths 89 3.09k | proof_serial stringlengths 11 654 | version stringclasses 1
value | premise stringlengths 0 195 | assumptions sequence | paraphrased_premises sequence |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
the fact that the upstage does not groom hold. | sent1: if something is non-public but it is a quack it does not groom. sent2: the fact that the upstage is not a kind of a quack hold. sent3: the upstage is not a quack if it does not recommend upstage. sent4: the upstage is a kind of non-public thing that is not a quack if it does not recommend upstage. sent5: if the ... | ¬{B}{aa} | sent1: (x): (¬{AA}x & {AB}x) -> ¬{B}x sent2: ¬{AB}{aa} sent3: ¬{A}{aa} -> ¬{AB}{aa} sent4: ¬{A}{aa} -> (¬{AA}{aa} & ¬{AB}{aa}) sent5: (¬{AA}{aa} & {AB}{aa}) -> ¬{B}{aa} sent6: (x): (¬{AA}x & ¬{AB}x) -> ¬{B}x sent7: ¬{AC}{ab} | [
"sent6 -> int1: the upstage is not a kind of a groom if it is not a public and not a quack.;"
] | UNKNOWN | [
"sent6 -> int1: (¬{AA}{aa} & ¬{AB}{aa}) -> ¬{B}{aa};"
] | UNKNOWN | 2 | null | 5 | 0 | 5 | null | null | null | [] | null | null | $hypothesis$ = the fact that the upstage does not groom hold. ; $context$ = sent1: if something is non-public but it is a quack it does not groom. sent2: the fact that the upstage is not a kind of a quack hold. sent3: the upstage is not a quack if it does not recommend upstage. sent4: the upstage is a kind of non-publi... | __UNKNOWN__ | DeductionInstance | if something is both not a public and not a quack then it does not groom. | [] | [
"if something is both not a public and not a quack then it does not groom."
] |
there is something such that if it is a kind of a counterfeit then the fact that it does not blitz or it is a kind of a sunburned or both is correct. | sent1: the rooting is inelegant or is counterfeit or both if it is Jewish. sent2: that the grosgrain is not the blitz and/or it sunburns if the grosgrain is a counterfeit is true. | (Ex): {A}x -> (¬{AA}x v {AB}x) | sent1: {BM}{fs} -> (¬{AU}{fs} v {A}{fs}) sent2: {A}{aa} -> (¬{AA}{aa} v {AB}{aa}) | [
"sent2 -> hypothesis;"
] | PROVED | [
"sent2 -> hypothesis;"
] | PROVED | 1 | 1 | 1 | 0 | 1 | null | null | null | [] | null | null | $hypothesis$ = there is something such that if it is a kind of a counterfeit then the fact that it does not blitz or it is a kind of a sunburned or both is correct. ; $context$ = sent1: the rooting is inelegant or is counterfeit or both if it is Jewish. sent2: that the grosgrain is not the blitz and/or it sunburns if t... | sent2 -> hypothesis; __PROVED__ | DeductionInstance | that the grosgrain is not the blitz and/or it sunburns if the grosgrain is a counterfeit is true. | [] | [
"that the grosgrain is not the blitz and/or it sunburns if the grosgrain is a counterfeit is true."
] |
that the foster-mother is not Sabahan and it is not a arsenical is incorrect. | sent1: the fact that something is a kind of chiasmal thing that is not irreconcilable is wrong if it is not autoradiographic. sent2: the synovia is not a signaler. sent3: something is not Sabahan if that it stagnates and it is not an ovulation is not true. sent4: the pentode does accompany and is a kind of a radicalism... | ¬(¬{B}{c} & ¬{C}{c}) | sent1: (x): ¬{H}x -> ¬({F}x & ¬{G}x) sent2: ¬{A}{b} sent3: (x): ¬({AA}x & ¬{AB}x) -> ¬{B}x sent4: ¬{L}{e} -> ({K}{e} & {J}{e}) sent5: ¬({F}{d} & ¬{G}{d}) -> ¬{F}{b} sent6: ¬{A}{a} -> ¬({AA}{b} & ¬{AB}{b}) sent7: {A}{a} -> ¬(¬{B}{c} & ¬{C}{c}) sent8: {J}{e} -> (¬{H}{d} & ¬{I}{d}) sent9: (x): {E}x -> ¬({D}x & ¬{A}x) sent... | [
"sent6 & sent12 -> int1: that the synovia stagnates and is not an ovulation is not correct.; sent3 -> int2: if that the synovia does stagnate and is not an ovulation is not true then that it is not a kind of a Sabahan is correct.; int1 & int2 -> int3: the synovia is not Sabahan.; int3 & sent11 -> hypothesis;"
] | DISPROVED | [
"sent6 & sent12 -> int1: ¬({AA}{b} & ¬{AB}{b}); sent3 -> int2: ¬({AA}{b} & ¬{AB}{b}) -> ¬{B}{b}; int1 & int2 -> int3: ¬{B}{b}; int3 & sent11 -> hypothesis;"
] | DISPROVED | 3 | 3 | 9 | 0 | 9 | the fact that the foster-mother is both not Sabahan and not a arsenical does not hold. | ¬(¬{B}{c} & ¬{C}{c}) | 11 | [
"sent9 -> int4: that the synovia is respectful but not a signaler is not right if it does backpack fingertip.; sent10 -> int5: if the synovia is not chiasmal it does backpack fingertip.; sent1 -> int6: that the warfarin is a kind of chiasmal thing that is not irreconcilable is false if it is not autoradiographic.; ... | UNKNOWN | UNKNOWN | $hypothesis$ = that the foster-mother is not Sabahan and it is not a arsenical is incorrect. ; $context$ = sent1: the fact that something is a kind of chiasmal thing that is not irreconcilable is wrong if it is not autoradiographic. sent2: the synovia is not a signaler. sent3: something is not Sabahan if that it stagna... | sent6 & sent12 -> int1: that the synovia stagnates and is not an ovulation is not correct.; sent3 -> int2: if that the synovia does stagnate and is not an ovulation is not true then that it is not a kind of a Sabahan is correct.; int1 & int2 -> int3: the synovia is not Sabahan.; int3 & sent11 -> hypothesis; __DISPROVED... | DeductionInstance | if that the sexton is not a signaler is correct then that the fact that the synovia does stagnate and is not an ovulation does not hold is true. | [
"the sexton is not a signaler.",
"something is not Sabahan if that it stagnates and it is not an ovulation is not true.",
"if the synovia is not a kind of a Sabahan the fact that the foster-mother is both not Sabahan and not arsenical is correct."
] | [
"The fact that the synovia does not hold an ovulation and that the sexton is not a signaler is correct.",
"The fact that the sexton is not a signaler is correct.",
"The fact that the synovia does not hold an ovulation and that the sexton is not a signaler is true."
] |
the councilwoman is a kind of a surrealist. | sent1: everything is a Podilymbus but not a Psithyrus. sent2: something that is conductive is a riposte. sent3: everything is not a reflectance. sent4: if that the Masorete is a laterality is true the Milanese is antennal. sent5: if that the buntal is not a kind of a superscript is right then the bootstrap is reliable ... | {A}{aa} | sent1: (x): ({AA}x & ¬{AB}x) sent2: (x): {C}x -> {B}x sent3: (x): ¬{AJ}x sent4: {I}{d} -> {H}{c} sent5: ¬{M}{g} -> ({L}{f} & {K}{f}) sent6: {I}{e} -> {I}{d} sent7: (x): ({AA}x & ¬{AB}x) -> ¬{A}x sent8: (x): {H}x -> (¬{F}x v ¬{G}x) sent9: ¬(¬{D}{a} & ¬{C}{a}) -> {C}{aa} sent10: (x): ¬{AB}x sent11: {K}{f} -> {J}{f} sent1... | [
"sent1 -> int1: the councilwoman is a Podilymbus but it is not a Psithyrus.; sent7 -> int2: the fact that the councilwoman is not a surrealist is true if it is both a Podilymbus and not a Psithyrus.; int1 & int2 -> hypothesis;"
] | DISPROVED | [
"sent1 -> int1: ({AA}{aa} & ¬{AB}{aa}); sent7 -> int2: ({AA}{aa} & ¬{AB}{aa}) -> ¬{A}{aa}; int1 & int2 -> hypothesis;"
] | DISPROVED | 2 | 2 | 19 | 0 | 19 | the councilwoman is a surrealist. | {A}{aa} | 13 | [
"sent19 -> int3: if the fact that the councilwoman ripostes is not incorrect then it is a kind of a surrealist.; sent2 -> int4: the councilwoman does riposte if it is conductive.; sent8 -> int5: the Milanese does not recommend population and/or it does not recommend pliability if it is antennal.; sent5 & sent17 -> ... | UNKNOWN | UNKNOWN | $hypothesis$ = the councilwoman is a kind of a surrealist. ; $context$ = sent1: everything is a Podilymbus but not a Psithyrus. sent2: something that is conductive is a riposte. sent3: everything is not a reflectance. sent4: if that the Masorete is a laterality is true the Milanese is antennal. sent5: if that the bunta... | sent1 -> int1: the councilwoman is a Podilymbus but it is not a Psithyrus.; sent7 -> int2: the fact that the councilwoman is not a surrealist is true if it is both a Podilymbus and not a Psithyrus.; int1 & int2 -> hypothesis; __DISPROVED__ | DeductionInstance | everything is a Podilymbus but not a Psithyrus. | [
"if something that is a kind of a Podilymbus is not a Psithyrus it is not a surrealist."
] | [
"everything is a Podilymbus but not a Psithyrus."
] |
that the utensil does recommend lumpfish and is a stake is false. | sent1: the harpsichordist is Deweyan if it is climactic. sent2: that the utensil does recommend lumpfish is not false if it is postglacial. sent3: if the Catholic does recommend lifeboat then the fact that the hydrosphere does not recommend lumpfish and it is not a clearway does not hold. sent4: something that is upper... | ¬({D}{c} & {E}{c}) | sent1: {IN}{fl} -> {A}{fl} sent2: {DP}{c} -> {D}{c} sent3: {B}{b} -> ¬(¬{D}{jk} & ¬{C}{jk}) sent4: (x): {AF}x -> {ED}x sent5: (x): {DF}x -> {FM}x sent6: {E}{c} sent7: ¬{C}{d} -> ({B}{b} v ¬{A}{b}) sent8: {B}{a} -> {C}{c} sent9: {B}{c} -> {C}{a} sent10: (x): {C}x -> {D}x sent11: ({DQ}{hr} & {CQ}{hr}) sent12: {A}{c} -> {... | [
"sent13 & sent23 & sent8 -> int1: the utensil is a kind of a clearway.; sent10 -> int2: if the utensil is a kind of a clearway then the fact that it recommends lumpfish is true.; int1 & int2 -> int3: the utensil recommends lumpfish.; int3 & sent6 -> hypothesis;"
] | DISPROVED | [
"sent13 & sent23 & sent8 -> int1: {C}{c}; sent10 -> int2: {C}{c} -> {D}{c}; int1 & int2 -> int3: {D}{c}; int3 & sent6 -> hypothesis;"
] | DISPROVED | 3 | 3 | 19 | 0 | 19 | the hydrosphere recommends lumpfish and it is a lapdog. | ({D}{jk} & {HS}{jk}) | 3 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = that the utensil does recommend lumpfish and is a stake is false. ; $context$ = sent1: the harpsichordist is Deweyan if it is climactic. sent2: that the utensil does recommend lumpfish is not false if it is postglacial. sent3: if the Catholic does recommend lifeboat then the fact that the hydrosphere doe... | sent13 & sent23 & sent8 -> int1: the utensil is a kind of a clearway.; sent10 -> int2: if the utensil is a kind of a clearway then the fact that it recommends lumpfish is true.; int1 & int2 -> int3: the utensil recommends lumpfish.; int3 & sent6 -> hypothesis; __DISPROVED__ | DeductionInstance | the ultramarine is Deweyan and/or does recommend lifeboat. | [
"that the utensil is a clearway is correct if the ultramarine is Deweyan.",
"that the utensil is a kind of a clearway is correct if the ultramarine does recommend lifeboat.",
"that something recommends lumpfish if it is a clearway is not incorrect.",
"the utensil is a stake."
] | [
"The ultramarine is Deweyan.",
"The ultramarine is recommended by Deweyan.",
"The ultra marine is Deweyan.",
"Deweyan is the name of the ultramarine."
