RL Iteration 25

Generated 2026-06-11T16:40:06

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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 2. Apples on Tuesday = 3 * Apples on Monday = 3 * 15 = 45 Apples. 3. Apples on Wednesday = 4 * Apples On Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 2. Apples on Tuesday = 3 * Apples on Monday = 3 * 15 = 45 Apples. 3. Apples on Wednesday = 4 * Apples On Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 1. Apples on Tuesday = 3 * Apples on Monday = 3 * 15 = 45 Apples. 1. Apples on Wednesday = 4 * Apples On Tuesday = 4 * 45 = 180 Apples. 1. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 2. Apples On Tuesday = 3 * Apples On Monday = 3 * 15 = 45 Apples. 3. Apples On Wednesday = 4 * Apples On Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples Monday = 15 Apples. 2. Apples Tuesday = 3 * Apples Monday = 3 * 15 = 45 Apples. 3. Apples Wednesday = 4 * Apples Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday Total = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 2. Apples on Tuesday = 3 * Apples on Monday = 3 * 15 = 45 Apples. 3. Apples on Wednesday = 4 * Apples On Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 2. Apples on Tuesday = 3 * Apples on Monday = 3 * 15 = 45 Apples. 3. Apples on Wednesday = 4 * Apples On Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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:
Adam bought 15 apples on Monday. On Tuesday he bought 3 times that quantity. On Wednesday he bought 4 times the quantity he bought on Tuesday. What is the total quantity Adam bought on these three days?

Policy Response

assistant:
1. Apples on Monday = 15 Apples. 2. Apples on Tuesday = 3 * Apples on Monday = 3 * 15 = 45 Apples. 3. Apples on Wednesday = 4 * Apples on Tuesday = 4 * 45 = 180 Apples. 4. Total Apples = Monday + Tuesday + Wednesday = 15 + 45 + 180 = 240 Apples. \boxed{240}

Reward

Reward components
key value
reference_answer 240
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 98
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 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 98
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 2 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 98
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 3 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 98
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 98
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 5 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 98
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 6 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 98
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 7 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 98
ac_len 112
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1. Total Ounces Beat = Last Year Winner * Hamburgers = 84 Ounces / 4 Ounces per Hamburger. 2. 84 / 4 = 21 Hamburgers. \boxed{21}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1. Total Weight = Last Year Winner's Eaten = 84 ounces. Oat/Burgers Per Hamburger = 4 ounces. Hamburgers = Total Weight / Burgers Per Hamburger = 84 / 4 = 21 Hamburgers. To Beat = Hamburgers + 1 = 21 + 1 = 22 Hamburgers. \boxed{22}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1. Ounces Needed = Last Year's Winner Ounces = 84 ounces. * Hamburgers = Ounces / Ounces Per Hamburger = 84 / 4 = 21 Hamburgers. * Hamburgers to Beat = 21 + 1 = 22 Hamburgers. \boxed{22}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1 * Hamburgers Last Year = Total Ounces Last Year / Ounces Per Hamburger 2 Hamburgers Last Year = 84 Ounces / 4 Ounces = 21 Hamburgers 3 Hamburgers New = Hamburgers Last Year + 1 4 Hamburgers New = 21 + 1 = 22 Hamburgers \boxed{22}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1. Total Weight = Last Year's Winner Ounces = 84 ounces. Hamburgers per Contest = Total Weight / Weight Per Hamburger = 84 ounces / 4 ounces = 21 hamburgers. To Beat = 21 Hamburgers + 1 Hamburger = 22 Hamburgers. \boxed{22}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1. Ounces Last Year = 84 ounces. Hamburgers Per Hamburger = 4 ounces. Hamburgers Last Year = Ounces Last Year / Hamburgers Per Hamburger = 84 / 4 = 21 hamburgers. Target Hamburgers = Hamburgers Last Year + 1 = 21 + 1 = 22 hamburgers. \boxed{22}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1 1. Ounces per Year = Last Year Winner - Hamburgers = 84 Ounces - Hamburgers. 2. Hamburgers = Total Ounces / Ounces Per Hamburger = 84 Ounces / 4 Ounces = 21 Hamburgers. 3. To Beat = Last Year Hamburgers + 1 = 21 + 1 = 22 Hamburgers. \boxed{22}

Reward

Reward components
key value
reference_answer 22
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:
Tonya is in a hamburger eating contest. Each hamburger is 4 ounces. Last year the winner ate 84 ounces. How many hamburgers does she have to eat to beat last year's winner?

