evalscope/examples/viz/20250117_154856/predictions/Qwen2.5-7B-Instruct/arc_ARC-Challenge.jsonl

{"id": "chat-9b540d3c791e492fa40558f7add9ba57", "object": "chat.completion", "created": 1737100276, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The most likely effect of an increase in a planet's rotation due to a meteorite impact is:\n\nC. Planetary days will become shorter.\n\nThis is because an increase in rotational speed means that the planet completes one full rotation around its axis in a shorter amount of time, which directly translates to shorter days. The other options are not directly related to the change in rotational speed:\n\nA. Planetary density will not necessarily decrease; in fact, the impact could potentially alter the distribution of mass, but the overall density might not change significantly.\nB. Planetary years (orbital period around the sun) are not affected by rotational speed.\nD. Planetary gravity is not directly influenced by rotational speed; it is primarily determined by the mass and radius of the planet.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 93, "total_tokens": 248, "completion_tokens": 155}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-7e3ffdf9d9a8c07b16a6aad2c04473d2", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_7175875", "question": "An astronomer observes that a planet rotates faster after a meteorite impact. Which is the most likely effect of this increase in rotation?", "choices": {"text": ["Planetary density will decrease.", "Planetary years will become longer.", "Planetary days will become shorter.", "Planetary gravity will become stronger."], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}, "origin_prompt": {"data": ["An astronomer observes that a planet rotates faster after a meteorite impact. Which is the most likely effect of this increase in rotation?\nA. Planetary density will decrease.\nB. Planetary years will become longer.\nC. Planetary days will become shorter.\nD. Planetary gravity will become stronger.\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_7175875", "question": "An astronomer observes that a planet rotates faster after a meteorite impact. Which is the most likely effect of this increase in rotation?", "choices": {"text": ["Planetary density will decrease.", "Planetary years will become longer.", "Planetary days will become shorter.", "Planetary gravity will become stronger."], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}}}
{"id": "chat-242f90b54cf2423d95f7f0a47cf1f464", "object": "chat.completion", "created": 1737100278, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The most likely result from testing different building designs to see how they respond during an earthquake is:\n\nB. buildings will be made safer\n\nTesting different building designs under earthquake conditions helps engineers understand which designs can better withstand seismic activity. This knowledge can then be used to improve building codes and standards, leading to safer structures.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 108, "total_tokens": 172, "completion_tokens": 64}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-fff09f60f09818a1b23089f061a08e4c", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_SC_409171", "question": "A group of engineers wanted to know how different building designs would respond during an earthquake. They made several models of buildings and tested each for its ability to withstand earthquake conditions. Which will most likely result from testing different building designs?", "choices": {"text": ["buildings will be built faster", "buildings will be made safer", "building designs will look nicer", "building materials will be cheaper"], "label": ["A", "B", "C", "D"]}, "answerKey": "B"}, "origin_prompt": {"data": ["A group of engineers wanted to know how different building designs would respond during an earthquake. They made several models of buildings and tested each for its ability to withstand earthquake conditions. Which will most likely result from testing different building designs?\nA. buildings will be built faster\nB. buildings will be made safer\nC. building designs will look nicer\nD. building materials will be cheaper\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_SC_409171", "question": "A group of engineers wanted to know how different building designs would respond during an earthquake. They made several models of buildings and tested each for its ability to withstand earthquake conditions. Which will most likely result from testing different building designs?", "choices": {"text": ["buildings will be built faster", "buildings will be made safer", "building designs will look nicer", "building materials will be cheaper"], "label": ["A", "B", "C", "D"]}, "answerKey": "B"}}}