] |
the schnook does recommend copyreader. | sent1: if the schnook is not ethnographic then it is a Riley and it is not obedient. sent2: if that something is vulvar and it is a freemasonry is false it is not vulvar. sent3: the reboxetine is not exculpatory. sent4: that the schnook does recommend copyreader is right if the potholder piffles. sent5: the ghat does r... | {AB}{a} | sent1: ¬{EB}{a} -> ({FO}{a} & ¬{DN}{a}) sent2: (x): ¬({F}x & {H}x) -> ¬{F}x sent3: ¬{G}{c} sent4: {A}{b} -> {AB}{a} sent5: {AB}{is} sent6: ¬{G}{c} -> ¬({F}{c} & {H}{c}) sent7: {D}{c} sent8: ¬{AF}{en} -> ({GU}{en} & ¬{AB}{en}) sent9: ¬{AA}{a} -> ({JI}{a} & ¬{EU}{a}) sent10: (x): ¬{F}x -> (¬{E}x & {B}x) sent11: ({AA}{a} ... | [
"sent13 & sent14 -> int1: the schnook is a niqaabi but it does not recommend copyreader.; int1 -> hypothesis;"
] | DISPROVED | [
"sent13 & sent14 -> int1: ({AA}{a} & ¬{AB}{a}); int1 -> hypothesis;"
] | DISPROVED | 2 | 2 | 12 | 0 | 12 | the schnook recommends copyreader. | {AB}{a} | 8 | [
"sent12 -> int2: the reboxetine is a requital if it is a unit.; int2 & sent7 -> int3: that the reboxetine is a kind of a requital hold.; sent10 -> int4: if the fact that the reboxetine is not vulvar is correct then it is not a Indian and it is a microbe.; sent2 -> int5: if that the reboxetine is vulvar and is a fre... | UNKNOWN | UNKNOWN | $hypothesis$ = the schnook does recommend copyreader. ; $context$ = sent1: if the schnook is not ethnographic then it is a Riley and it is not obedient. sent2: if that something is vulvar and it is a freemasonry is false it is not vulvar. sent3: the reboxetine is not exculpatory. sent4: that the schnook does recommend ... | sent13 & sent14 -> int1: the schnook is a niqaabi but it does not recommend copyreader.; int1 -> hypothesis; __DISPROVED__ | DeductionInstance | if the schnook does not piffle then it is a niqaabi and it does not recommend copyreader. | [
"the schnook does not piffle."
] | [
"if the schnook does not piffle then it is a niqaabi and it does not recommend copyreader."
] |
both the recommending bitter-bark and the knelling occurs. | sent1: the serving Morgantown happens. sent2: the unfamiliarness happens. sent3: the spending occurs and the ontogeneticness occurs. sent4: if the serving Morgantown does not occur then the fact that the recommending bitter-bark occurs and the knell occurs is not right. sent5: both the serving Morgantown and the recomm... | ({B} & {C}) | sent1: {A} sent2: {GR} sent3: ({HU} & {BM}) sent4: ¬{A} -> ¬({B} & {C}) sent5: ({A} & {B}) sent6: {O} sent7: ({DF} & {T}) sent8: {C} sent9: ¬{E} -> ({A} & {HI}) | [
"sent5 -> int1: the recommending bitter-bark occurs.; int1 & sent8 -> hypothesis;"
] | PROVED | [
"sent5 -> int1: {B}; int1 & sent8 -> hypothesis;"
] | PROVED | 2 | 2 | 7 | 0 | 7 | the fact that the recommending bitter-bark and the knell happens is wrong. | ¬({B} & {C}) | 6 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = both the recommending bitter-bark and the knelling occurs. ; $context$ = sent1: the serving Morgantown happens. sent2: the unfamiliarness happens. sent3: the spending occurs and the ontogeneticness occurs. sent4: if the serving Morgantown does not occur then the fact that the recommending bitter-bark occ... | sent5 -> int1: the recommending bitter-bark occurs.; int1 & sent8 -> hypothesis; __PROVED__ | DeductionInstance | both the serving Morgantown and the recommending bitter-bark occurs. | [
"the knell occurs."
] | [
"both the serving Morgantown and the recommending bitter-bark occurs."
] |
the triquetral is not Aleutians and/or is not a Euphagus. | sent1: if something is north it is not a kind of a Euphagus. sent2: something is a north but not a gee-gee if it is not a kind of a gasbag. sent3: the centerpiece does not recommend ethics and is not Aleutians. sent4: if the triquetral does recommend isosorbide but it is not evening then it is not a Germanic. sent5: th... | (¬{B}{a} v ¬{A}{a}) | sent1: (x): {C}x -> ¬{A}x sent2: (x): ¬{E}x -> ({C}x & ¬{D}x) sent3: (¬{N}{it} & ¬{B}{it}) sent4: ({DF}{a} & ¬{BC}{a}) -> ¬{CD}{a} sent5: (¬{AA}{a} & ¬{AB}{a}) -> ¬{B}{a} | [] | UNKNOWN | [] | UNKNOWN | 2 | null | 4 | 0 | 4 | the Casanova is both not Aleutians and not a cast. | (¬{B}{dh} & ¬{GE}{dh}) | 6 | [
"sent1 -> int1: if the triquetral is a north it is not a Euphagus.; sent2 -> int2: the triquetral is a north but it is not a gee-gee if it is not a gasbag.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the triquetral is not Aleutians and/or is not a Euphagus. ; $context$ = sent1: if something is north it is not a kind of a Euphagus. sent2: something is a north but not a gee-gee if it is not a kind of a gasbag. sent3: the centerpiece does not recommend ethics and is not Aleutians. sent4: if the triquetr... | __UNKNOWN__ | DeductionInstance | the triquetral is not Aleutians if it does not condition and it does not serve format. | [
"the centerpiece does not recommend ethics and is not Aleutians."
] | [
"the triquetral is not Aleutians if it does not condition and it does not serve format."
] |
the self-starter is noncritical if the pit is a readout. | sent1: the self-starter is noncritical if that the pit is a tetrahedron is correct. sent2: the fact that the self-starter is a kind of a readout hold. sent3: if something is not transitional then it is not noncritical. sent4: the pit is a Salvadoran. sent5: something is a tetrahedron and it is a readout if it is not no... | {A}{a} -> {C}{b} | sent1: {B}{a} -> {C}{b} sent2: {A}{b} sent3: (x): ¬{D}x -> ¬{C}x sent4: {HL}{a} sent5: (x): ¬{C}x -> ({B}x & {A}x) sent6: {C}{a} sent7: {A}{a} -> {B}{a} | [
"void -> assump1: Let's assume that the pit is a readout.; sent7 & assump1 -> int1: the pit is a tetrahedron.; sent1 & int1 -> int2: that the self-starter is noncritical is true.; [assump1] & int2 -> hypothesis;"
] | PROVED | [
"void -> assump1: {A}{a}; sent7 & assump1 -> int1: {B}{a}; sent1 & int1 -> int2: {C}{b}; [assump1] & int2 -> hypothesis;"
] | PROVED | 3 | 3 | 5 | 0 | 5 | the algebraist is a tetrahedron. | {B}{as} | 5 | [
"sent5 -> int3: if the algebraist is not noncritical then it is a tetrahedron and it is a readout.; sent3 -> int4: the algebraist is not noncritical if it is not transitional.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the self-starter is noncritical if the pit is a readout. ; $context$ = sent1: the self-starter is noncritical if that the pit is a tetrahedron is correct. sent2: the fact that the self-starter is a kind of a readout hold. sent3: if something is not transitional then it is not noncritical. sent4: the pit ... | void -> assump1: Let's assume that the pit is a readout.; sent7 & assump1 -> int1: the pit is a tetrahedron.; sent1 & int1 -> int2: that the self-starter is noncritical is true.; [assump1] & int2 -> hypothesis; __PROVED__ | DeductionInstance | if the pit is a readout then it is a tetrahedron. | [
"the self-starter is noncritical if that the pit is a tetrahedron is correct."
] | [
"if the pit is a readout then it is a tetrahedron."
] |
the fact that that there exists something such that if it is a kind of a Muraenidae and is basic then it does not backpack Vespertilionidae is correct is wrong. | sent1: if something is both a tallith and tabular the fact that it is a Czech hold. sent2: there is something such that if it absconds and ramifies it is not a inessential. sent3: if something is a soffit and it numerates then it is not a kind of a mealberry. sent4: the tawse is not a kind of a barbiturate if it does s... | ¬((Ex): ({AA}x & {AB}x) -> ¬{B}x) | sent1: (x): ({ED}x & {AD}x) -> {U}x sent2: (Ex): ({CN}x & {DF}x) -> ¬{HR}x sent3: (x): ({IU}x & {L}x) -> ¬{IF}x sent4: ({HN}{aa} & {B}{aa}) -> ¬{DN}{aa} sent5: (Ex): ({EU}x & {EB}x) -> {T}x sent6: (x): ({BU}x & {GD}x) -> ¬{AJ}x sent7: (Ex): ({CF}x & {DI}x) -> {HO}x sent8: ({AA}{ci} & {GU}{ci}) -> {EF}{ci} sent9: ({AA}{... | [
"sent15 -> int1: the tawse does not backpack Vespertilionidae if it is both a Muraenidae and basic.; int1 -> hypothesis;"
] | DISPROVED | [
"sent15 -> int1: ({AA}{aa} & {AB}{aa}) -> ¬{B}{aa}; int1 -> hypothesis;"
] | DISPROVED | 2 | 2 | 14 | 0 | 14 | the Rheum is not a kind of a basic if it is custard-like and it serves Limulus. | ({HI}{ja} & {EL}{ja}) -> ¬{AB}{ja} | 1 | [
"sent12 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = the fact that that there exists something such that if it is a kind of a Muraenidae and is basic then it does not backpack Vespertilionidae is correct is wrong. ; $context$ = sent1: if something is both a tallith and tabular the fact that it is a Czech hold. sent2: there is something such that if it absc... | sent15 -> int1: the tawse does not backpack Vespertilionidae if it is both a Muraenidae and basic.; int1 -> hypothesis; __DISPROVED__ | DeductionInstance | if something is both a Muraenidae and a basic that it does not backpack Vespertilionidae hold. | [] | [
"if something is both a Muraenidae and a basic that it does not backpack Vespertilionidae hold."
] |
something is a Kaufman and does surprise. | sent1: something is a Kaufman. sent2: the acumen is uneventful. sent3: the acumen is a surprise. sent4: the pheno-safranine is a surprise. | (Ex): ({A}x & {B}x) | sent1: (Ex): {A}x sent2: {FO}{a} sent3: {B}{a} sent4: {B}{hb} | [] | UNKNOWN | [] | UNKNOWN | 2 | null | 3 | 0 | 3 | null | null | null | [] | null | null | $hypothesis$ = something is a Kaufman and does surprise. ; $context$ = sent1: something is a Kaufman. sent2: the acumen is uneventful. sent3: the acumen is a surprise. sent4: the pheno-safranine is a surprise. ; $proof$ = | __UNKNOWN__ | DeductionInstance | something is a Kaufman. | [
"the pheno-safranine is a surprise."
] | [
"something is a Kaufman."
] |
the voluptuary is a kind of a notoriety. | sent1: the voluptuary is a kind of a notoriety if the convalescence is a notoriety. sent2: something is a prostitute that does quintuple. sent3: something is a kind of uncousinly thing that does recommend neurectomy if it is a notoriety. sent4: something does not backpack pneumonectomy. sent5: there is something such t... | {A}{a} | sent1: {A}{b} -> {A}{a} sent2: (Ex): ({AA}x & {AB}x) sent3: (x): {A}x -> (¬{HU}x & {DN}x) sent4: (Ex): ¬{G}x sent5: (Ex): {AB}x sent6: ¬{E}{d} -> (¬{D}{d} v {F}{d}) sent7: (¬{EB}{aa} & {BK}{aa}) sent8: (¬{AA}{aa} & {AB}{aa}) sent9: ¬{E}{d} sent10: (x): (¬{AA}x & {AB}x) -> ¬{A}{a} sent11: ¬{AA}{aa} sent12: (x): ¬{C}x ->... | [
"sent8 -> int1: there is something such that it is not a prostitute and it does quintuple.; int1 & sent10 -> hypothesis;"
] | DISPROVED | [
"sent8 -> int1: (Ex): (¬{AA}x & {AB}x); int1 & sent10 -> hypothesis;"
] | DISPROVED | 2 | 2 | 13 | 0 | 13 | the voluptuary is a kind of a notoriety. | {A}{a} | 8 | [
"sent12 -> int2: if the convalescence is not a kind of a hoard it is a notoriety and a Cosmocampus.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the voluptuary is a kind of a notoriety. ; $context$ = sent1: the voluptuary is a kind of a notoriety if the convalescence is a notoriety. sent2: something is a prostitute that does quintuple. sent3: something is a kind of uncousinly thing that does recommend neurectomy if it is a notoriety. sent4: somet... | sent8 -> int1: there is something such that it is not a prostitute and it does quintuple.; int1 & sent10 -> hypothesis; __DISPROVED__ | DeductionInstance | that the mouth is not a kind of a prostitute but it quintuples is true. | [
"the voluptuary is not a kind of a notoriety if something that is not a kind of a prostitute does quintuple."
] | [
"that the mouth is not a kind of a prostitute but it quintuples is true."