Policy Response

assistant:
1. Ountage = Last Year's Total Ounces / Ounces Per Hamburger Ountage = 84 Ounces / 4 Ounces per Hamburger Ountage = 21 Hamburgers 2. Hamburgers to Beat = Ountage + 1 Hamburgers = 21 + 1 = 22 Hamburgers \boxed{22}

Reward

Reward components
key value
reference_answer 22
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 95
ac_len 54
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 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 95
ac_len 87
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 95
ac_len 76
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 95
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 4 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 95
ac_len 78
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 95
ac_len 89
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 95
ac_len 98
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 95
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

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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Mornings per Week* = 1 day/week * 7 days/week = 7 Mornings. 2. *Cost per Morning* = Latte + Croissant = $3.75 + $3.50 = $7.25. 3. *Total Cookie Cost* = Cookies * Price = 5 Cookies * $1.25 = $6.25. 4. *Total Expenses* = (Mornings * Cost per Morning) + Cookie Cost = (7 Mornings * $7.25) + $6.25 = $50.75 + $6.25 = $57.00. 5. *Remaining Balance* = Gift Card - Total Expenses = $100.00 - $57.00 = $43.00. \boxed{43.00}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. * Total Days = 1 Week = 7 Days. 1. * Latte Cost = $3.75 per Day. 2. * Croissant Cost = $3.50 per Day. 3. * Cookies Cost = 5 Cookies * $1.25 = $6.25 per Day. 4. * Daily Expenses = Latte + Croissant + Cookies Daily Expenses = $3.75 + $3.50 + $6.25 = $13.50. 5. * Total Expenses = Daily Expenses * Days Total Expenses = $13.50 * 7 Days = $94.50. 6. * Remaining = Gift Card - Total Expenses Remaining = $100.00 - $94.50 = $5.50. \boxed{5.50}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Earnings = Gift Card Value = $100.00* 1. *Items per Day = Latte + Croissant + Cookies* * Cookies = 5 Cookies * $1.25 = $6.25 1. *Total Cost Per Day = $3.75 + $3.50 + $6.25 = $13.50* 1. *Days Per Week = 7 Days* 1. *Total Cost = Total Cost Per Day * Days = $13.50 * 7 = $94.50* 1. *Remaining = Earnings - Total Cost = $100.00 - $94.50 = $5.50* \boxed{5.50}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Cost per Day = Latte + Croissant = $3.75 + $3.50 = $7.25 per Day. 2. *Cookies per Week = 5 Cookies * $1.25 = $6.25 per Week. 3. *Total Days = 1 Week = 7 Days. 4. *Total Weekly Expenses = (Cost Per Day * Days) + Cookies = ($7.25 * 7) + $6.25. 5. $7.25 * 7 = $50.75. 6. $50.75 + $6.25 = $57.00. 7. *Remaining = Gift Card - Total Expenses = $100.00 - $57.00 = $43.00. \boxed{43.00}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Coffee Shops:* * Latte Cost = $3.75 * Croissant Cost = $3.50 * Days Per Week = 7 2. *Total Cost Per Day = Latte + Croissant = $3.75 + $3.50 = $7.25* 3. *Total Cookies = Cookies * Cost = 5 * $1.25 = $6.25* 4. *Total Weekly Subscriptions = Daily Cost * Days = $7.25 * 7 = $50.75* 5. *Total Spend = Daily Subscriptions + Cookies = $50.75 + $6.25 = $57.00* 6. *Remaining = Gift Card - Total Spend = $100.00 - $57.00 = $43.00* \boxed{43.00}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Morning Items per Day:* * Latte = $3.75 * Croissant = $3.50 * Total Daily = $3.75 + $3.50 = $7.25 2. *Cookies per Week:* * Cookies = 5 Cookies * $1.25 = $6.25 3. *Total Week = Daily Cost * Days + Weekly Cookies* * Days = 1 Week = 7 Days * Total = 7 Days * $7.25 + $6.25 * Total = 50.75 + 6.25 = 57.00 4. *Remaining = Gift Card - Total* * Remaining = $100.00 - $57.00 = 43.00 \boxed{43.00}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Morning Routine Items per Day:* * Latte = $3.75 * Croissant = $3.50 * Total Morning = $3.75 + $3.50 = $7.25 2. *Week Cookies:* * Cookies Per Week = 5 Cookies * $1.25 = $6.25 3. *Total Expenditure:* * Days Per Week = 7 Days * Total Mornings = 7 Days * $7.25 = $50.75 * Total = Mornings + Cookies = $50.75 + $6.25 = $57.00 4. *Remaining Balance:* * Gift Card = $100.00 * Balance = $100.00 - $57.00 = $43.00 \boxed{43.00}

Reward

Reward components
key value
reference_answer 43
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:
Claire won a $100 gift card to her favorite coffee shop. She wants to treat herself to a latte that cost $3.75 and a croissant for $3.50 every morning for a week. She also plans to buy 5 cookies that cost $1.25 each. How much money will be left on her card after a week of coffee and pastry?

