Add files using upload-large-folder tool

M-4_phyx_data-generator/phyx_task/phyx_0073/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "73",
+  "question": "\\text{White light is incident onto a prism at the angle shown in figure. Violet light emerges perpendicular to the rear face of the prism. The index of refraction of violet light in this glass is } 2.0\\% \\text{ larger than the index of refraction of red light.} At what angle \\phi does red light emerge from the rear face?",
+  "choices": {
+    "A": "3^\\circ",
+    "B": "9^\\circ",
+    "C": "1^\\circ",
+    "D": "2^\\circ"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_73.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0074/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "74",
+  "question": "There’s one angle of incidence onto a prism for which the light inside an isosceles prism travels parallel to the base and emerges at an angle. A laboratory measurement finds that \\beta = 52.2^\\circ for a prism shaped like an equilateral triangle. What is the prism’s index of refraction?",
+  "choices": {
+    "A": "1.47",
+    "B": "2.26",
+    "C": "1.58",
+    "D": "1.95"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_74.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0080/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "80",
+  "question": "In figure, first-order reflection from the reflection planes shown occurs when an x-ray beam of wavelength $0.260 \\, \\text{nm}$ makes an angle $\theta = 63.8^\\circ$ with the top face of the crystal. What is the unit cell size $a_0$?",
+  "choices": {
+    "A": "0.405nm",
+    "B": "0.520nm",
+    "C": "0.570nm",
+    "D": "0.640nm"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_80.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0087/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "87",
+  "question": "In figure, two isotropic point sources \\( S_1 \\) and \\( S_2 \\) emit light at wavelength \\( \\lambda = 400\\,\\text{nm} \\). Source \\( S_1 \\) is located at \\( y = 640\\,\\text{nm} \\); source \\( S_2 \\) is located at \\( y = -640\\,\\text{nm} \\). At point \\( P_1 \\) (at \\( x = 720\\,\\text{nm} \\)), the wave from \\( S_2 \\) arrives ahead of the wave from \\( S_1 \\) by a phase difference of \\( 0.600\\pi\\,\\text{rad} \\). What multiple of \\( \\lambda \\) gives the phase difference between the waves from the two sources as the waves arrive at point \\( P_2 \\), which is located at \\( y = 720\\,\\text{nm} \\).",
+  "choices": {
+    "A": "2.60λ",
+    "B": "2.70λ",
+    "C": "2.90λ",
+    "D": "3.20λ"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_87.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0241/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "241",
+  "question": "Tension is maintained in a string. The observed wave speed is \\( v = 24.0\\,\\mathrm{m/s} \\) when the suspended mass is \\( m = 3.00\\,\\mathrm{kg} \\).The suspended mass is \\( m = 2.00\\,\\mathrm{kg} \\). What is the wave speed?",
+  "choices": {
+    "A": "22.6m/s",
+    "B": "21.6m/s",
+    "C": "20.6m/s",
+    "D": "19.6m/s"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_241.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0246/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "246",
+  "question": "Two loudspeakers in a plane. They emit equal-amplitude sound waves. Each speaker alone creates sound with intensity $I_0$. An observer at point $A$ in front of the plane containing the two loudspeakers and centered between them. A second observer at point $B$ directly in front of one of the speakers. In terms of $I_0$, what is the the intensity $I_B$ at point $B$?",
+  "choices": {
+    "A": "$0.95I_0$",
+    "B": "$1.05I_0$",
+    "C": "$0.85I_0$",
+    "D": "$0.75I_0$"
+  },
+  "answer": "A",
+  "original_image_filename": "phyx_246.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0248/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "248",
+  "question": "Light from a helium-neon laser ($\\lambda = 633\\;nm$) illuminates two slits spaced $0.40\\;mm$ apart. A viewing screen is $2.0\\;m$ behind the slits. What is the distance between the two $m = 2$ dark fringes?",
+  "choices": {
+    "A": "15.8mm",
+    "B": "15.2mm",
+    "C": "16.8mm",
+    "D": "16.2mm"
+  },
+  "answer": "A",
+  "original_image_filename": "phyx_248.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0279/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "279",
+  "question": "In figure, a solid cylinder attached to a spring ($k = 3.00$ N/m) rolls without slipping along a surface. If the system is released from rest when the spring is stretched by $0.250$ m, find the rotational kinetic energy of the cylinder as it passes through the equilibrium position.",
+  "choices": {
+    "A": "0.02225J",
+    "B": "0.02825J",
+    "C": "0.03625J",
+    "D": "0.03125J"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_279.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0410/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "410",
+  "question": "0.10 mol of nitrogen gas follow the two processes shown in figure. How much heat is required for the isothermal process?",
+  "choices": {
+    "A": "330 J",
+    "B": "0 J",
+    "C": "-330 J",
+    "D": "-660 J"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_410.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0417/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "417",