{"id": "chat-b08b5c08dfc143a4a0a21688c33fe026", "object": "chat.completion", "created": 1737100279, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The correct answer is C. Chlorophyll in the leaf captures light energy.\n\nThis is the initial step that signals the beginning of photosynthesis. Chlorophyll, the green pigment in plant leaves, absorbs light energy, primarily from the sun, which then drives the process of photosynthesis. This absorbed light energy is used to convert carbon dioxide and water into glucose (a type of sugar) and oxygen.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 100, "total_tokens": 182, "completion_tokens": 82}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-645c2df735cfd53c2c23115c86c1e18c", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_SC_408547", "question": "The end result in the process of photosynthesis is the production of sugar and oxygen. Which step signals the beginning of photosynthesis?", "choices": {"text": ["Chemical energy is absorbed through the roots.", "Light energy is converted to chemical energy.", "Chlorophyll in the leaf captures light energy.", "Sunlight is converted into chlorophyll."], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}, "origin_prompt": {"data": ["The end result in the process of photosynthesis is the production of sugar and oxygen. Which step signals the beginning of photosynthesis?\nA. Chemical energy is absorbed through the roots.\nB. Light energy is converted to chemical energy.\nC. Chlorophyll in the leaf captures light energy.\nD. Sunlight is converted into chlorophyll.\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_SC_408547", "question": "The end result in the process of photosynthesis is the production of sugar and oxygen. Which step signals the beginning of photosynthesis?", "choices": {"text": ["Chemical energy is absorbed through the roots.", "Light energy is converted to chemical energy.", "Chlorophyll in the leaf captures light energy.", "Sunlight is converted into chlorophyll."], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}}}
{"id": "chat-a105ac63a25f4adf898ea559dd0cd4de", "object": "chat.completion", "created": 1737100280, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The physicist is investigating the **independent (manipulated) variable** when he changes the speed of the car. \n\nIn this scenario, the speed of the car is being manipulated to observe its effect on the outcome, which is likely the distance the car can jump over the ramp. Therefore, the correct answer is:\n\nD. the independent (manipulated) variable", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 118, "total_tokens": 194, "completion_tokens": 76}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-04aee11da625fa1dd8f107f21ce78d99", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_407327", "question": "A physicist wants to determine the speed a car must reach to jump over a ramp. The physicist conducts three trials. In trials two and three, the speed of the car is increased by 20 miles per hour. What is the physicist investigating when he changes the speed?", "choices": {"text": ["the control", "the hypothesis statement", "the dependent (responding) variable", "the independent (manipulated) variable"], "label": ["A", "B", "C", "D"]}, "answerKey": "D"}, "origin_prompt": {"data": ["A physicist wants to determine the speed a car must reach to jump over a ramp. The physicist conducts three trials. In trials two and three, the speed of the car is increased by 20 miles per hour. What is the physicist investigating when he changes the speed?\nA. the control\nB. the hypothesis statement\nC. the dependent (responding) variable\nD. the independent (manipulated) variable\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_407327", "question": "A physicist wants to determine the speed a car must reach to jump over a ramp. The physicist conducts three trials. In trials two and three, the speed of the car is increased by 20 miles per hour. What is the physicist investigating when he changes the speed?", "choices": {"text": ["the control", "the hypothesis statement", "the dependent (responding) variable", "the independent (manipulated) variable"], "label": ["A", "B", "C", "D"]}, "answerKey": "D"}}}
{"id": "chat-5ff72703159c48b2a3eeb5c4b6e948bc", "object": "chat.completion", "created": 1737100281, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "To determine the correct answer, let's analyze the situation step by step.\n\n1. **Understanding the Problem:**\n   - Both objects are dropped from the same height (2.0 m) on the Moon.\n   - The acceleration due to gravity on the Moon is approximately \\(1.63 \\, \\text{m/s}^2\\).\n\n2. **Potential Energy and Kinetic Energy:**\n   - Potential Energy (PE) is given by \\(PE = mgh\\), where \\(m\\) is the mass, \\(g\\) is the acceleration due to gravity, and \\(h\\) is the height.\n   - Kinetic Energy (KE) is given by \\(KE = \\frac{1}{2}mv^2\\), where \\(v\\) is the velocity.\n\n3. **Energy Conservation:**\n   - As the objects fall, their potential energy is converted into kinetic energy. The total mechanical energy (sum of potential and kinetic energy) is conserved.\n\n4. **Analyzing the Options:**\n\n   - **Option A: They have each lost kinetic energy.