] |
the fact that the oratory happens and the recommending gaskin does not occur does not hold. | sent1: if the wipeout occurs then the fact that the oratory but not the recommending gaskin occurs is not true. sent2: the contraception occurs if the fact that the wipeout but not the contraception occurs does not hold. sent3: that the wipeout does not occur is prevented by that the boniness occurs and the cuckoldry d... | ¬({D} & ¬{C}) | sent1: {B} -> ¬({D} & ¬{C}) sent2: ¬({B} & ¬{DG}) -> {DG} sent3: ({AA} & ¬{AB}) -> {B} sent4: {A} -> (¬{AA} & ¬{AB}) sent5: {CQ} -> ¬{HN} sent6: {DK} sent7: {M} sent8: (¬{FJ} & ¬{HC}) -> {FT} sent9: {EF} -> ¬{L} sent10: {IU} -> ¬({L} & ¬{HF}) sent11: ¬({HM} & ¬{EF}) sent12: (¬{AA} & ¬{AB}) -> {B} sent13: ¬({T} & ¬{EK})... | [
"sent4 & sent16 -> int1: the boniness does not occur and the cuckoldry does not occur.; int1 & sent12 -> int2: the wipeout occurs.; int2 & sent1 -> hypothesis;"
] | PROVED | [
"sent4 & sent16 -> int1: (¬{AA} & ¬{AB}); int1 & sent12 -> int2: {B}; int2 & sent1 -> hypothesis;"
] | PROVED | 3 | 3 | 15 | 0 | 15 | the contraception happens. | {DG} | 6 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the fact that the oratory happens and the recommending gaskin does not occur does not hold. ; $context$ = sent1: if the wipeout occurs then the fact that the oratory but not the recommending gaskin occurs is not true. sent2: the contraception occurs if the fact that the wipeout but not the contraception ... | sent4 & sent16 -> int1: the boniness does not occur and the cuckoldry does not occur.; int1 & sent12 -> int2: the wipeout occurs.; int2 & sent1 -> hypothesis; __PROVED__ | DeductionInstance | if the fact that the blondness occurs hold the boniness does not occur and the cuckoldry does not occur. | [
"the blond happens.",
"the wipeout is brought about by that the boniness does not occur and the cuckoldry does not occur.",
"if the wipeout occurs then the fact that the oratory but not the recommending gaskin occurs is not true."
] | [
"The cuckoldry does not occur if the blondness occurs.",
"The cuckoldry does not occur if the blondness holds.",
"The cuckoldry doesn't occur if the blondness occurs."
] |
there exists something such that if it is determinate it is multiform and/or it does serve Egyptologist. | sent1: something is nervous and/or it is indeterminate if it is not supportive. sent2: something is multiform and/or does serve Egyptologist if it is indeterminate. sent3: the website is multiform or does serve Egyptologist or both if it is indeterminate. | (Ex): ¬{A}x -> ({AA}x v {AB}x) | sent1: (x): ¬{EP}x -> ({JH}x v {A}x) sent2: (x): {A}x -> ({AA}x v {AB}x) sent3: {A}{aa} -> ({AA}{aa} v {AB}{aa}) | [] | UNKNOWN | [] | UNKNOWN | 2 | null | 3 | 0 | 3 | either the ropewalk is nervous or it is indeterminate or both if it is not supportive. | ¬{EP}{p} -> ({JH}{p} v {A}{p}) | 1 | [
"sent1 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = there exists something such that if it is determinate it is multiform and/or it does serve Egyptologist. ; $context$ = sent1: something is nervous and/or it is indeterminate if it is not supportive. sent2: something is multiform and/or does serve Egyptologist if it is indeterminate. sent3: the website is... | __UNKNOWN__ | DeductionInstance | something is nervous and/or it is indeterminate if it is not supportive. | [
"something is multiform and/or does serve Egyptologist if it is indeterminate."
] | [
"something is nervous and/or it is indeterminate if it is not supportive."
] |
the exocentricness does not occur. | sent1: the clayeiness does not occur. sent2: the fact that the libidinalness occurs is not false. sent3: if the serving Bardeen happens the echocardiography occurs. sent4: that the clayeiness and the eligibleness happens does not hold if the Gallicness occurs. sent5: if the clayeiness happens the fact that the beating ... | ¬{A} | sent1: ¬{D} sent2: {HQ} sent3: {AP} -> {CU} sent4: {E} -> ¬({D} & {C}) sent5: {D} -> ¬({B} & ¬{C}) sent6: {B} -> ¬{D} sent7: ¬({D} & {C}) sent8: {HH} sent9: {F} sent10: {CQ} -> ¬({DF} & {GF}) sent11: {E} -> ¬(¬{D} & {C}) sent12: ¬{HB} sent13: {F} -> {E} sent14: {EP} sent15: ¬{CL} sent16: ¬{E} -> ¬(¬{C} & {D}) sent17: {... | [
"void -> assump1: Let's assume that the exocentricness happens.; sent13 & sent9 -> int1: the Gallicness occurs.; sent11 & int1 -> int2: the fact that both the non-clayeyness and the eligibleness occurs is wrong.;"
] | UNKNOWN | [
"void -> assump1: {A}; sent13 & sent9 -> int1: {E}; sent11 & int1 -> int2: ¬(¬{D} & {C});"
] | UNKNOWN | 4 | null | 16 | 0 | 16 | the deployment occurs. | {CP} | 6 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the exocentricness does not occur. ; $context$ = sent1: the clayeiness does not occur. sent2: the fact that the libidinalness occurs is not false. sent3: if the serving Bardeen happens the echocardiography occurs. sent4: that the clayeiness and the eligibleness happens does not hold if the Gallicness occ... | __UNKNOWN__ | DeductionInstance | the Gallicness occurs if the cybercrime happens. | [
"the cybercrime occurs.",
"if the Gallicness occurs the fact that that the clayeiness does not occur and the eligibleness occurs is not wrong is not right."
] | [
"The Gallicness occurs if a crime is committed.",
"The Gallicness occurs if there is a crime."
] |
the taboret is not endoparasitic. | sent1: the taboret is endoparasitic if the chaperon is a mildew. sent2: the fact that the taboret is not a mildew but it is endoparasitic is incorrect. sent3: there exists nothing such that it is endoparasitic and is not a kind of a methanogen. sent4: something that is not a quad is both a mildew and endoparasitic. sen... | ¬{A}{a} | sent1: {AA}{aa} -> {A}{a} sent2: ¬(¬{AA}{a} & {A}{a}) sent3: (x): ¬({A}x & ¬{AB}x) sent4: (x): ¬{C}x -> ({AA}x & {A}x) sent5: ¬{D}{a} -> ({C}{a} & ¬{B}{a}) sent6: (x): (¬{F}x & {E}x) -> ¬{D}x sent7: (x): ¬({AA}x & ¬{AB}x) sent8: ¬({AA}{aa} & ¬{AB}{aa}) sent9: ¬(¬{AA}{aa} & ¬{AB}{aa}) -> {A}{a} sent10: ¬({A}{b} & ¬{B}{b... | [
"sent14 -> int1: the fact that the chaperon is not a mildew and it is not a kind of a methanogen is not true.; sent9 & int1 -> hypothesis;"
] | DISPROVED | [
"sent14 -> int1: ¬(¬{AA}{aa} & ¬{AB}{aa}); sent9 & int1 -> hypothesis;"
] | DISPROVED | 2 | 2 | 14 | 0 | 14 | the fact that the taboret is not endoparasitic is right. | ¬{A}{a} | 7 | [
"sent16 -> int2: if the fornix is not a quad then the fact that it is a kind of endoparasitic thing that does not parley does not hold.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the taboret is not endoparasitic. ; $context$ = sent1: the taboret is endoparasitic if the chaperon is a mildew. sent2: the fact that the taboret is not a mildew but it is endoparasitic is incorrect. sent3: there exists nothing such that it is endoparasitic and is not a kind of a methanogen. sent4: somet... | sent14 -> int1: the fact that the chaperon is not a mildew and it is not a kind of a methanogen is not true.; sent9 & int1 -> hypothesis; __DISPROVED__ | DeductionInstance | there exists nothing that is not a mildew and not a methanogen. | [
"the taboret is endoparasitic if that the chaperon is not a kind of a mildew and is not a kind of a methanogen is incorrect."
] | [
"there exists nothing that is not a mildew and not a methanogen."
] |
the Split is not a tansy. | sent1: something is not an evacuation and is not Sinhala. sent2: if the fact that something is a kind of non-post-communist thing that does not serve Algren is wrong then it does serve Algren. sent3: if something is not monatomic but it serves Algren then it is a thickhead. sent4: if something does not serve Algren the... | ¬{A}{a} | sent1: (Ex): (¬{N}x & ¬{M}x) sent2: (x): ¬(¬{F}x & ¬{D}x) -> {D}x sent3: (x): (¬{E}x & {D}x) -> {C}x sent4: (x): ¬{D}x -> (¬{B}x v ¬{C}x) sent5: {I}{d} sent6: ¬{AA}{a} sent7: ({J}{d} & {I}{d}) -> ¬{H}{c} sent8: ¬({AA}{a} v ¬{AB}{a}) sent9: {J}{e} -> {J}{d} sent10: (x): (¬{N}x & ¬{M}x) -> {J}{e} sent11: (x): ¬{H}x -> {G... | [
"void -> assump1: Let's assume that the Split is a tansy.; sent13 & assump1 -> int1: the Split is a councillorship and/or it is not a kind of a humification.; int1 & sent8 -> int2: this is contradiction.; [assump1] & int2 -> hypothesis;"
] | PROVED | [
"void -> assump1: {A}{a}; sent13 & assump1 -> int1: ({AA}{a} v ¬{AB}{a}); int1 & sent8 -> int2: #F#; [assump1] & int2 -> hypothesis;"
] | PROVED | 3 | 3 | 14 | 0 | 14 | the CRP does recommend candlepins or it is not cooling or both. | ({P}{id} v ¬{JI}{id}) | 7 | [
"sent4 -> int3: if the absentee does not serve Algren then it is not unresentful or it is not a thickhead or both.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the Split is not a tansy. ; $context$ = sent1: something is not an evacuation and is not Sinhala. sent2: if the fact that something is a kind of non-post-communist thing that does not serve Algren is wrong then it does serve Algren. sent3: if something is not monatomic but it serves Algren then it is a t... | void -> assump1: Let's assume that the Split is a tansy.; sent13 & assump1 -> int1: the Split is a councillorship and/or it is not a kind of a humification.; int1 & sent8 -> int2: this is contradiction.; [assump1] & int2 -> hypothesis; __PROVED__ | DeductionInstance | the Split either is a councillorship or is not a humification or both if it is a kind of a tansy. | [
"the fact that the Split is a councillorship and/or is not a humification is not right."
] | [
"the Split either is a councillorship or is not a humification or both if it is a kind of a tansy."
] |
the rigout is not non-neolithic. | sent1: the rigout is not neolithic if the niqab speculates but it is not neolithic. sent2: if the almsgiver is a instillator then the rigout is neolithic. sent3: the niqab is a recitative. sent4: if the almsgiver is a kind of a recitative then the niqab speculates but it is not neolithic. sent5: there is something such... | {D}{c} | sent1: ({A}{a} & ¬{D}{a}) -> ¬{D}{c} sent2: {C}{b} -> {D}{c} sent3: {B}{a} sent4: {B}{b} -> ({A}{a} & ¬{D}{a}) sent5: (Ex): ({D}x & {A}x) sent6: {A}{a} | [
"sent6 & sent3 -> int1: the niqab speculates and is a kind of a recitative.; int1 -> int2: something speculates and is a recitative.;"
] | UNKNOWN | [
"sent6 & sent3 -> int1: ({A}{a} & {B}{a}); int1 -> int2: (Ex): ({A}x & {B}x);"
] | UNKNOWN | 4 | null | 3 | 0 | 3 | the rigout is not neolithic. | ¬{D}{c} | 6 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the rigout is not non-neolithic. ; $context$ = sent1: the rigout is not neolithic if the niqab speculates but it is not neolithic. sent2: if the almsgiver is a instillator then the rigout is neolithic. sent3: the niqab is a recitative. sent4: if the almsgiver is a kind of a recitative then the niqab spec... | __UNKNOWN__ | DeductionInstance | the niqab does speculate. | [
"the niqab is a recitative."
] | [
"the niqab does speculate."