+  "question": "A gas undergoes a cyclic process. How much work is done per cycle by a gas following the $pV$ trajectory of figure?",
+  "choices": {
+    "A": "20 J",
+    "B": "80 J",
+    "C": "40 J",
+    "D": "0 J"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_417.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0428/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "428",
+  "question": "A heat engine using a monatomic gas follows the cycle shown in figure. What is the thermal efficiency of this heat engine?",
+  "choices": {
+    "A": "0.40",
+    "B": "0.64",
+    "C": "0.316",
+    "D": "0.32"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_428.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0622/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "622",
+  "question": "A painting is hung on the side wall of a spaceship which is moving past the Earth at a speed of \\(0.90c\\). What are the dimensions as seen by an observer on the Earth?",
+  "choices": {
+    "A": "0.69m",
+    "B": "0.67m",
+    "C": "0.65m",
+    "D": "0.62m"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_622.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0625/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "625",
+  "question": "Consider a monatomic solid with a weakly bound cubic lattice, with each atom connected to six neighbors, each bond having a binding energy of \\(3.4 \\times 10^{-3}\\,\\mathrm{eV}\\). When this solid melts, its latent heat of fusion goes directly into breaking the bonds between the atoms. Estimate the latent heat of fusion for this solid, in \\(\\mathrm{J/mol}\\).",
+  "choices": {
+    "A": "960J/mol",
+    "B": "970J/mol",
+    "C": "990J/mol",
+    "D": "980J/mol"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_625.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0649/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "649",
+  "question": "Figure shows a pulse train. $\\Delta t$ is the duration of each pulse. What is the maximum pulse-transmission rate (pulses per second) through an electronics system with a $200$ $kHz$ bandwidth?",
+  "choices": {
+    "A": "$2.0 \\times 10^5$ $pulses/s$",
+    "B": "$1.5 \\times 10^5$ $pulses/s$",
+    "C": "$1.0 \\times 10^5$ $pulses/s$",
+    "D": "$0.5 \\times 10^5$ $pulses/s$"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_649.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0823/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "823",
+  "question": "To loosen a pipe fitting, a plumber slips a piece of scrap pipe (a ``cheater'') over his wrench handle. He stands on the end of the cheater as shown in figure. Find the magnitude and direction of the torque he applies about the center of the fitting.",
+  "choices": {
+    "A": "\\( 700 \\text{ N} \\cdot \\text{ m} \\)",
+    "B": "\\( 680 \\text{ N} \\cdot \\text{ m} \\)",
+    "C": "\\( 340 \\text{ N} \\cdot \\text{ m} \\)",
+    "D": "\\( 350 \\text{ N} \\cdot \\text{ m} \\)"
+  },
+  "answer": "B",
+  "original_image_filename": "phyx_823.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0848/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "848",
+  "question": "What is the net electric flux through the cylinder?",
+  "choices": {
+    "A": "120N m^2/C",
+    "B": "-100N m^2/C",
+    "C": "200N m^2/C",
+    "D": "110N m^2/C"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_848.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0870/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "870",
+  "question": "What is the magnitude of the electric field at the dot?",
+  "choices": {
+    "A": "10kV/m",
+    "B": "15kV/m",
+    "C": "25kV/m",
+    "D": "20kV/m"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_870.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0877/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "877",
+  "question": "What is the equivalent capacitance of the three capacitors?",
+  "choices": {
+    "A": "2.5\\ \\mu\\mathrm{F}",
+    "B": "3.5\\ \\mu\\mathrm{F}",
+    "C": "5.5\\ \\mu\\mathrm{F}",
+    "D": "7.5\\ \\mu\\mathrm{F}"
+  },
+  "answer": "D",
+  "original_image_filename": "phyx_877.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0883/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "883",
+  "question": "The metal wire in figure moves to a straight wire. Find an expression for the potential difference between the two ends of the moving wire.",
+  "choices": {
+    "A": "\\( (\\mu v_0 I /\\pi) \\ln[(d+l)/d] \\)",
+    "B": "\\( (\\mu v_0 I / 3\\pi) \\ln[(d+l)/d] \\)",
+    "C": "\\( (\\mu v_0 I / 2\\pi) \\ln[(d+l)/d] \\)",
+    "D": "\\( (\\mu v_0 I / 6\\pi) \\ln[(d+l)/d] \\)"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_883.png",
+  "has_embedded_choices": false
+}

M-4_phyx_data-generator/phyx_task/phyx_0884/original/question.json

@@ -0,0 +1,14 @@
+{
+  "dataset": "PhyX",
+  "source_id": "884",
+  "question": "A closed, square loop is formed with 40 cm of wire having \\( R = 0.10 \\, \\Omega \\), as shown in figure. A 0.50 T magnetic field is perpendicular to the loop. At \\( t = 0 \\, \\text{s} \\), two diagonally opposite corners of the loop begin to move apart. How long does it take the loop to collapse to a straight line?",
+  "choices": {
+    "A": "\\( 0.7 \\",
+    "B": "\\( 0.3 \\",
+    "C": "\\( 0.1 \\",
+    "D": "\\( 0.9 \\"
+  },
+  "answer": "C",
+  "original_image_filename": "phyx_884.png",
+  "has_embedded_choices": false
+}