id int64 0 99 | problem stringlengths 437 440 | number sequencelengths 4 4 | answer stringclasses 1 value | Solved rate stringlengths 3 6 |
|---|---|---|---|---|
0 | Using four numbers 4,5,6,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
5,
6,
10
] | 90.30% | |
1 | Using four numbers 1,2,4,7, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
4,
7
] | 89.10% | |
2 | Using four numbers 2,5,8,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
5,
8,
11
] | 85.90% | |
3 | Using four numbers 3,4,4,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
4,
4,
13
] | 88.80% | |
4 | Using four numbers 6,7,8,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
7,
8,
9
] | 84.50% | |
5 | Using four numbers 1,11,11,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
11,
11,
13
] | 87.70% | |
6 | Using four numbers 1,8,10,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
8,
10,
11
] | 86.90% | |
7 | Using four numbers 2,3,6,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
6,
9
] | 93.10% | |
8 | Using four numbers 1,3,5,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
3,
5,
9
] | 90.60% | |
9 | Using four numbers 3,3,7,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
3,
7,
12
] | 84.50% | |
10 | Using four numbers 4,5,7,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
5,
7,
9
] | 86.70% | |
11 | Using four numbers 1,2,8,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
8,
13
] | 91.30% | |
12 | Using four numbers 4,6,6,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
6,
6,
9
] | 87.60% | |
13 | Using four numbers 1,4,4,8, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
4,
4,
8
] | 89.70% | |
14 | Using four numbers 1,5,10,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
5,
10,
11
] | 86.30% | |
15 | Using four numbers 3,4,6,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
4,
6,
11
] | 88.90% | |
16 | Using four numbers 2,4,8,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
4,
8,
9
] | 84% | |
17 | Using four numbers 1,4,5,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
4,
5,
13
] | 87.70% | |
18 | Using four numbers 2,2,7,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
2,
7,
12
] | 83.20% | |
19 | Using four numbers 3,3,6,7, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
3,
6,
7
] | 88.70% | |
20 | Using four numbers 1,5,9,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
5,
9,
13
] | 84.90% | |
21 | Using four numbers 5,6,7,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
6,
7,
13
] | 86.40% | |
22 | Using four numbers 5,5,8,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
5,
8,
10
] | 81.30% | |
23 | Using four numbers 2,4,6,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
4,
6,
12
] | 94.50% | |
24 | Using four numbers 6,7,8,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
7,
8,
11
] | 83.90% | |
25 | Using four numbers 7,9,9,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
7,
9,
9,
13
] | 88% | |
26 | Using four numbers 3,6,9,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
6,
9,
12
] | 92.70% | |
27 | Using four numbers 6,9,12,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
9,
12,
13
] | 88.30% | |
28 | Using four numbers 4,7,9,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
7,
9,
13
] | 84.30% | |
29 | Using four numbers 5,6,8,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
6,
8,
12
] | 87.90% | |
30 | Using four numbers 2,4,6,7, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
4,
6,
7
] | 90.10% | |
31 | Using four numbers 2,5,10,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
5,
10,
10
] | 78.30% | |
32 | Using four numbers 6,6,7,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
6,
7,
12
] | 83.80% | |
33 | Using four numbers 6,9,9,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
9,
9,
11
] | 82.40% | |
34 | Using four numbers 5,8,11,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
8,
11,
12
] | 86.90% | |
35 | Using four numbers 5,6,8,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
6,
8,
10
] | 87% | |
36 | Using four numbers 6,11,12,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
11,
12,
13
] | 80.10% | |
37 | Using four numbers 2,2,8,8, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
2,
8,
8
] | 91.40% | |
38 | Using four numbers 2,7,12,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
7,
12,
13
] | 80.40% | |
39 | Using four numbers 2,6,8,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
6,
8,
12
] | 94% | |
40 | Using four numbers 3,4,9,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
4,
9,
13
] | 79.60% | |
41 | Using four numbers 4,5,10,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
5,
10,
12
] | 86.20% | |
42 | Using four numbers 1,2,7,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
7,
11
] | 88.10% | |