] |
the backpacking gamboge occurs. | sent1: the bridle does not occur. sent2: the tip-off does not occur if that that the unperceptiveness and the tip-off happens is not incorrect does not hold. sent3: that both the unperceptiveness and the tip-off occurs is not correct if the chance-medley does not occur. sent4: if the extradition does not occur the gamb... | {B} | sent1: ¬{IH} sent2: ¬({K} & {J}) -> ¬{J} sent3: ¬{L} -> ¬({K} & {J}) sent4: ¬{DK} -> ¬{EA} sent5: ({E} & ¬{D}) -> ¬{C} sent6: {H} -> (¬{F} & ¬{G}) sent7: ¬{A} -> ¬{AB} sent8: ¬{GT} -> ¬{AP} sent9: ¬{ET} sent10: ¬{J} -> ({I} & {H}) sent11: ¬{C} -> (¬{A} & ¬{B}) sent12: ¬{R} -> ({Q} & ¬{P}) sent13: {AA} -> {B} sent14: ({... | [
"sent16 & sent20 -> int1: the cuckoldry but not the tolerance happens.; int1 -> int2: the cuckoldry happens.; sent13 & int2 -> hypothesis;"
] | PROVED | [
"sent16 & sent20 -> int1: ({AA} & ¬{AB}); int1 -> int2: {AA}; sent13 & int2 -> hypothesis;"
] | PROVED | 3 | 3 | 18 | 0 | 18 | the backpacking gamboge does not occur. | ¬{B} | 17 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the backpacking gamboge occurs. ; $context$ = sent1: the bridle does not occur. sent2: the tip-off does not occur if that that the unperceptiveness and the tip-off happens is not incorrect does not hold. sent3: that both the unperceptiveness and the tip-off occurs is not correct if the chance-medley does... | sent16 & sent20 -> int1: the cuckoldry but not the tolerance happens.; int1 -> int2: the cuckoldry happens.; sent13 & int2 -> hypothesis; __PROVED__ | DeductionInstance | if that the recommending timer does not occur is true the cuckoldry but not the tolerance occurs. | [
"the recommending timer does not occur.",
"that the backpacking gamboge does not occur is prevented by the cuckoldry."
] | [
"The recommendation timer is true if it doesn't happen, but not the tolerance.",
"The recommendation timer isn't true if it doesn't happen."
] |
there exists something such that if the fact that it does not recommend collect and it is a holocephalan is not correct then it shags. | sent1: if that something does recommend collect and is a holocephalan is incorrect it is a shag. sent2: if the anteater does not recommend collect but it is a holocephalan then it is a shag. sent3: the anteater shags if it is not a holocephalan. sent4: something recommends Lanai if that it is not a kind of a isogram an... | (Ex): ¬(¬{AA}x & {AB}x) -> {B}x | sent1: (x): ¬({AA}x & {AB}x) -> {B}x sent2: (¬{AA}{aa} & {AB}{aa}) -> {B}{aa} sent3: ¬{AB}{aa} -> {B}{aa} sent4: (x): ¬(¬{GL}x & {AK}x) -> {DH}x sent5: (x): ¬{AB}x -> {B}x sent6: (Ex): (¬{AA}x & {AB}x) -> {B}x sent7: (Ex): ¬{AB}x -> {B}x sent8: ¬({AA}{aa} & {AB}{aa}) -> {B}{aa} sent9: (x): (¬{AA}x & {AB}x) -> {B}x sent... | [
"sent13 -> int1: the anteater is a kind of a shag if that the fact that it does not recommend collect and is a holocephalan hold is false.; int1 -> hypothesis;"
] | PROVED | [
"sent13 -> int1: ¬(¬{AA}{aa} & {AB}{aa}) -> {B}{aa}; int1 -> hypothesis;"
] | PROVED | 2 | 2 | 12 | 0 | 12 | null | null | null | [] | null | null | $hypothesis$ = there exists something such that if the fact that it does not recommend collect and it is a holocephalan is not correct then it shags. ; $context$ = sent1: if that something does recommend collect and is a holocephalan is incorrect it is a shag. sent2: if the anteater does not recommend collect but it is... | sent13 -> int1: the anteater is a kind of a shag if that the fact that it does not recommend collect and is a holocephalan hold is false.; int1 -> hypothesis; __PROVED__ | DeductionInstance | the fact that if that something does not recommend collect and is a holocephalan is not correct that it is a shag is not false is correct. | [] | [
"the fact that if that something does not recommend collect and is a holocephalan is not correct that it is a shag is not false is correct."
] |
the fact that the lifeboat is not a kind of a peculiarity but it is Melanesian is not true. | sent1: if the chit serves entreaty the lifeboat does not serve Methodist. sent2: if the chit does perch it is not a show-stopper and is a phosphor. sent3: the wisteria is a Pompadour. sent4: if something that is not a kind of a show-stopper is a phosphor then it serves entreaty. sent5: if the dominance does not perch t... | ¬(¬{C}{a} & {D}{a}) | sent1: {B}{aa} -> ¬{A}{a} sent2: {E}{aa} -> (¬{AA}{aa} & {AB}{aa}) sent3: {F}{d} sent4: (x): (¬{AA}x & {AB}x) -> {B}x sent5: ¬{E}{c} -> ({A}{b} & ¬{B}{b}) sent6: (x): ¬{A}x -> ¬(¬{C}x & {D}x) | [
"sent4 -> int1: the chit does serve entreaty if it is both not a show-stopper and a phosphor.; sent6 -> int2: the fact that the lifeboat is not a peculiarity but it is Melanesian does not hold if it does not serve Methodist.;"
] | UNKNOWN | [
"sent4 -> int1: (¬{AA}{aa} & {AB}{aa}) -> {B}{aa}; sent6 -> int2: ¬{A}{a} -> ¬(¬{C}{a} & {D}{a});"
] | UNKNOWN | 4 | null | 2 | 0 | 2 | the lifeboat is not a kind of a peculiarity and is Melanesian. | (¬{C}{a} & {D}{a}) | 7 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the fact that the lifeboat is not a kind of a peculiarity but it is Melanesian is not true. ; $context$ = sent1: if the chit serves entreaty the lifeboat does not serve Methodist. sent2: if the chit does perch it is not a show-stopper and is a phosphor. sent3: the wisteria is a Pompadour. sent4: if somet... | __UNKNOWN__ | DeductionInstance | if something that is not a kind of a show-stopper is a phosphor then it serves entreaty. | [
"that something is not a kind of a peculiarity and is Melanesian is not correct if it does not serve Methodist."
] | [
"if something that is not a kind of a show-stopper is a phosphor then it serves entreaty."
] |
the tendergreen is not arborical. | sent1: the anchorite does recommend electroencephalogram or is not a betrayal or both. sent2: the henbane is inferential. sent3: if the fact that something is not a kind of a bubo but it boats camail does not hold it is a blasphemy. sent4: something is a blasphemy. sent5: if the Caliphate is bicapsular then the henbane... | ¬{B}{aa} | sent1: ({AB}{is} v ¬{FB}{is}) sent2: {E}{b} sent3: (x): ¬(¬{C}x & {D}x) -> {A}x sent4: (Ex): {A}x sent5: {G}{c} -> {F}{b} sent6: (x): {GU}x -> ({FL}{aa} v ¬{GP}{aa}) sent7: ¬{AB}{gg} sent8: {G}{c} sent9: (x): {A}x -> ({AA}{aa} v ¬{AB}{aa}) sent10: (x): ({AA}x v ¬{AB}x) -> ¬{B}x sent11: (x): {A}x -> {B}x sent12: (x): {A... | [
"sent10 -> int1: the fact that the tendergreen is not arborical if the tendergreen is buccal and/or it does not recommend electroencephalogram is right.; sent4 & sent9 -> int2: the tendergreen is buccal and/or it does not recommend electroencephalogram.; int1 & int2 -> hypothesis;"
] | PROVED | [
"sent10 -> int1: ({AA}{aa} v ¬{AB}{aa}) -> ¬{B}{aa}; sent4 & sent9 -> int2: ({AA}{aa} v ¬{AB}{aa}); int1 & int2 -> hypothesis;"
] | PROVED | 2 | 2 | 9 | 0 | 9 | the tendergreen is arborical. | {B}{aa} | 8 | [
"sent11 -> int3: if the tendergreen is a kind of a blasphemy it is arborical.; sent3 -> int4: the tendergreen is a kind of a blasphemy if that it is not a bubo and boats camail is wrong.; sent5 & sent8 -> int5: that the henbane serves VLF is correct.; sent2 & int5 -> int6: that the henbane is not non-inferential an... | UNKNOWN | UNKNOWN | $hypothesis$ = the tendergreen is not arborical. ; $context$ = sent1: the anchorite does recommend electroencephalogram or is not a betrayal or both. sent2: the henbane is inferential. sent3: if the fact that something is not a kind of a bubo but it boats camail does not hold it is a blasphemy. sent4: something is a bl... | sent10 -> int1: the fact that the tendergreen is not arborical if the tendergreen is buccal and/or it does not recommend electroencephalogram is right.; sent4 & sent9 -> int2: the tendergreen is buccal and/or it does not recommend electroencephalogram.; int1 & int2 -> hypothesis; __PROVED__ | DeductionInstance | if something is buccal and/or it does not recommend electroencephalogram then it is not arborical. | [
"something is a blasphemy.",
"the tendergreen either is buccal or does not recommend electroencephalogram or both if something is a blasphemy."
] | [
"If something is buccal then it is not arborical.",
"If something is buccal it is not arborical."
] |
the handhold is a quad. | sent1: if the fact that the handhold is not gymnastics is not false it is a prosperity and it does grin. sent2: the handhold does grin. sent3: the handhold is not gymnastics. sent4: the handhold grins if it is not gymnastics. sent5: if something is a prosperity it is a kind of a quad. | {B}{a} | sent1: ¬{A}{a} -> ({AA}{a} & {AB}{a}) sent2: {AB}{a} sent3: ¬{A}{a} sent4: ¬{A}{a} -> {AB}{a} sent5: (x): {AA}x -> {B}x | [
"sent1 & sent3 -> int1: the handhold is a prosperity and it grins.; int1 -> int2: the handhold is a prosperity.; sent5 -> int3: the handhold is a quad if it is a prosperity.; int2 & int3 -> hypothesis;"
] | PROVED | [
"sent1 & sent3 -> int1: ({AA}{a} & {AB}{a}); int1 -> int2: {AA}{a}; sent5 -> int3: {AA}{a} -> {B}{a}; int2 & int3 -> hypothesis;"
] | PROVED | 3 | 3 | 2 | 0 | 2 | null | null | null | [] | null | null | $hypothesis$ = the handhold is a quad. ; $context$ = sent1: if the fact that the handhold is not gymnastics is not false it is a prosperity and it does grin. sent2: the handhold does grin. sent3: the handhold is not gymnastics. sent4: the handhold grins if it is not gymnastics. sent5: if something is a prosperity it is... | sent1 & sent3 -> int1: the handhold is a prosperity and it grins.; int1 -> int2: the handhold is a prosperity.; sent5 -> int3: the handhold is a quad if it is a prosperity.; int2 & int3 -> hypothesis; __PROVED__ | DeductionInstance | if the fact that the handhold is not gymnastics is not false it is a prosperity and it does grin. | [
"the handhold is not gymnastics.",
"if something is a prosperity it is a kind of a quad."
] | [
"It is a prosperity if the hand hold is not gymnastics.",
"It is a prosperity if the handhold is not gymnastics."
] |
the councilwoman does not backpack mummy. | sent1: the councilwoman is not a stern if there exists something such that that it is seamless and/or is navigational does not hold. sent2: something is not bacteroidal if it is a kind of a stern. sent3: the Casanova does not boat requested. sent4: if the fact that the councilwoman does backpack mummy hold it does boat... | ¬{A}{a} | sent1: (x): ¬({H}x v {G}x) -> ¬{F}{a} sent2: (x): {F}x -> ¬{E}x sent3: ¬{B}{gg} sent4: {A}{a} -> {B}{a} sent5: (x): {C}x -> ¬{B}{a} sent6: (Ex): {A}x sent7: (x): ¬{H}x -> ({F}x v {G}x) sent8: (x): {G}x -> ¬{E}x sent9: {JH}{a} sent10: {U}{a} sent11: {DQ}{a} -> {B}{a} sent12: {H}{a} -> {HA}{a} sent13: ¬{GP}{a} sent14: (E... | [
"void -> assump1: Let's assume that the councilwoman does backpack mummy.; sent4 & assump1 -> int1: the councilwoman boats requested.; sent14 & sent5 -> int2: the councilwoman does not boat requested.; int1 & int2 -> int3: this is contradiction.; [assump1] & int3 -> hypothesis;"
] | PROVED | [
"void -> assump1: {A}{a}; sent4 & assump1 -> int1: {B}{a}; sent14 & sent5 -> int2: ¬{B}{a}; int1 & int2 -> int3: #F#; [assump1] & int3 -> hypothesis;"
] | PROVED | 3 | 3 | 18 | 0 | 18 | the mummy does not boat requested. | ¬{B}{ff} | 6 | [
"sent20 -> int4: if the mummy is not tolerant and does not backpack mummy then that it does not boat requested hold.; sent17 & sent1 -> int5: the councilwoman is not a stern.; int5 -> int6: something is not a stern.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the councilwoman does not backpack mummy. ; $context$ = sent1: the councilwoman is not a stern if there exists something such that that it is seamless and/or is navigational does not hold. sent2: something is not bacteroidal if it is a kind of a stern. sent3: the Casanova does not boat requested. sent4: ... | void -> assump1: Let's assume that the councilwoman does backpack mummy.; sent4 & assump1 -> int1: the councilwoman boats requested.; sent14 & sent5 -> int2: the councilwoman does not boat requested.; int1 & int2 -> int3: this is contradiction.; [assump1] & int3 -> hypothesis; __PROVED__ | DeductionInstance | if the fact that the councilwoman does backpack mummy hold it does boat requested. | [
"there exists something such that that it is tolerant is right.",
"if something is tolerant then the councilwoman does not boat requested."
