results: 52
This data as json
| id | model_name | task_name | sample_id | prompt_actual | prompt_full | gold_answer | is_correct | extracted_answers | stop_reasons | response_1 |
|---|---|---|---|---|---|---|---|---|---|---|
| 52 | grpo-gsm8k-train-13ep-success_global_step_50 | gsm8k_main(0) | 51 | Question: Tom's ship can travel at 10 miles per hour. He is sailing from 1 to 4 PM. He then travels back at a rate of 6 mph. How long does it take him to get back? Answer: | <|im_start|>system You are Qwen, created by Alibaba Cloud. You are a helpful assistant.<|im_end|> <|im_start|>user Output format: end your response with \boxed{<answer>} where <answer> is the final answer. Question: Tom's ship can travel at 10 miles per hour. He is sailing from 1 to 4 PM. He then travels back at a rate of 6 mph. How long does it take him to get back? Answer:<|im_end|> <|im_start|>assistant | 5 | 0 | [0.8] | [stop:-] | To determine how long it takes Tom to travel back from 4 PM to 1 PM, we need to calculate the time taken for each leg of the journey and then sum these times. First, let's calculate the time taken to travel from 1 PM to 4 PM. The distance from 1 PM to 4 PM is 3 hours. Since Tom's ship travels at 10 miles per hour, the time taken for this leg of the journey is: \[ \text{Time} = \frac{\text{Distance}}{\text{Speed}} = \frac{3 \text{ hours}}{10 \text{ miles per hour}} = 0.3 \text{ hours} \] Next, let's calculate the time taken to travel back from 4 PM to 1 PM. The distance from 4 PM to 1 PM is also 3 hours. Since Tom's ship travels at 6 miles per hour, the time taken for this leg of the journey is: \[ \text{Time} = \frac{\text{Distance}}{\text{Speed}} = \frac{3 \text{ hours}}{6 \text{ miles per hour}} = 0.5 \text{ hours} \] Now, we sum the times for both legs of the journey: \[ 0.3 \text{ hours} + 0.5 \text{ hours} = 0.8 \text{ hours} \] Therefore, the total time it takes Tom to get back is: \[ \boxed{0.8} \] |