**\n     - This is incorrect because as the objects fall, their potential energy is converted into kinetic energy, not lost.\n\n   - **Option B: They have each gained the same amount of potential energy.**\n     - This is incorrect because the potential energy lost is not the same for both objects. The potential energy lost is \\(mgh\\), and since \\(m\\) is different, the potential energy lost is different for the two objects.\n\n   - **Option C: They have each lost the same amount of potential energy.**\n     - This is incorrect because the potential energy lost is \\(mgh\\), and since \\(m\\) is different, the potential energy lost is different for the two objects.\n\n   - **Option D: They have each gained one-half of their maximum kinetic energy.**\n     - This is correct. When the objects have fallen 1.0 m, they have each lost half of their initial potential energy, which is converted into kinetic energy. The maximum kinetic energy is reached just before hitting the ground, and at 1.0 m, they have gained half of that maximum kinetic energy.\n\n5. **Conclusion:**\n   - The correct answer is **D. They have each gained one-half of their maximum kinetic energy.**", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 137, "total_tokens": 613, "completion_tokens": 476}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-fb03d4841a7c199aec82bfe08371df58", "subset_name": "ARC-Challenge", "raw_input": {"id": "MCAS_2006_9_44", "question": "An astronaut drops a 1.0 kg object and a 5.0 kg object on the Moon. Both objects fall a total distance of 2.0 m vertically. Which of the following best describes the objects after they have fallen a distance of 1.0 m?", "choices": {"text": ["They have each lost kinetic energy.", "They have each gained the same amount of potential energy.", "They have each lost the same amount of potential energy.", "They have each gained one-half of their maximum kinetic energy."], "label": ["A", "B", "C", "D"]}, "answerKey": "D"}, "origin_prompt": {"data": ["An astronaut drops a 1.0 kg object and a 5.0 kg object on the Moon. Both objects fall a total distance of 2.0 m vertically. Which of the following best describes the objects after they have fallen a distance of 1.0 m?\nA. They have each lost kinetic energy.\nB. They have each gained the same amount of potential energy.\nC. They have each lost the same amount of potential energy.\nD. They have each gained one-half of their maximum kinetic energy.\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "MCAS_2006_9_44", "question": "An astronaut drops a 1.0 kg object and a 5.0 kg object on the Moon. Both objects fall a total distance of 2.0 m vertically. Which of the following best describes the objects after they have fallen a distance of 1.0 m?", "choices": {"text": ["They have each lost kinetic energy.", "They have each gained the same amount of potential energy.", "They have each lost the same amount of potential energy.", "They have each gained one-half of their maximum kinetic energy."], "label": ["A", "B", "C", "D"]}, "answerKey": "D"}}}
{"id": "chat-ef5dafba4326497882371654b6a77719", "object": "chat.completion", "created": 1737100286, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The best description of Devil Facial Tumor Disease (DFTD) is:\n\nB. an infectious, cell-cycle disease\n\nDFTD is infectious because it spreads from one Tasmanian devil to another through bites, and it is a cell-cycle disease because it causes cancerous tumors, which involve uncontrolled cell division.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 141, "total_tokens": 207, "completion_tokens": 66}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-30c14ccb91d1060912a5a1492e0388c4", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_7270393", "question": "Devil facial tumor disease (DFTD) is a disease that is decimating the population of Tasmanian devils. The disease passes from one animal to another through bites and is caused by parasites. The parasites cause cancerous tumors that spread throughout an infected animal's body and kill it. What is the best description of DFTD?", "choices": {"text": ["a non-infectious, cell-cycle disease", "an infectious, cell-cycle disease", "a non-infectious, chronic disease", "an infectious, chronic disease"], "label": ["A", "B", "C", "D"]}, "answerKey": "B"}, "origin_prompt": {"data": ["Devil facial tumor disease (DFTD) is a disease that is decimating the population of Tasmanian devils. The disease passes from one animal to another through bites and is caused by parasites. The parasites cause cancerous tumors that spread throughout an infected animal's body and kill it. What is the best description of DFTD?\nA. a non-infectious, cell-cycle disease\nB. an infectious, cell-cycle disease\nC. a non-infectious, chronic disease\nD. an infectious, chronic disease\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_7270393", "question": "Devil facial tumor disease (DFTD) is a disease that is decimating the population of Tasmanian devils. The disease passes from one animal to another through bites and is caused by parasites. The parasites cause cancerous tumors that spread throughout an infected animal's body and kill it. What is the best description of DFTD?", "choices": {"text": ["a non-infectious, cell-cycle disease", "an infectious, cell-cycle disease", "a non-infectious, chronic disease", "an infectious, chronic disease"], "label": ["A", "B", "C", "D"]}, "answerKey": "B"}}}
