RL Iteration 27

Generated 2026-06-11T16:40:30

This HTML log was generated by logtree during RL training. It shows rollouts and rewards for a subset of trajectory groups in this iteration. To customize what gets logged, modify the logtree calls in your Env implementation (see examples in tinker_cookbook/recipes/).

Group Rollout

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1. *Earnings = (Housesits * Hours) + (Dog Walking * Dogs * Hours) 11. Housesits = 10 hours * $15/hr = $150. 12. Dog Walks = 3 dogs * $22/hr = $66. 13. Total Earnings = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1.1.1. 11.1.1.1.1. 1.1.1.1. Earnings = (Housesit Hours * Housesit Pay) + (Dog Walks * Dog Walk Pay) 1. Housesit Earnings = 10 hours * $15/hr = $150. 2. Dog Walk Earnings = 3 dogs * $22/ Dog = $66. 3. Total Earnings = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1. *Earnings = (Housesitting Hours * Housesit Pay) + (Dogs * Dog Walks * Dog Walk Pay) 1. Housesitting Earnings = 10 hours * $15/hr = $150. Dog Walking Earnings = 3 dogs * $22/hr = $66. Total Earnings = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1. *Earnings = (Housesits * Hours Per Housesit) * Pay Per HouseSit + (Dogs * Dogs Per Walk) * Pay Per Walk 11. Housesits = 10 hours * $15 = $150. 12. Dog Walks = 3 dogs * $22 = $66. 13. Total = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1. *Earnings = (Housesits * Hours * Rate) + (Dog Walks * Dogs * Rate) 11. Housesits = 10 hours * $15/hour = $150. 12. Dog Walks = 3 dogs * $22/dog = $66. 13. Total = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1.1.1. *Earnings = (Housesit Hours * Housesit Pay) + (Dog Walks * Dog Walks Pay) 11.1.1. *Housesit Earnings = 10 hours * $15/hour = $150. 11.1.2. *Dog Walk Earnings = 3 dogs * $22/hour = $66. 11.1.3. *Total Earnings = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1. *Earnings = (Housesits * Hours) + (Dog Walks *每小时 * Dogs) 1. Housesits Earnings = 10 hours * $15/hr = $150. Dog Walks Earnings = 3 dogs * $22/hr = $66. Total Earnings = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Charles can earn $15 per hour when he housesits and $22 per hour when he walks a dog. If he housesits for 10 hours and walks 3 dogs, how many dollars will Charles earn?

Policy Response

assistant:
111.1.1.1.1. *1. Earnings from Housesitting = Hours * Pay = 10 hours * $15/hr = $150. Earnings from Dog Walking = Dogs * Hours * Pay = 3 dogs * 1 hour/dog * $22/hr = $66. Total Earnings = Housesitting Earnings + Dog Walking Earnings = $150 + $66 = $216. \boxed{216}

Reward

Reward components
key value
reference_answer 216
format_valid True
correct True
format_coef 0.1
reward 1.000

Trajectory Details

Trajectory 0 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 132
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 106
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 2 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 132
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 3 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 111
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 4 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 110
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 5 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 102
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 6 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 105
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 7 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 99
ac_len 100
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Group Rollout

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11.1. * Twice 51 = 2 * 51 = 102. 11.1. * Three Less = 102 - 3 = 99. 11.1. * X / 3 = 99. X = 99 * 3 = 297. \boxed{297}

Reward

Reward components
key value
reference_answer 33
format_valid True
correct False
format_coef 0.1
reward 0.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. * 3 = 3 * 1. * 51 * 2 = 3 * 51 * 2 = 306. 306 - 3 = 303. x = 303 / 3 = 101. \boxed{101}

Reward

Reward components
key value
reference_answer 33
format_valid True
correct False
format_coef 0.1
reward 0.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. *Twice 51* = 2 * 51 = 102. 11. *Three Less Than 102* = 102 - 3 = 99. 11. *Number * 3 = 99. 11. *Number* = 99 / 3 = 33. \boxed{33}

Reward

Reward components
key value
reference_answer 33
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. 11. 11. 11. 11. 1. *Twice 51* = 51 * 2 = 102. 2. *Three Less* = 102 - 3 = 99. 3. *Divide by 3* = 99 / 3 = 33. \boxed{33}

Reward

Reward components
key value
reference_answer 33
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. 11. 11. 1. 1. 1. 1. 1. 1. 1. 1. 1. 11. 1. 1. 1. 1. 1. 1. 1. 1. 1. 11. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1.

Reward

Reward components
key value
reference_answer 33
format_valid False
correct False
format_coef 0.1
reward -0.100

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. * 3 = 3 * 1. 1. Twice 51 = 51 * 2 = 102. 3. Three less than 102 = 102 - 3 = 99. 4. Number = 99 / 3 = 33. \boxed{33}

Reward

Reward components
key value
reference_answer 33
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. * 3 = 2 * 51 - 3 11 = 102 - 3 11 = 99 * = 99 / 3 * = 33 \boxed{33}

Reward

Reward components
key value
reference_answer 33
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Armand is playing a guessing game with his dad where he has to guess a number his dad is thinking of. His dad tells him that the number, when multiplied by 3, is three less than twice 51. What is the number?