] | [
"The councilwoman has a backpack mummy hold.",
"The boat was requested if the councilwoman has a backpack mummy hold."
] |
the fact that there exists something such that if it is a kind of a throne then the fact that it does not backpack tetranychid and it is coccal does not hold is wrong. | sent1: that something does not serve Nergal and is coccal does not hold if it does serve caustic. sent2: there exists something such that if it is a throne then the fact that it does not backpack tetranychid and is coccal is true. sent3: there is something such that if it does throne the fact that that it does backpack... | ¬((Ex): {A}x -> ¬(¬{AA}x & {AB}x)) | sent1: (x): {EK}x -> ¬(¬{Q}x & {AB}x) sent2: (Ex): {A}x -> (¬{AA}x & {AB}x) sent3: (Ex): {A}x -> ¬({AA}x & {AB}x) sent4: (Ex): {HM}x -> ¬(¬{EJ}x & {GM}x) sent5: (Ex): {GH}x -> ¬(¬{BK}x & {BO}x) sent6: {A}{aa} -> ¬({AA}{aa} & {AB}{aa}) sent7: (x): {BS}x -> ¬(¬{AB}x & {IK}x) sent8: {GG}{gt} -> ¬(¬{DD}{gt} & {A}{gt}) sent... | [
"sent9 -> hypothesis;"
] | DISPROVED | [
"sent9 -> hypothesis;"
] | DISPROVED | 1 | 1 | 9 | 0 | 9 | that the longbow is a kind of non-coccal an adder does not hold if it is a Siluridae. | {BS}{dj} -> ¬(¬{AB}{dj} & {IK}{dj}) | 1 | [
"sent7 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = the fact that there exists something such that if it is a kind of a throne then the fact that it does not backpack tetranychid and it is coccal does not hold is wrong. ; $context$ = sent1: that something does not serve Nergal and is coccal does not hold if it does serve caustic. sent2: there exists somet... | sent9 -> hypothesis; __DISPROVED__ | DeductionInstance | the fact that the caustic does not backpack tetranychid and is coccal is not true if it thrones. | [] | [
"the fact that the caustic does not backpack tetranychid and is coccal is not true if it thrones."
] |
the traverser is a Ottumwa. | sent1: the fact that the traverser is not a latest is true if something is a proctoscopy and it is a crater. sent2: the traverser is not a kind of a proctoscopy. sent3: something is a redistribution and it is a psychodid. sent4: the traverser does not recommend packinghouse. sent5: the fact that the anteater is not a O... | {D}{a} | sent1: (x): ({A}x & {B}x) -> ¬{C}{a} sent2: ¬{A}{a} sent3: (Ex): ({HJ}x & {FS}x) sent4: ¬{ET}{a} sent5: ¬{D}{ac} sent6: (Ex): {HF}x sent7: (Ex): ({BU}x & {IT}x) sent8: ¬{DU}{a} sent9: ¬{D}{dq} sent10: ¬{BL}{a} sent11: (Ex): {JB}x sent12: (x): ¬{C}x -> ¬{D}x sent13: (Ex): {IC}x sent14: ¬{IC}{a} sent15: ¬{D}{fg} sent16: ... | [
"sent21 & sent1 -> int1: the traverser is not a latest.; sent12 -> int2: the fact that the traverser is not the Ottumwa if the traverser is not a latest hold.; int1 & int2 -> hypothesis;"
] | DISPROVED | [
"sent21 & sent1 -> int1: ¬{C}{a}; sent12 -> int2: ¬{C}{a} -> ¬{D}{a}; int1 & int2 -> hypothesis;"
] | DISPROVED | 2 | 2 | 19 | 0 | 19 | null | null | null | [] | null | null | $hypothesis$ = the traverser is a Ottumwa. ; $context$ = sent1: the fact that the traverser is not a latest is true if something is a proctoscopy and it is a crater. sent2: the traverser is not a kind of a proctoscopy. sent3: something is a redistribution and it is a psychodid. sent4: the traverser does not recommend p... | sent21 & sent1 -> int1: the traverser is not a latest.; sent12 -> int2: the fact that the traverser is not the Ottumwa if the traverser is not a latest hold.; int1 & int2 -> hypothesis; __DISPROVED__ | DeductionInstance | something is a proctoscopy that is a crater. | [
"the fact that the traverser is not a latest is true if something is a proctoscopy and it is a crater.",
"something is not a Ottumwa if it is not a kind of a latest."
] | [
"There is a crater.",
"A proctoscopy is a crater."
] |
the fact that the fact that the chromatography companies but it is not a doctor is not true is correct. | sent1: if the skink does recommend coating but it is not intradermal the chromatography does recommend coating. sent2: if the chromatography is a company and not a doctor then the skink is not intradermal. sent3: if the fact that the kohl is a kind of non-intradermal thing that does not recommend coating is right then ... | ¬({AA}{a} & ¬{AB}{a}) | sent1: ({A}{b} & ¬{B}{b}) -> {A}{a} sent2: ({AA}{a} & ¬{AB}{a}) -> ¬{B}{b} sent3: (¬{B}{c} & ¬{A}{c}) -> {B}{b} sent4: (x): {H}x -> ¬(¬{F}x v {G}x) sent5: (¬{B}{c} & {A}{c}) -> {B}{b} sent6: ¬{D}{c} -> ¬{C}{b} sent7: (x): {H}x sent8: ¬(¬{F}{e} v {G}{e}) -> ¬{D}{d} sent9: (x): {A}x -> ¬({EO}x & ¬{IO}x) sent10: ¬({A}{a} ... | [
"void -> assump1: Let's assume that the chromatography companies but it is not a doctor.; sent2 & assump1 -> int1: the skink is not intradermal.; sent3 & sent17 -> int2: the skink is intradermal.; int1 & int2 -> int3: this is contradiction.; [assump1] & int3 -> hypothesis;"
] | PROVED | [
"void -> assump1: ({AA}{a} & ¬{AB}{a}); sent2 & assump1 -> int1: ¬{B}{b}; sent3 & sent17 -> int2: {B}{b}; int1 & int2 -> int3: #F#; [assump1] & int3 -> hypothesis;"
] | PROVED | 3 | 3 | 17 | 0 | 17 | the chromatography is a company but it is not a doctor. | ({AA}{a} & ¬{AB}{a}) | 11 | [
"sent12 -> int4: the chromatography is a company that is not a doctor if that it recommends coating is correct.; sent7 -> int5: the obturator is a waterfall.; sent4 -> int6: if the obturator is a waterfall that it is either not a judgeship or a knotgrass or both does not hold.; int5 & int6 -> int7: the fact that th... | UNKNOWN | UNKNOWN | $hypothesis$ = the fact that the fact that the chromatography companies but it is not a doctor is not true is correct. ; $context$ = sent1: if the skink does recommend coating but it is not intradermal the chromatography does recommend coating. sent2: if the chromatography is a company and not a doctor then the skink i... | void -> assump1: Let's assume that the chromatography companies but it is not a doctor.; sent2 & assump1 -> int1: the skink is not intradermal.; sent3 & sent17 -> int2: the skink is intradermal.; int1 & int2 -> int3: this is contradiction.; [assump1] & int3 -> hypothesis; __PROVED__ | DeductionInstance | if the chromatography is a company and not a doctor then the skink is not intradermal. | [
"if the fact that the kohl is a kind of non-intradermal thing that does not recommend coating is right then the skink is non-intradermal.",
"the kohl is not intradermal and does not recommend coating."
] | [
"The skink is not a part of the body if the company is not a doctor.",
"The skink is not a part of the body if it is a company and not a doctor."
] |
the phenazopyridine is unpriestly. | sent1: the dacryocyst is both non-sexagesimal and bounded. sent2: that the pad is certain thing that does not recommend adz is not true if it carries. sent3: if the fact that the dacryocyst does boat Lyra but it is not unpriestly is not correct the phenazopyridine is unpriestly. sent4: the dacryocyst recommends adz. se... | {E}{b} | sent1: (¬{CO}{a} & {EO}{a}) sent2: {D}{d} -> ¬({B}{d} & ¬{C}{d}) sent3: ¬({A}{a} & ¬{E}{a}) -> {E}{b} sent4: {C}{a} sent5: (¬{I}{e} & ¬{J}{e}) sent6: (x): {A}x -> (¬{B}{a} & {C}{a}) sent7: (x): {CS}x -> {AE}{ac} sent8: (x): {JA}x -> {E}{b} sent9: (Ex): {A}x sent10: (x): {GJ}x -> {GB}{a} sent11: (Ex): {B}x sent12: (¬{B}... | [
"sent9 & sent6 -> int1: the dacryocyst is not certain and recommends adz.; int1 & sent12 -> int2: the phenazopyridine is not a carry.; sent14 -> int3: the phenazopyridine is not unpriestly if it is not a kind of a carry.; int2 & int3 -> hypothesis;"
] | DISPROVED | [
"sent9 & sent6 -> int1: (¬{B}{a} & {C}{a}); int1 & sent12 -> int2: ¬{D}{b}; sent14 -> int3: ¬{D}{b} -> ¬{E}{b}; int2 & int3 -> hypothesis;"
] | DISPROVED | 3 | 3 | 13 | 0 | 13 | the phenazopyridine is unpriestly. | {E}{b} | 10 | [
"sent5 -> int4: something is not a radio and it is not a kind of a hypertrophy.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the phenazopyridine is unpriestly. ; $context$ = sent1: the dacryocyst is both non-sexagesimal and bounded. sent2: that the pad is certain thing that does not recommend adz is not true if it carries. sent3: if the fact that the dacryocyst does boat Lyra but it is not unpriestly is not correct the phenazo... | sent9 & sent6 -> int1: the dacryocyst is not certain and recommends adz.; int1 & sent12 -> int2: the phenazopyridine is not a carry.; sent14 -> int3: the phenazopyridine is not unpriestly if it is not a kind of a carry.; int2 & int3 -> hypothesis; __DISPROVED__ | DeductionInstance | there is something such that it boats Lyra. | [
"the dacryocyst is non-certain thing that recommends adz if there is something such that the fact that it boats Lyra is not false.",
"if the dacryocyst is a kind of non-certain thing that recommends adz the phenazopyridine is not a kind of a carry.",
"something is not unpriestly if it does not carry."
] | [
"There is something that boats Lyra, that's what SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA is SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA SALVAGEDATA ... |
the pincer is antiquarian. | sent1: the fact that the centrosome is not a subscript but it is a kind of an octagon is not true. sent2: if that the centrosome is not subscript and not an octagon is false the pincer is antiquarian. sent3: the presbytery is not stereoscopic and does not leapfrog. sent4: the presbytery is subscript. sent5: if the pres... | {D}{c} | sent1: ¬(¬{C}{b} & {A}{b}) sent2: ¬(¬{C}{b} & ¬{A}{b}) -> {D}{c} sent3: (¬{AA}{a} & ¬{AB}{a}) sent4: {C}{a} sent5: (¬{AA}{a} & ¬{AB}{a}) -> ¬{B}{a} sent6: {C}{c} sent7: ¬{AA}{a} -> ¬({C}{b} & ¬{D}{b}) sent8: ¬(¬{B}{b} & ¬{A}{b}) sent9: (¬{D}{a} & ¬{GO}{a}) sent10: {C}{a} -> {AA}{b} sent11: (¬{C}{a} & {E}{a}) -> {B}{c} ... | [
"sent5 & sent3 -> int1: the presbytery is not a kind of a banderillero.; sent12 & int1 -> int2: that the centrosome is not a subscript and is not an octagon is false.; sent2 & int2 -> hypothesis;"
] | PROVED | [
"sent5 & sent3 -> int1: ¬{B}{a}; sent12 & int1 -> int2: ¬(¬{C}{b} & ¬{A}{b}); sent2 & int2 -> hypothesis;"
] | PROVED | 3 | 3 | 9 | 0 | 9 | the fact that the pincer is non-antiquarian hold. | ¬{D}{c} | 5 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the pincer is antiquarian. ; $context$ = sent1: the fact that the centrosome is not a subscript but it is a kind of an octagon is not true. sent2: if that the centrosome is not subscript and not an octagon is false the pincer is antiquarian. sent3: the presbytery is not stereoscopic and does not leapfrog... | sent5 & sent3 -> int1: the presbytery is not a kind of a banderillero.; sent12 & int1 -> int2: that the centrosome is not a subscript and is not an octagon is false.; sent2 & int2 -> hypothesis; __PROVED__ | DeductionInstance | if the presbytery is non-stereoscopic thing that does not leapfrog then it is not a kind of a banderillero. | [
"the presbytery is not stereoscopic and does not leapfrog.",
"if the presbytery is not a kind of a banderillero then the fact that the centrosome is non-subscript thing that is not an octagon is not true.",
"if that the centrosome is not subscript and not an octagon is false the pincer is antiquarian."