{"id": "chat-2ad1e3f75f5e45ecba8566b5c2194863", "object": "chat.completion", "created": 1737100287, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The most likely reason for the small mammal to place grasses and seeds in protected places in the rock piles during the summer months is:\n\nC. to store food that will be eaten over the winter months\n\nThis behavior is a common strategy for many small mammals living in mountainous regions where food can be scarce during the winter. By storing food in a protected location, the mammal ensures a supply of sustenance to survive the colder months when foraging is more difficult.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 137, "total_tokens": 233, "completion_tokens": 96}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-7127f8802d79d40282bd998e2842246c", "subset_name": "ARC-Challenge", "raw_input": {"id": "MCAS_2014_5_7", "question": "A type of small mammal from the mountain regions of the western United States makes its home out of piles of rock. During summer months, the mammal places grasses and seeds in protected places in the rock piles. Which of the following is the most likely reason for this behavior?", "choices": {"text": ["to repare for migration before winter", "to provide warmth during the cold winter months", "to store food that will be eaten over the winter months", "to protect the grasses and seeds from decay before winter"], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}, "origin_prompt": {"data": ["A type of small mammal from the mountain regions of the western United States makes its home out of piles of rock. During summer months, the mammal places grasses and seeds in protected places in the rock piles. Which of the following is the most likely reason for this behavior?\nA. to repare for migration before winter\nB. to provide warmth during the cold winter months\nC. to store food that will be eaten over the winter months\nD. to protect the grasses and seeds from decay before winter\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "MCAS_2014_5_7", "question": "A type of small mammal from the mountain regions of the western United States makes its home out of piles of rock. During summer months, the mammal places grasses and seeds in protected places in the rock piles. Which of the following is the most likely reason for this behavior?", "choices": {"text": ["to repare for migration before winter", "to provide warmth during the cold winter months", "to store food that will be eaten over the winter months", "to protect the grasses and seeds from decay before winter"], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}}}
{"id": "chat-7c3a63708fc04eea8581f1ecd4149cf9", "object": "chat.completion", "created": 1737100288, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The presence of petrified palm trees in sedimentary rock near glaciers most likely provides evidence for:\n\nC. The climate in the area was once tropical.\n\nPalm trees are typically associated with warm, tropical climates. The fact that petrified palm trees are found in sedimentary rock near glaciers suggests that the climate in the area was once much warmer and more tropical, allowing palm trees to grow there. Over time, changes in the climate or tectonic activity could have led to the formation of glaciers in the area, while the petrified remains of the palm trees remained, providing evidence of the past climate conditions.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 103, "total_tokens": 229, "completion_tokens": 126}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-5ebe8f1397b687acf1dd064cbb5abfc5", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_7086660", "question": "Petrified palm trees are found in sedimentary rock near glaciers. The presence of the petrified palm trees most likely provides evidence for which statement?", "choices": {"text": ["There was once more water in the area.", "The area was once grassland.", "The climate in the area was once tropical.", "There are active faults in the area."], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}, "origin_prompt": {"data": ["Petrified palm trees are found in sedimentary rock near glaciers. The presence of the petrified palm trees most likely provides evidence for which statement?\nA. There was once more water in the area.\nB. The area was once grassland.\nC. The climate in the area was once tropical.\nD. There are active faults in the area.\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_7086660", "question": "Petrified palm trees are found in sedimentary rock near glaciers. The presence of the petrified palm trees most likely provides evidence for which statement?", "choices": {"text": ["There was once more water in the area.", "The area was once grassland.", "The climate in the area was once tropical.", "There are active faults in the area."], "label": ["A", "B", "C", "D"]}, "answerKey": "C"}}}