Policy Response

assistant:
11.1.1.1. 11. 11. 11. 1. 1. 1. 1. 1. 1. 11. 1. 1. 1. 1. 1. 11. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1.

Reward

Reward components
key value
reference_answer 33
format_valid False
correct False
format_coef 0.1
reward -0.100

Trajectory Details

Trajectory 0 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 102
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 67
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 2 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 320
step_reward -0.100
Step Metrics
Metrics emitted by env.step
key value
format 0.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards -0.100
final_group_reward 0.000
total_return -0.100

Trajectory 3 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 84
step_reward 0.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 0.000
final_group_reward 0.000
total_return 0.000

Trajectory 4 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 90
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 5 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 100
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 6 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 95
step_reward 0.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 0.000
final_group_reward 0.000
total_return 0.000

Trajectory 7 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 104
ac_len 320
step_reward -0.100
Step Metrics
Metrics emitted by env.step
key value
format 0.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards -0.100
final_group_reward 0.000
total_return -0.100

Group Rollout

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. 111.1.1. 111.1.1.1. 1.1. 1. Sweeping Time = Rooms * Minutes = 10 rooms * 3 minutes = 30 minutes. 1. Laundry Time = Loads * Minutes = 2 loads * 9 minutes = 18 minutes. 1. Dishes = (Sweeping Time - Laundry Time) / Minutes Per Dish = (30 - 18) / 2 = 12 / 2 = 6 dishes. \boxed{6}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. *1. *Time per Chore = Time per Room * Rooms = Sweeping Time = 3 minutes/room * 10 rooms = 30 minutes. 1. *Laundry Time = Loads * Time Per Load = 2 loads * 9 minutes = 18 minutes. 1. *Dishes = Total Laundry Time + Sweeping Time = 18 minutes + 30 minutes = 48 dishes. 1. *Dishes Per Child = Total Dishes / Kids = 48 dishes / 1 kid = 48 dishes. \boxed{48}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct False
format_coef 0.1
reward 0.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. 11.1.1.1. 1.1. *1. Sweeping Time = Rooms * Minutes Per Room = 10 rooms * 3 minutes = 30 minutes. 2. Laundry Time = Loads * Minutes Per Load = 2 loads * 9 minutes = 18 minutes. 3. Time = Sweeping Time + Laundry Time = 30 minutes + 18 minutes = 48 minutes. 4. Dishes = Total Time - Laundering Time = 48 minutes - 18 minutes = 30 dishes. Dishes Per Dish = 30 dishes / 2 Minutes = 15 dishes. \boxed{15}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct False
format_coef 0.1
reward 0.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. *1.1. 1. *Mins_Sweeping* = *Rooms* *Mins/Room = 10 rooms * 3 mins = 30 minutes. 1. *Mins_Laundry* = *Loads* *Mins/Load = 2 loads * 9 mins = 18 minutes. 1. *Total_Billy_Time* = *Mins_Laundry* + *Dishes* *Mins/Dish = 18 + *Dishes* * 2. 1. *Time_Both* = *Mins_Sweeping* = 30 Minutes. 1. 30 = 18 + *Dishes* * 2 1. 12 = *Dishes* * 2 1. *Dishes* = 6. \boxed{6}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. 11.1.1. *1. Chores for Anna = - Sweeping = Rooms * Minutes = 10 rooms * 3 minutes = 30 minutes. - Laundry = Loads * Minutes = 2 loads * 9 minutes = 18 minutes. - Total Time = Sweeping + Laundry = 30 + 18 = 48 minutes. 12. Dishes = Total Time - Other Chores = 48 - 18 = 30 dishes. 13. Dishes Per Load = Total Dishes / Loads = 30 dishes / 2 loads = 15 dishes. \boxed{15}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct False
format_coef 0.1
reward 0.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. *1. Time per Child = Chores / Chores Per Child 11.1.1. *Sweeping Time = Rooms * Minutes = 10 rooms * 3 minutes = 30 minutes. 11.2.1. *Laundry Time = Loads * Minutes = 2 loads * 9 minutes = 18 minutes. 11.3.1. *Dishes = (Sweeping Time - Laundry Time) / Dishes Per Dish = (30 - 18) / 2 = 12 / 2 = 6 dishes. \boxed{6}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1. 11.1. *1. *Chores for Anna* = *Sweeping* + *Laundry* *Sweeping* = *Rooms* *Minutes Per Room* = 10 rooms * 3 minutes = 30 minutes. *Laundry* = 0 loads = 0 * 9 minutes = 0 minutes. *Total Time* = 30 minutes + 0 minutes = 30 minutes. 12. *Chores for Billy* = *Laundry* + *Dishes* *Laundry* = *Loads* *Minutes Per Load* = 2 loads * 9 minutes = 18 minutes. *Dishes* = *Total Time* - *Laundry* / *Minutes Per Dish* = (30 - 18) / 2 = 12 / 2 = 6 dishes. \boxed{6}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Carla is dividing up chores for her two kids, Anna and Billy. She wants each of them to spend the same number of minutes working. Sweeping takes 3 minutes per room, washing the dishes takes 2 minutes per dish, and doing laundry takes 9 minutes per load. If Anna does the sweeping for 10 rooms and Billy does two loads of laundry, how many dishes should Billy wash so they spend the same amount of time doing chores?