Policy Response

assistant:
1. *Cost per Day = Latte + Croissant = $3.75 + $3.50 = $7.25. 2. *Total Days = 1 Week = 7 Days. 3. *Cookies Per Week = 5 Cookies * $1.25 = $6.25. 4. *Total Expenditure = (Cost Per Day * Days) + Cookies = ($7.25 * 7) + $6.25 = $50.75 + $6.25 = $57.00. 5. *Remaining = Gift Card - Total Expenditure = $100.00 - $57.00 = $43.00. \boxed{43.00}

Reward

Reward components
key value
reference_answer 43
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 135
ac_len 195
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 1 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 135
ac_len 195
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 135
ac_len 172
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 135
ac_len 193
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 135
ac_len 211
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 135
ac_len 206
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 135
ac_len 174
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 135
ac_len 200
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1. Current Age of Fem = 11 years. 1. Matt's Current Age = 4 * Fem = 4 * 11 = 44 years. 1. Years From Now = 2 years. 1. Futuie Age of Fem = 11 + 2 = 13 years. 1. Futuie Age of Matt = 44 + 2 = 46 years. 1. Sum = 13 + 46 = 59 years. \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1 1. Matt's Current Age = Fem's Current Age * 4 2. Fem's Current Age = 11 years 3. Matt's Current Age = 11 * 4 = 44 years 4. Years Elapsed = 2 Years 5. Fem's Age in 2 Years = 11 + 2 = 13 Years 6. Matt's Age in 2 Years = 44 + 2 = 46 Years 7. Sum = 13 + 46 = 59 Years \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1 1. Matt's Current Age = Fem's Current Age * 4 * Fem = 11 years * Matt = 11 * 4 = 44 years 2. Time Elapsed = 2 Years 3. Matt's Age in 2 Years = 44 + 2 = 46 Years 4. Fem's Age in 2 Years = 11 + 2 = 13 Years 5. Sum = 46 + 13 = 59 Years \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1. 1. Matt's Current Age = Fem's Current Age * 4 - Fem = 11 years - Matt = 11 * 4 = 44 years 2. Years from Now = 2 Years 3. Matt's Age in 2 Years = 44 + 2 = 46 Years 4. Fem's Age in 2 Years = 11 + 2 = 13 Years 5. Sum = 46 + 13 = 59 Years \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1. 1. Matt's Current Age = Fem's Current Age * 4 = 11 years * 4 = 44 years. 2. Years From Now = 2 years. 3. Matt's Age In Two Years = 44 years + 2 years = 46 years. 4. Fem's Age In Two Years = 11 years + 2 years = 13 years. 5. Sum = 46 years + 13 years = 59 years. \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1 1. Matt's Current Age = Fem's Current Age * 4 * Fem = 11 years 2. Matt = 11 * 4 = 44 years 3. Years From Now = 2 years 4. Matt's Future Age = 44 + 2 = 46 years Fem's Future Age = 11 + 2 = 13 years 5. Sum = 46 + 13 = 59 years \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1 1. Matt's Current Age = Fem's Current Age * 4 Fem = 11 years Matt = 11 * 4 = 44 years 2. Age in Two Years = Current Age + 2 Matt_Future = 44 + 2 = 46 years Fem_Future = 11 + 2 = 13 years 3. Sum = Matt_Future + Fem_Future Sum = 46 + 13 = 59 \boxed{59}

Reward

Reward components
key value
reference_answer 59
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:
Matt is four times as old as Fem. Currently, Fem is 11 years old. In two years, what is the sum of the ages of Matt and Fem?

Policy Response

assistant:
1. Matt's Current Age = Fem's Current Age * 4 = 11 years * 4 = 44 years. 1. Years Passed = 2 Years. 1. Matt's Age in 2 Years = 44 + 2 = 46 Years. 1. Fem's Age in 2 Years = 11 + 2 = 13 Years. 1. Sum = 46 + 13 = 59 Years. \boxed{59}

Reward

Reward components
key value
reference_answer 59
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 88
ac_len 118
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 88
ac_len 121
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 88
ac_len 126
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 88
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 4 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 88
ac_len 121
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 88
ac_len 118
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 88
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 7 Episode

Episode Details
Turn 1
Step stats
key value
ob_len 88
ac_len 120
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