{"id": "chat-fc952be2834348ccbe02aa6a924e4707", "object": "chat.completion", "created": 1737100289, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The most likely outcome in this scenario is:\n\nB. Populations of mice and rats would increase.\n\nExplanation:\nWhen hawks, which are predators of small mammals like mice and rats, are removed from an area, the population of their prey (mice and rats) is likely to increase. This is due to the reduction in predation pressure. Without the hawks to control their numbers, the mice and rats can reproduce more freely, leading to a population boom. This can have various ecological and economic impacts, including potential increases in crop damage and other issues related to rodent overpopulation.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 127, "total_tokens": 247, "completion_tokens": 120}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-82e48524a9eb7f5b7250c640af83a341", "subset_name": "ARC-Challenge", "raw_input": {"id": "Mercury_7168805", "question": "Farmers in Wyoming were concerned because some of their chickens were being preyed upon by hawks that lived in areas around their ranches. The farmers grouped together and hunted the hawks until they were no longer in their area. Which would most likely happen next?", "choices": {"text": ["The chicken population would go down.", "Populations of mice and rats would increase.", "Another bird of prey would replace the hawk.", "The chickens would have a lower rate of disease."], "label": ["A", "B", "C", "D"]}, "answerKey": "B"}, "origin_prompt": {"data": ["Farmers in Wyoming were concerned because some of their chickens were being preyed upon by hawks that lived in areas around their ranches. The farmers grouped together and hunted the hawks until they were no longer in their area. Which would most likely happen next?\nA. The chicken population would go down.\nB. Populations of mice and rats would increase.\nC. Another bird of prey would replace the hawk.\nD. The chickens would have a lower rate of disease.\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "Mercury_7168805", "question": "Farmers in Wyoming were concerned because some of their chickens were being preyed upon by hawks that lived in areas around their ranches. The farmers grouped together and hunted the hawks until they were no longer in their area. Which would most likely happen next?", "choices": {"text": ["The chicken population would go down.", "Populations of mice and rats would increase.", "Another bird of prey would replace the hawk.", "The chickens would have a lower rate of disease."], "label": ["A", "B", "C", "D"]}, "answerKey": "B"}}}
{"id": "chat-c17352832d23467e88fc097b24e794f2", "object": "chat.completion", "created": 1737100291, "model": "Qwen2.5-7B-Instruct", "choices": [{"index": 0, "message": {"role": "assistant", "content": "The smallest unit of copper that still maintains the characteristics of copper is the atom. Therefore, the correct answer is:\n\nA. the atom\n\nTo explain further, an atom is the basic unit of an element that contains the same chemical properties as the element itself. Copper atoms are the fundamental units that define the properties of copper, such as its electrical conductivity. The other options (electron, nucleus, and proton) are subatomic particles that make up an atom but do not individually represent the full characteristics of copper as an element.", "tool_calls": []}, "logprobs": null, "finish_reason": "stop", "stop_reason": null}], "usage": {"prompt_tokens": 78, "total_tokens": 184, "completion_tokens": 106}, "prompt_logprobs": null, "model_spec": {"api_url": "http://127.0.0.1:8801/v1/chat/completions", "model_id": "Qwen2.5-7B-Instruct", "api_key": "EMPTY"}, "answer_id": "answer-f947388500213272ac169f7b20e740e1", "subset_name": "ARC-Challenge", "raw_input": {"id": "MCAS_2003_8_11", "question": "Copper is an element that is used in electrical wires. What is the smallest unit of copper that still maintains the characteristics of copper?", "choices": {"text": ["the atom", "the electron", "the nucleus", "the proton"], "label": ["A", "B", "C", "D"]}, "answerKey": "A"}, "origin_prompt": {"data": ["Copper is an element that is used in electrical wires. What is the smallest unit of copper that still maintains the characteristics of copper?\nA. the atom\nB. the electron\nC. the nucleus\nD. the proton\nAnswer:"], "multi_choices": ["A", "B", "C", "D"], "raw_input": {"id": "MCAS_2003_8_11", "question": "Copper is an element that is used in electrical wires. What is the smallest unit of copper that still maintains the characteristics of copper?", "choices": {"text": ["the atom", "the electron", "the nucleus", "the proton"], "label": ["A", "B", "C", "D"]}, "answerKey": "A"}}}