] | [
"The presbytery is not a kind of banderillero if it is non-stereoscopic.",
"Thepresbytery is not a kind of banderillero if it is non-stereoscopic.",
"The presbytery is not a banderillero if it is non-stereoscopic."
] |
the fact that not the wafting but the unpermissiveness occurs is not correct. | sent1: the boating mealberry does not occur but the recommending lurker occurs if the scowling does not occur. sent2: that both the unpermissiveness and the indexicalness occurs is triggered by that the serving cockfight does not occur. sent3: the fact that the wafting does not occur but the unpermissiveness occurs is ... | ¬(¬{C} & {D}) | sent1: ¬{J} -> (¬{H} & {I}) sent2: ¬{F} -> ({D} & {E}) sent3: {A} -> ¬(¬{C} & {D}) sent4: {F} -> {E} sent5: ¬{O} -> ({M} & {N}) sent6: ¬{A} sent7: (¬{K} & ¬{L}) -> ¬{J} sent8: (¬{A} & {B}) -> ¬{C} sent9: {M} -> (¬{K} & ¬{L}) sent10: ¬{H} -> ({F} & {G}) sent11: {B} sent12: ¬{F} | [
"sent6 & sent11 -> int1: both the non-inharmoniousness and the will-o'-the-wisp occurs.; int1 & sent8 -> int2: the wafting does not occur.; sent2 & sent12 -> int3: both the unpermissiveness and the indexicalness occurs.; int3 -> int4: the unpermissiveness occurs.; int2 & int4 -> hypothesis;"
] | DISPROVED | [
"sent6 & sent11 -> int1: (¬{A} & {B}); int1 & sent8 -> int2: ¬{C}; sent2 & sent12 -> int3: ({D} & {E}); int3 -> int4: {D}; int2 & int4 -> hypothesis;"
] | DISPROVED | 3 | 3 | 7 | 0 | 7 | the fact that the wafting does not occur but the unpermissiveness happens does not hold. | ¬(¬{C} & {D}) | 12 | [] | UNKNOWN | UNKNOWN | $hypothesis$ = the fact that not the wafting but the unpermissiveness occurs is not correct. ; $context$ = sent1: the boating mealberry does not occur but the recommending lurker occurs if the scowling does not occur. sent2: that both the unpermissiveness and the indexicalness occurs is triggered by that the serving co... | sent6 & sent11 -> int1: both the non-inharmoniousness and the will-o'-the-wisp occurs.; int1 & sent8 -> int2: the wafting does not occur.; sent2 & sent12 -> int3: both the unpermissiveness and the indexicalness occurs.; int3 -> int4: the unpermissiveness occurs.; int2 & int4 -> hypothesis; __DISPROVED__ | DeductionInstance | the inharmoniousness does not occur. | [
"the will-o'-the-wisp happens.",
"that the wafting does not occur is triggered by that not the inharmoniousness but the will-o'-the-wisp occurs.",
"that both the unpermissiveness and the indexicalness occurs is triggered by that the serving cockfight does not occur.",
"the serving cockfight does not occur."
] | [
"There is no inharmoniousness.",
"The inharmoniousness doesn't happen.",
"The in harmoniousness doesn't happen.",
"The inharmoniousness does not happen."
] |
there is something such that if it does not backpack ancestor and it is cervine then it is a hussar. | sent1: if something is both not a webpage and bivalent then the fact that it is a hussar hold. sent2: the weather is a kind of a hussar if it is not a Toyohashi and it is dramatic. sent3: there is something such that if it is a Muscovite and does twig it does recommend remainder. sent4: there exists something such that... | (Ex): (¬{AA}x & {AB}x) -> {B}x | sent1: (x): (¬{GI}x & {FH}x) -> {B}x sent2: (¬{EO}{aa} & {E}{aa}) -> {B}{aa} sent3: (Ex): ({IT}x & {IR}x) -> {HH}x sent4: (Ex): ({GQ}x & {EO}x) -> {K}x sent5: (¬{AA}{aa} & {AB}{aa}) -> {B}{aa} | [
"sent5 -> hypothesis;"
] | PROVED | [
"sent5 -> hypothesis;"
] | PROVED | 1 | 1 | 4 | 0 | 4 | the weather is a kind of a hussar if it is not a webpage and is bivalent. | (¬{GI}{aa} & {FH}{aa}) -> {B}{aa} | 1 | [
"sent1 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = there is something such that if it does not backpack ancestor and it is cervine then it is a hussar. ; $context$ = sent1: if something is both not a webpage and bivalent then the fact that it is a hussar hold. sent2: the weather is a kind of a hussar if it is not a Toyohashi and it is dramatic. sent3: th... | sent5 -> hypothesis; __PROVED__ | DeductionInstance | if the weather does not backpack ancestor but it is cervine it is a hussar. | [] | [
"if the weather does not backpack ancestor but it is cervine it is a hussar."
] |
the Beguine does backpack wood. | sent1: there exists something such that it does not throng. sent2: the fact that the Beguine does not backpack wood hold if that the loaner is not custard-like but it is a kind of a calceus is not right. sent3: if the loaner is not a deportation then that it is both not a homo and mechanical is false. sent4: that somet... | {B}{b} | sent1: (Ex): ¬{Q}x sent2: ¬(¬{AA}{a} & {AB}{a}) -> ¬{B}{b} sent3: ¬{HN}{a} -> ¬(¬{AE}{a} & {JI}{a}) sent4: (x): ¬({G}x & ¬{E}x) -> {E}x sent5: (x): ¬{O}x -> (¬{N}x & {M}x) sent6: (x): ¬{H}x -> (¬{F}x & {I}x) sent7: ¬({Q}{e} & {P}{e}) -> ¬{O}{e} sent8: ¬{F}{c} -> ¬({G}{a} & ¬{E}{a}) sent9: ¬{A}{a} -> ¬(¬{AA}{a} & {AB}{a... | [
"sent9 & sent15 -> int1: that the loaner is non-custard-like thing that is a kind of a calceus does not hold.; sent2 & int1 -> hypothesis;"
] | DISPROVED | [
"sent9 & sent15 -> int1: ¬(¬{AA}{a} & {AB}{a}); sent2 & int1 -> hypothesis;"
] | DISPROVED | 2 | 2 | 19 | 0 | 19 | that the Beguine is both not a calceus and a cutlassfish does not hold. | ¬(¬{AB}{b} & {DU}{b}) | 6 | [
"sent14 -> int2: if the Beguine recommends manipulation the fact that it is not a calceus and it is a cutlassfish is false.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the Beguine does backpack wood. ; $context$ = sent1: there exists something such that it does not throng. sent2: the fact that the Beguine does not backpack wood hold if that the loaner is not custard-like but it is a kind of a calceus is not right. sent3: if the loaner is not a deportation then that it ... | sent9 & sent15 -> int1: that the loaner is non-custard-like thing that is a kind of a calceus does not hold.; sent2 & int1 -> hypothesis; __DISPROVED__ | DeductionInstance | if the loaner does not recommend manipulation the fact that it is a kind of non-custard-like a calceus does not hold. | [
"that the loaner does not recommend manipulation hold.",
"the fact that the Beguine does not backpack wood hold if that the loaner is not custard-like but it is a kind of a calceus is not right."
] | [
"If the loaner doesn't recommend manipulation, it's like a calceus doesn't hold.",
"If the loaner doesn't recommend manipulation, it is like a calceus doesn't hold."
] |
the carapace is not a kind of a Zinjanthropus. | sent1: the carapace is cosmologic if the bangle is a Zinjanthropus. sent2: if the demonstrator is cosmologic the carapace is a Zinjanthropus. sent3: the demonstrator backpacks carapace and is a kind of a Zinjanthropus. sent4: the fact that the carapace does backpack carapace if the demonstrator is a kind of a Zinjanthr... | ¬{C}{b} | sent1: {C}{cb} -> {B}{b} sent2: {B}{a} -> {C}{b} sent3: ({A}{a} & {C}{a}) sent4: {C}{a} -> {A}{b} sent5: {GM}{a} sent6: ({C}{a} & {A}{a}) sent7: {A}{gg} sent8: {BQ}{b} sent9: ({IE}{m} & {FF}{m}) sent10: ({G}{c} & {F}{c}) sent11: {A}{gs} sent12: {B}{b} -> {C}{a} sent13: ({A}{a} & {B}{a}) sent14: {F}{c} -> ¬(¬{D}{c} & {E... | [
"sent13 -> int1: the demonstrator is cosmologic.; sent2 & int1 -> hypothesis;"
] | DISPROVED | [
"sent13 -> int1: {B}{a}; sent2 & int1 -> hypothesis;"
] | DISPROVED | 2 | 2 | 18 | 0 | 18 | the carapace is not a Zinjanthropus. | ¬{C}{b} | 7 | [
"sent18 -> int2: if the fact that the SOD is a kind of non-monophonic a top does not hold then it does not backpack carapace.; sent10 -> int3: the SOD is a desalination.; sent14 & int3 -> int4: that the SOD is both not monophonic and top does not hold.; int2 & int4 -> int5: the SOD does not backpack carapace.; int5... | UNKNOWN | UNKNOWN | $hypothesis$ = the carapace is not a kind of a Zinjanthropus. ; $context$ = sent1: the carapace is cosmologic if the bangle is a Zinjanthropus. sent2: if the demonstrator is cosmologic the carapace is a Zinjanthropus. sent3: the demonstrator backpacks carapace and is a kind of a Zinjanthropus. sent4: the fact that the ... | sent13 -> int1: the demonstrator is cosmologic.; sent2 & int1 -> hypothesis; __DISPROVED__ | DeductionInstance | the demonstrator does backpack carapace and it is cosmologic. | [
"if the demonstrator is cosmologic the carapace is a Zinjanthropus."
] | [
"the demonstrator does backpack carapace and it is cosmologic."
] |
the swimmer recommends atomism. | sent1: the Sunnite is both an episteme and a lambdacism. sent2: something is an episteme and a lambdacism if it does not recommend atomism. | {C}{b} | sent1: ({A}{a} & {B}{a}) sent2: (x): ¬{C}x -> ({A}x & {B}x) | [
"sent1 -> int1: the Sunnite is a lambdacism.;"
] | UNKNOWN | [
"sent1 -> int1: {B}{a};"
] | UNKNOWN | 2 | null | 1 | 0 | 1 | the notebook is an episteme. | {A}{ef} | 5 | [
"sent2 -> int2: the notebook is an episteme and is a lambdacism if it does not recommend atomism.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the swimmer recommends atomism. ; $context$ = sent1: the Sunnite is both an episteme and a lambdacism. sent2: something is an episteme and a lambdacism if it does not recommend atomism. ; $proof$ = | __UNKNOWN__ | DeductionInstance | the Sunnite is both an episteme and a lambdacism. | [] | [
"the Sunnite is both an episteme and a lambdacism."
] |
the dairymaid does not recommend sassaby. | sent1: something serves childishness. sent2: the fact that the silverspot does recommend clearway is correct if it does stagger. sent3: the silverspot does not recommend kestrel. sent4: if there exists something such that it does not serve childishness then the silverspot does stagger. sent5: the dairymaid does not rec... | ¬{E}{b} | sent1: (Ex): {A}x sent2: {B}{a} -> {C}{a} sent3: ¬{G}{a} sent4: (x): ¬{A}x -> {B}{a} sent5: ({C}{a} v ¬{D}{a}) -> ¬{E}{b} sent6: {C}{b} sent7: ({C}{a} v {D}{a}) sent8: ¬{G}{a} -> ¬({F}{a} & ¬{D}{a}) sent9: (x): ¬({F}x & ¬{D}x) -> {D}x sent10: (x): ¬{B}x -> ({E}x & {A}x) sent11: ¬{D}{a} -> ¬{E}{b} | [] | UNKNOWN | [] | UNKNOWN | 4 | null | 8 | 0 | 8 | the fact that the dairymaid recommends sassaby is not wrong. | {E}{b} | 7 | [
"sent10 -> int1: if the dairymaid does not stagger it does recommend sassaby and does serve childishness.; sent9 -> int2: if the fact that the silverspot is a bangle and not stale is wrong it does stale.; sent8 & sent3 -> int3: that the silverspot is a bangle and not stale is incorrect.; int2 & int3 -> int4: the si... | UNKNOWN | UNKNOWN | $hypothesis$ = the dairymaid does not recommend sassaby. ; $context$ = sent1: something serves childishness. sent2: the fact that the silverspot does recommend clearway is correct if it does stagger. sent3: the silverspot does not recommend kestrel. sent4: if there exists something such that it does not serve childishn... | __UNKNOWN__ | DeductionInstance | if something does not stagger then it recommends sassaby and does serve childishness. | [
"the dairymaid does recommend clearway."
] | [
"if something does not stagger then it recommends sassaby and does serve childishness."