Policy Response

assistant:
111.1.1.1.1.1. 11.1.1.1.1. 11.1.1.1.1. 1.1.1.1. 1. *Time per Choice = Chores * Time Per Chore* 1. *Anna's Time = Sweeping Rooms * Minutes Per Room = 10 rooms * 3 minutes = 30 minutes. 1. *Billy's Time = Laundry Loads * Minutes Per Load + Dishes * Dishes * Minutes Per Dish = 2 loads * 9 minutes + X * 2 minutes. 1. 30 = 18 + 2X. 1. 2X = 12. 1. X = 6. \boxed{6}

Reward

Reward components
key value
reference_answer 6
format_valid True
correct True
format_coef 0.1
reward 1.000

Trajectory Details

Trajectory 0 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 197
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 135
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 2 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 160
step_reward 0.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 0.000
final_group_reward 0.000
total_return 0.000

Trajectory 3 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 210
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 4 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 173
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 5 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 164
step_reward 0.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 0.000
final_group_reward 0.000
total_return 0.000

Trajectory 6 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 145
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 7 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 146
ac_len 142
step_reward 0.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 0.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 0.000
final_group_reward 0.000
total_return 0.000

Group Rollout

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1.1. 11. Packets * Pieces Per Packet = 8 packets * 7 pieces = 56 total pieces. 1. Gum Excepted = Total Gum - Pieces Saved = 56 pieces - 2 pieces = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1. 11.1.1. 1. Total Packets = Packets * Pieces = 8 packets * 7 pieces = 56 pieces. 1. Gum Chewing = Total Gum - Unchewed Gum = 56 pieces - 2 pieces = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1. 11.1.1.1. 1.1.1. 1. Packets = 8 packets * 7 pieces = 56 total pieces. 1. Pieces Left = Total Pieces - Unchewed Pieces = 56 - 2 = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1. 11.1.1.1. 1.1. *Gum Per Packet = 7 pieces. 1.1. *Packets = 8 packets. 1.1. *Total Gum = Gum Per Packet * Packets = 7 * 8 = 56 pieces. 1.1. *Exclusions = Total Gum - Excepted Pieces = 56 - 2 = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1. *1. *Packets * Pieces Per Packet = Total Gum = 8 packets * 7 pieces = 56 pieces. 1.Exclusions = Total Gum - Pieces Left = 56 pieces - 2 pieces = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1. *1. *Gum per Packet = 7 pieces. 1. *Total Packets = 8 packets. 2. *Total Pieces = Gum per Packet * Packets = 7 pieces/packet * 8 packets = 56 pieces. 3. *Excluded Pieces = 2 pieces. 4. *Gum Chewed = Total Pieces - Excluded Pieces = 56 - 2 = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1.1. 11.1.1.1. 1.1.1.1. 1. Packets = 8 packets * 7 pieces/ packet = 56 total pieces. 1. Pieces Removed = Total Pieces - Excluded Pieces = 56 - 2 = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Prompt

system:
You are a careful math assistant. Solve the grade-school math problem step by step, then give the final numeric answer on its own line in the form \boxed{ANSWER}.
user:
Mitchell is trying to chew as many pieces of gum at once as he can. He has 8 packets of gum, There are 7 pieces in each. If he chews all the gum except for 2 pieces, how many pieces does he chew at once?

Policy Response

assistant:
111.1.1.1.1. *1. Gum per Packet = 7 pieces. 1. Total Packets = 8 packets. 1. Total Gum = Gum per Packet * Packets = 7 pieces/ packet * 8 packets = 56 pieces. 1. Gum Not Chewed = 2 pieces. 1. Gum Chewed = Total Gum - Gum Not Chewed = 56 pieces - 2 pieces = 54 pieces. \boxed{54}

Reward

Reward components
key value
reference_answer 54
format_valid True
correct True
format_coef 0.1
reward 1.000

Trajectory Details

Trajectory 0 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 83
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 88
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 2 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 74
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 3 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 114
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 4 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 113
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 5 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 82
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 6 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 111
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000

Trajectory 7 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 108
ac_len 74
step_reward 1.000
Step Metrics
Metrics emitted by env.step
key value
format 1.000
correct 1.000
Episode totals
key value
num_turns 1
final_ob_len 0
sum_step_rewards 1.000
final_group_reward 0.000
total_return 1.000