] |
the abaxialness does not occur. | sent1: the arguing happens. sent2: the recommending penuriousness prevents that the antecedent does not occur. sent3: the backpacking single occurs and the recommending penuriousness occurs. sent4: the polo does not occur. sent5: the equivocalness happens. sent6: if the antecedent occurs the abaxialness happens. sent7:... | ¬{D} | sent1: {HS} sent2: {B} -> {C} sent3: ({A} & {B}) sent4: ¬{K} sent5: {AM} sent6: {C} -> {D} sent7: ¬({E} & {H}) -> ¬{E} sent8: ¬{K} -> ¬({E} & {H}) sent9: {A} sent10: ¬({A} & {B}) -> ¬{D} sent11: (¬{E} & ¬{F}) -> ¬{C} | [
"sent3 -> int1: the recommending penuriousness occurs.; sent2 & int1 -> int2: that the antecedent occurs hold.; sent6 & int2 -> hypothesis;"
] | DISPROVED | [
"sent3 -> int1: {B}; sent2 & int1 -> int2: {C}; sent6 & int2 -> hypothesis;"
] | DISPROVED | 3 | 3 | 8 | 0 | 8 | the abaxialness does not occur. | ¬{D} | 8 | [
"sent8 & sent4 -> int3: that the indurating happens and the Procrusteanness happens is false.; sent7 & int3 -> int4: the indurating does not occur.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the abaxialness does not occur. ; $context$ = sent1: the arguing happens. sent2: the recommending penuriousness prevents that the antecedent does not occur. sent3: the backpacking single occurs and the recommending penuriousness occurs. sent4: the polo does not occur. sent5: the equivocalness happens. se... | sent3 -> int1: the recommending penuriousness occurs.; sent2 & int1 -> int2: that the antecedent occurs hold.; sent6 & int2 -> hypothesis; __DISPROVED__ | DeductionInstance | the backpacking single occurs and the recommending penuriousness occurs. | [
"the recommending penuriousness prevents that the antecedent does not occur.",
"if the antecedent occurs the abaxialness happens."
] | [
"The recommendation penuriousness occurs when the backpacking single occurs.",
"The recommended penuriousness occurs when the backpacking single occurs."
] |
there is something such that if it does not recommend cartoon then the fact that it is both not a Limonium and not aecial does not hold. | sent1: if something does not recommend cartoon that it is not a Limonium and it is not aecial is not correct. sent2: if something is carnal the fact that it is both not an appointee and not angry is wrong. sent3: something is not a kind of a Limonium and it is not aecial if it does not recommend cartoon. sent4: the fac... | (Ex): ¬{A}x -> ¬(¬{AA}x & ¬{AB}x) | sent1: (x): ¬{A}x -> ¬(¬{AA}x & ¬{AB}x) sent2: (x): {IM}x -> ¬(¬{FA}x & ¬{CC}x) sent3: (x): ¬{A}x -> (¬{AA}x & ¬{AB}x) sent4: {A}{aa} -> ¬(¬{AA}{aa} & ¬{AB}{aa}) sent5: (x): ¬{EH}x -> ¬(¬{CR}x & ¬{AA}x) sent6: ¬{A}{aa} -> ¬(¬{AA}{aa} & {AB}{aa}) sent7: (x): ¬{A}x -> ¬(¬{AA}x & {AB}x) sent8: (Ex): ¬{A}x -> ¬({AA}x & ¬{A... | [
"sent1 -> int1: the fact that the dishpan is not a Limonium and is not aecial does not hold if it does not recommend cartoon.; int1 -> hypothesis;"
] | PROVED | [
"sent1 -> int1: ¬{A}{aa} -> ¬(¬{AA}{aa} & ¬{AB}{aa}); int1 -> hypothesis;"
] | PROVED | 2 | 2 | 7 | 0 | 7 | that the guard is not an air and it is not a kind of a Limonium does not hold if it is not evening. | ¬{EH}{cs} -> ¬(¬{CR}{cs} & ¬{AA}{cs}) | 1 | [
"sent5 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = there is something such that if it does not recommend cartoon then the fact that it is both not a Limonium and not aecial does not hold. ; $context$ = sent1: if something does not recommend cartoon that it is not a Limonium and it is not aecial is not correct. sent2: if something is carnal the fact that ... | sent1 -> int1: the fact that the dishpan is not a Limonium and is not aecial does not hold if it does not recommend cartoon.; int1 -> hypothesis; __PROVED__ | DeductionInstance | if something does not recommend cartoon that it is not a Limonium and it is not aecial is not correct. | [] | [
"if something does not recommend cartoon that it is not a Limonium and it is not aecial is not correct."
] |
the PC does not expectorate. | sent1: if the pistil serves Hirundo then the star-thistle recommends puritan. sent2: the star-thistle does serve PC. sent3: if something is not nonlinear that it is a kind of a lay and it is not anagogic is incorrect. sent4: the Argentinian is a handbook. sent5: if the fact that the pistil is a resort is not incorrect ... | ¬{D}{c} | sent1: {G}{d} -> {E}{b} sent2: {C}{b} sent3: (x): ¬{L}x -> ¬({K}x & ¬{J}x) sent4: {A}{a} sent5: {F}{d} -> {E}{b} sent6: {A}{c} -> {D}{a} sent7: {A}{a} -> {B}{b} sent8: {D}{a} -> {A}{c} sent9: {D}{bf} sent10: (x): (¬{N}x & ¬{M}x) -> ¬{L}{f} sent11: {AA}{aa} sent12: ¬{B}{jb} sent13: (x): ¬{A}x -> ¬({B}x & ¬{D}x) sent14: ... | [
"sent7 & sent4 -> int1: the star-thistle is an essay.; int1 & sent2 -> int2: the star-thistle is a kind of an essay that does serve PC.;"
] | UNKNOWN | [
"sent7 & sent4 -> int1: {B}{b}; int1 & sent2 -> int2: ({B}{b} & {C}{b});"
] | UNKNOWN | 3 | null | 18 | 0 | 18 | the PC does expectorate. | {D}{c} | 15 | [
"sent13 -> int3: the fact that the Argentinian is an essay but it does not expectorate is not right if that it is not a handbook hold.; sent16 -> int4: if the fact that the Argentinian does not serve PC and it does not recommend puritan is not true then it is not a handbook.; sent21 -> int5: the pistil serves Hirun... | UNKNOWN | UNKNOWN | $hypothesis$ = the PC does not expectorate. ; $context$ = sent1: if the pistil serves Hirundo then the star-thistle recommends puritan. sent2: the star-thistle does serve PC. sent3: if something is not nonlinear that it is a kind of a lay and it is not anagogic is incorrect. sent4: the Argentinian is a handbook. sent5:... | __UNKNOWN__ | DeductionInstance | the star-thistle is an essay if the Argentinian is a handbook. | [
"the Argentinian is a handbook.",
"the star-thistle does serve PC."
] | [
"If the Argentinian is a handbook, the star-thistle is an essay.",
"If the Argentinian is a handbook, then the star-thistle is an essay."
] |
the stand does backpack Vireonidae. | sent1: the jerkin is not lipless if something is not lipless and/or is a kind of an education. sent2: something is non-seductive thing that recommends lurker if it is not lipless. sent3: there exists something such that it is not lipless or it is an education or both. | {B}{a} | sent1: (x): (¬{A}x v {C}x) -> ¬{A}{aa} sent2: (x): ¬{A}x -> (¬{AA}x & {AB}x) sent3: (Ex): (¬{A}x v {C}x) | [
"sent2 -> int1: the jerkin is not seductive but it does recommend lurker if that it is not lipless is not wrong.; sent3 & sent1 -> int2: the jerkin is not lipless.; int1 & int2 -> int3: the jerkin is non-seductive thing that recommends lurker.;"
] | UNKNOWN | [
"sent2 -> int1: ¬{A}{aa} -> (¬{AA}{aa} & {AB}{aa}); sent3 & sent1 -> int2: ¬{A}{aa}; int1 & int2 -> int3: (¬{AA}{aa} & {AB}{aa});"
] | UNKNOWN | 3 | null | 0 | 0 | 0 | null | null | null | [] | null | null | $hypothesis$ = the stand does backpack Vireonidae. ; $context$ = sent1: the jerkin is not lipless if something is not lipless and/or is a kind of an education. sent2: something is non-seductive thing that recommends lurker if it is not lipless. sent3: there exists something such that it is not lipless or it is an educa... | __UNKNOWN__ | DeductionInstance | something is non-seductive thing that recommends lurker if it is not lipless. | [
"there exists something such that it is not lipless or it is an education or both.",
"the jerkin is not lipless if something is not lipless and/or is a kind of an education."
] | [
"If it is not lipless, something is non-seductive.",
"If it is not lipless, it is a non-seductive thing."
] |
there is something such that if either it is not a fondness or it is not a minister or both it is not a kind of a corkscrew. | sent1: the fact that the coronet is not a corkscrew is right if it is not a fondness or is not a minister or both. sent2: the Mojave is not a corkscrew if it is not a legalism. sent3: if the coronet is not a kind of an object and/or it is not evangelical then it is a fondness. sent4: there exists something such that if... | (Ex): (¬{AA}x v ¬{AB}x) -> ¬{B}x | sent1: (¬{AA}{aa} v ¬{AB}{aa}) -> ¬{B}{aa} sent2: ¬{BI}{di} -> ¬{B}{di} sent3: (¬{IO}{aa} v ¬{AK}{aa}) -> {AA}{aa} sent4: (Ex): ({CA}x v ¬{AG}x) -> ¬{JJ}x sent5: (¬{FD}{ah} v {B}{ah}) -> ¬{HD}{ah} sent6: (Ex): ¬{AA}x -> ¬{B}x sent7: (Ex): (¬{AA}x v {AB}x) -> ¬{B}x | [
"sent1 -> hypothesis;"
] | PROVED | [
"sent1 -> hypothesis;"
] | PROVED | 1 | 1 | 6 | 0 | 6 | null | null | null | [] | null | null | $hypothesis$ = there is something such that if either it is not a fondness or it is not a minister or both it is not a kind of a corkscrew. ; $context$ = sent1: the fact that the coronet is not a corkscrew is right if it is not a fondness or is not a minister or both. sent2: the Mojave is not a corkscrew if it is not a... | sent1 -> hypothesis; __PROVED__ | DeductionInstance | the fact that the coronet is not a corkscrew is right if it is not a fondness or is not a minister or both. | [] | [
"the fact that the coronet is not a corkscrew is right if it is not a fondness or is not a minister or both."
] |
the cardcase is not a voyeurism. | sent1: something backpacks nonparticipant and/or it is a kind of a voyeurism if it does not serve powder. sent2: if the residence backpacks nonparticipant then the mazer does serve powder. sent3: if the mazer does serve powder that the cardcase is a voyeurism hold. sent4: the mazer backpacks nonparticipant. sent5: The ... | ¬{C}{c} | sent1: (x): ¬{B}x -> ({A}x v {C}x) sent2: {A}{a} -> {B}{b} sent3: {B}{b} -> {C}{c} sent4: {A}{b} sent5: {AA}{aa} sent6: {A}{a} | [
"sent2 & sent6 -> int1: the mazer serves powder.; sent3 & int1 -> hypothesis;"
] | DISPROVED | [
"sent2 & sent6 -> int1: {B}{b}; sent3 & int1 -> hypothesis;"
] | DISPROVED | 2 | 2 | 3 | 0 | 3 | the mazer is a kind of a voyeurism. | {C}{b} | 4 | [
"sent1 -> int2: the residence backpacks nonparticipant and/or is a kind of a voyeurism if it does not serve powder.;"
] | UNKNOWN | UNKNOWN | $hypothesis$ = the cardcase is not a voyeurism. ; $context$ = sent1: something backpacks nonparticipant and/or it is a kind of a voyeurism if it does not serve powder. sent2: if the residence backpacks nonparticipant then the mazer does serve powder. sent3: if the mazer does serve powder that the cardcase is a voyeuris... | sent2 & sent6 -> int1: the mazer serves powder.; sent3 & int1 -> hypothesis; __DISPROVED__ | DeductionInstance | if the residence backpacks nonparticipant then the mazer does serve powder. | [
"the fact that the residence backpacks nonparticipant hold.",
"if the mazer does serve powder that the cardcase is a voyeurism hold."
] | [
"The mazer serves powder if the residence backpacks non participants.",
"The mazer does serve powder if the residence backpacks non participants."
] |
there is something such that if it is not a Hynerpeton then the fact that it is Donatist and it swaps is false. | sent1: that the antimeson is Donatist and it does swap is not right if it is a kind of a Hynerpeton. sent2: there is something such that if it does not deform it is an instrumentality and it does strum. sent3: if the myxovirus does not smell then it is a Hynerpeton and it is a royalty. sent4: if the antimeson is not a ... | (Ex): ¬{A}x -> ¬({AA}x & {AB}x) | sent1: {A}{aa} -> ¬({AA}{aa} & {AB}{aa}) sent2: (Ex): ¬{CR}x -> ({FG}x & {GR}x) sent3: ¬{B}{ab} -> ({A}{ab} & {Q}{ab}) sent4: ¬{A}{aa} -> ¬({AA}{aa} & {AB}{aa}) sent5: (x): ¬{BN}x -> ¬({AQ}x & {GQ}x) sent6: (Ex): ¬{DQ}x -> ({CJ}x & {CH}x) sent7: ¬{O}{t} -> ¬({BD}{t} & {AB}{t}) sent8: (Ex): {BQ}x -> ¬({HR}x & {IT}x) sen... | [
"sent4 -> hypothesis;"
] | PROVED | [
"sent4 -> hypothesis;"
] | PROVED | 1 | 1 | 8 | 0 | 8 | there exists something such that if it is not unprovocative then that it is unalike thing that is a checkerbloom is incorrect. | (Ex): ¬{BN}x -> ¬({AQ}x & {GQ}x) | 2 | [
"sent5 -> int1: that the bitterwood is unalike and is a kind of a checkerbloom is false if it is not unprovocative.; int1 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = there is something such that if it is not a Hynerpeton then the fact that it is Donatist and it swaps is false. ; $context$ = sent1: that the antimeson is Donatist and it does swap is not right if it is a kind of a Hynerpeton. sent2: there is something such that if it does not deform it is an instrumenta... | sent4 -> hypothesis; __PROVED__ | DeductionInstance | if the antimeson is not a kind of a Hynerpeton that it is Donatist and it does swap is false. | [] | [
"if the antimeson is not a kind of a Hynerpeton that it is Donatist and it does swap is false."
] |
the fact that there exists something such that if it backpacks Peloponnese then it is a kind of non-categorematic thing that is rhythmical is not incorrect. | sent1: there is something such that if it backpacks Peloponnese it is not categorematic. sent2: the welder is rhythmical if it does backpack Peloponnese. sent3: the welder is categorematic and it is rhythmical if it does backpack Peloponnese. sent4: there exists something such that if it is anginal then it does not rec... | (Ex): {A}x -> (¬{AA}x & {AB}x) | sent1: (Ex): {A}x -> ¬{AA}x sent2: {A}{aa} -> {AB}{aa} sent3: {A}{aa} -> ({AA}{aa} & {AB}{aa}) sent4: (Ex): {AQ}x -> (¬{EB}x & {BO}x) sent5: {FG}{ee} -> (¬{HO}{ee} & {A}{ee}) sent6: (Ex): {A}x -> ({AA}x & {AB}x) sent7: (Ex): {GK}x -> (¬{CN}x & {P}x) sent8: {A}{aa} -> (¬{AA}{aa} & {AB}{aa}) sent9: (Ex): {A}x -> {AB}x se... | [
"sent8 -> hypothesis;"
] | PROVED | [
"sent8 -> hypothesis;"
] | PROVED | 1 | 1 | 10 | 0 | 10 | there is something such that if it is a rejuvenation then it does not recommend lifeboat and it is a drippings. | (Ex): {IF}x -> (¬{EB}x & {BD}x) | 2 | [
"sent11 -> int1: if the foreshock is a rejuvenation that it does not recommend lifeboat and is a kind of a drippings is not incorrect.; int1 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = the fact that there exists something such that if it backpacks Peloponnese then it is a kind of non-categorematic thing that is rhythmical is not incorrect. ; $context$ = sent1: there is something such that if it backpacks Peloponnese it is not categorematic. sent2: the welder is rhythmical if it does ba... | sent8 -> hypothesis; __PROVED__ | DeductionInstance | the welder is not categorematic and not unrhythmical if that it backpacks Peloponnese hold. | [] | [
"the welder is not categorematic and not unrhythmical if that it backpacks Peloponnese hold."
] |
either the leptocephalus does backpack Swiss or it does recommend Rus or both. | sent1: that something either does backpack Swiss or recommends Rus or both is wrong if it is not a lancewood. sent2: if the fact that the premises is not a lancewood and not a ranker does not hold the leptocephalus is not a lancewood. sent3: if that something is not a kind of a candlepin and is not non-cross-ply is fal... | ({D}{c} v {C}{c}) | sent1: (x): ¬{A}x -> ¬({D}x v {C}x) sent2: ¬(¬{A}{a} & ¬{E}{a}) -> ¬{A}{c} sent3: (x): ¬(¬{G}x & {F}x) -> ¬{B}x sent4: ({AA}{b} v ¬{AB}{b}) -> ¬{B}{c} sent5: (x): ¬{I}x -> ¬{H}x sent6: ¬{H}{a} -> ¬(¬{G}{a} & {F}{a}) sent7: (x): ¬{B}x -> ¬(¬{A}x & ¬{E}x) sent8: {AA}{b} -> ¬{B}{c} sent9: ¬{A}{a} -> ({AA}{b} v ¬{AB}{b}) s... | [
"sent10 -> int1: if the leptocephalus is not immunochemical it does backpack Swiss and/or it does recommend Rus.;"
] | UNKNOWN | [
"sent10 -> int1: ¬{B}{c} -> ({D}{c} v {C}{c});"
] | UNKNOWN | 3 | null | 7 | 0 | 7 | the fact that the leptocephalus backpacks Swiss and/or recommends Rus is not correct. | ¬({D}{c} v {C}{c}) | 7 | [
"sent1 -> int2: that the leptocephalus either backpacks Swiss or does recommend Rus or both is false if it is not a lancewood.; sent7 -> int3: that if the premises is not immunochemical the fact that the premises is not a lancewood and is not a ranker is not right is not incorrect.; sent3 -> int4: if the fact that ... | UNKNOWN | UNKNOWN | $hypothesis$ = either the leptocephalus does backpack Swiss or it does recommend Rus or both. ; $context$ = sent1: that something either does backpack Swiss or recommends Rus or both is wrong if it is not a lancewood. sent2: if the fact that the premises is not a lancewood and not a ranker does not hold the leptocephal... | __UNKNOWN__ | DeductionInstance | if something is not immunochemical then either it backpacks Swiss or it recommends Rus or both. | [] | [
"if something is not immunochemical then either it backpacks Swiss or it recommends Rus or both."
] |
the Creole is arthrosporic or it is mercurial or both. | sent1: if the grissino is a kind of a Swinburne then the Creole is mercurial. sent2: the stoup either does not carnify or does not boat plunderer or both. sent3: something is not a coupling and it does not serve ophthalmoscope if it does not boat plunderer. sent4: if the headgear does not couple and does not serve opht... | ({C}{b} v {B}{b}) | sent1: {A}{a} -> {B}{b} sent2: (¬{I}{d} v ¬{H}{d}) sent3: (x): ¬{H}x -> (¬{F}x & ¬{G}x) sent4: (¬{F}{c} & ¬{G}{c}) -> ¬{F}{a} sent5: ¬{F}{a} -> ¬(¬{D}{a} & ¬{E}{a}) sent6: (¬{D}{b} & {B}{b}) -> ¬{B}{a} sent7: (x): ¬{A}x -> ¬({C}x v {B}x) | [] | UNKNOWN | [] | UNKNOWN | 2 | null | 6 | 0 | 6 | the fact that the Creole is arthrosporic and/or mercurial is not correct. | ¬({C}{b} v {B}{b}) | 8 | [
"sent7 -> int1: if the fact that the Creole is not a Swinburne hold then that it is arthrosporic and/or mercurial is not correct.; sent3 -> int2: if the headgear does not boat plunderer then it is not a coupling and does not serve ophthalmoscope.; sent2 -> int3: there is something such that it does not carnify or i... | UNKNOWN | UNKNOWN | $hypothesis$ = the Creole is arthrosporic or it is mercurial or both. ; $context$ = sent1: if the grissino is a kind of a Swinburne then the Creole is mercurial. sent2: the stoup either does not carnify or does not boat plunderer or both. sent3: something is not a coupling and it does not serve ophthalmoscope if it doe... | __UNKNOWN__ | DeductionInstance | if the grissino is a kind of a Swinburne then the Creole is mercurial. | [
"if the headgear does not couple and does not serve ophthalmoscope the grissino is not a couple."
] | [
"if the grissino is a kind of a Swinburne then the Creole is mercurial."
] |
the methane does not backpack methane. | sent1: the genip does not contort. sent2: if there exists something such that that it is not two-wheel is not false the ingot is a kind of a fibril that does boat Rhinolophidae. sent3: if the genip backpacks neocolonialism then the methane backpacks methane. sent4: the genip backpacks neocolonialism but it does not bac... | ¬{B}{b} | sent1: ¬{EO}{a} sent2: (x): ¬{G}x -> ({C}{ig} & {F}{ig}) sent3: {AA}{a} -> {B}{b} sent4: ¬{A}{a} -> ({AA}{a} & ¬{AB}{a}) sent5: ¬{B}{a} -> ({AB}{a} & ¬{A}{a}) sent6: {A}{cr} sent7: (x): ¬{E}x -> ¬{D}{a} sent8: {A}{b} -> {B}{a} sent9: (x): ({C}x & ¬{B}x) -> {A}x sent10: {AA}{a} -> {AB}{b} sent11: ¬{A}{a} -> ¬{AB}{a} sen... | [
"sent4 & sent14 -> int1: the genip does backpack neocolonialism and does not backpack stepper.; int1 -> int2: the fact that the genip does backpack neocolonialism is right.; sent3 & int2 -> hypothesis;"
] | DISPROVED | [
"sent4 & sent14 -> int1: ({AA}{a} & ¬{AB}{a}); int1 -> int2: {AA}{a}; sent3 & int2 -> hypothesis;"
] | DISPROVED | 3 | 3 | 14 | 0 | 14 | the methane does not backpack methane. | ¬{B}{b} | 7 | [
"sent17 -> int3: if the schrod does not boat Rhinolophidae then it is not implausible.; int3 & sent16 -> int4: the schrod is not implausible.; int4 -> int5: that there is something such that it is not implausible is not wrong.; int5 & sent7 -> int6: the genip is not a Helotium.; int6 -> int7: something is not a Hel... | UNKNOWN | UNKNOWN | $hypothesis$ = the methane does not backpack methane. ; $context$ = sent1: the genip does not contort. sent2: if there exists something such that that it is not two-wheel is not false the ingot is a kind of a fibril that does boat Rhinolophidae. sent3: if the genip backpacks neocolonialism then the methane backpacks me... | sent4 & sent14 -> int1: the genip does backpack neocolonialism and does not backpack stepper.; int1 -> int2: the fact that the genip does backpack neocolonialism is right.; sent3 & int2 -> hypothesis; __DISPROVED__ | DeductionInstance | the genip backpacks neocolonialism but it does not backpack stepper if it is not stingless. | [
"the genip is not stingless.",
"if the genip backpacks neocolonialism then the methane backpacks methane."
] | [
"If it is stingless, the Genip backpacks do not backpack stepper.",
"It does not backpack stepper if it is stingless."
] |
there exists something such that if it is non-post-communist thing that is a specific then it does not recommend barite. | sent1: the incus does not recommend barite if that it is a kind of post-communist a specific hold. sent2: if a non-upmarket thing is a bimonthly it is not a harlequin. sent3: the incus does not serve caulk if that it is not specific and it does crosscut is true. sent4: that if the incus is not post-communist but it is ... | (Ex): (¬{AA}x & {AB}x) -> ¬{B}x | sent1: ({AA}{aa} & {AB}{aa}) -> ¬{B}{aa} sent2: (x): (¬{H}x & {EO}x) -> ¬{CA}x sent3: (¬{AB}{aa} & {R}{aa}) -> ¬{BH}{aa} sent4: (¬{AA}{aa} & {AB}{aa}) -> {B}{aa} sent5: (¬{AA}{aa} & {AB}{aa}) -> ¬{B}{aa} sent6: (¬{GG}{et} & {AB}{et}) -> ¬{IH}{et} sent7: (¬{AA}{eu} & {IJ}{eu}) -> {IR}{eu} sent8: (Ex): (¬{CT}x & {IJ}x) -... | [
"sent5 -> hypothesis;"
] | PROVED | [
"sent5 -> hypothesis;"
] | PROVED | 1 | 1 | 10 | 0 | 10 | there is something such that if it is a kind of non-upmarket thing that is a kind of a bimonthly it is not a harlequin. | (Ex): (¬{H}x & {EO}x) -> ¬{CA}x | 2 | [
"sent2 -> int1: if the nepotist is non-upmarket thing that is a bimonthly then it is not a harlequin.; int1 -> hypothesis;"
] | PROVED | PROVED | $hypothesis$ = there exists something such that if it is non-post-communist thing that is a specific then it does not recommend barite. ; $context$ = sent1: the incus does not recommend barite if that it is a kind of post-communist a specific hold. sent2: if a non-upmarket thing is a bimonthly it is not a harlequin. se... | sent5 -> hypothesis; __PROVED__ | DeductionInstance | if the incus is not post-communist but it is a kind of a specific then it does not recommend barite. | [] | [
"if the incus is not post-communist but it is a kind of a specific then it does not recommend barite."
] |
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