43 | Using four numbers 4,5,6,8, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
5,
6,
8
] | 87.30% | |
44 | Using four numbers 6,10,12,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
10,
12,
13
] | 82.50% | |
45 | Using four numbers 1,3,9,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
3,
9,
9
] | 85.20% | |
46 | Using four numbers 1,4,4,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
4,
4,
11
] | 86.70% | |
47 | Using four numbers 2,3,9,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
9,
10
] | 90% | |
48 | Using four numbers 1,2,3,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
3,
13
] | 91.70% | |
49 | Using four numbers 1,6,6,6, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
6,
6,
6
] | 85.60% | |
50 | Using four numbers 1,2,2,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
2,
9
] | 82.40% | |
51 | Using four numbers 1,3,6,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
3,
6,
11
] | 88.10% | |
52 | Using four numbers 5,10,12,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
10,
12,
13
] | 83.50% | |
53 | Using four numbers 2,3,6,6, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
6,
6
] | 91.90% | |
54 | Using four numbers 6,7,10,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
7,
10,
12
] | 85.20% | |
55 | Using four numbers 7,8,8,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
7,
8,
8,
12
] | 83.60% | |
56 | Using four numbers 3,4,6,8, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
4,
6,
8
] | 90.70% | |
57 | Using four numbers 1,7,9,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
7,
9,
11
] | 85.10% | |
58 | Using four numbers 2,3,6,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
6,
13
] | 90% | |
59 | Using four numbers 2,2,5,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
2,
5,
12
] | 84.80% | |
60 | Using four numbers 2,6,8,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
6,
8,
13
] | 87.20% | |
61 | Using four numbers 8,8,10,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
8,
8,
10,
12
] | 78.70% | |
62 | Using four numbers 1,3,8,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
3,
8,
13
] | 90.40% | |
63 | Using four numbers 4,4,7,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
4,
7,
10
] | 75.20% | |
64 | Using four numbers 1,7,10,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
7,
10,
13
] | 83.70% | |
65 | Using four numbers 1,9,10,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
9,
10,
13
] | 83% | |
66 | Using four numbers 3,3,4,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
3,
4,
11
] | 88.60% | |
67 | Using four numbers 2,5,7,7, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
5,
7,
7
] | 82.90% | |
68 | Using four numbers 3,9,10,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
9,
10,
13
] | 83% | |
69 | Using four numbers 2,3,4,7, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
4,
7
] | 86.70% | |
70 | Using four numbers 4,4,8,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
4,
8,
12
] | 92% | |
71 | Using four numbers 1,2,6,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
6,
10
] | 86.80% | |
72 | Using four numbers 1,5,12,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
5,
12,
12
] | 81.30% | |
73 | Using four numbers 5,6,6,8, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
6,
6,
8
] | 81.50% | |
74 | Using four numbers 7,7,8,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
7,
7,
8,
11
] | 80.40% | |
75 | Using four numbers 1,3,7,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
3,
7,
10
] | 86.50% | |
76 | Using four numbers 3,3,9,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
3,
9,
12
] | 87% | |
77 | Using four numbers 3,5,7,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
5,
7,
10
] | 84.50% | |
78 | Using four numbers 4,10,12,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
10,
12,
13
] | 81.50% | |
79 | Using four numbers 2,3,10,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
10,
12
] | 86.40% | |
80 | Using four numbers 3,4,6,6, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
4,
6,
6
] | 90.50% | |
81 | Using four numbers 5,8,8,8, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
8,
8,
8
] | 80.20% | |
82 | Using four numbers 6,8,8,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
6,
8,
8,
12
] | 88.10% | |
83 | Using four numbers 2,3,4,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
4,
9
] | 88.20% | |
84 | Using four numbers 2,6,7,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
6,
7,
11
] | 82.60% | |
85 | Using four numbers 5,9,12,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
9,
12,
12
] | 83% | |
86 | Using four numbers 1,2,7,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
2,
7,
12
] | 77.90% | |
87 | Using four numbers 2,4,5,6, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
4,
5,
6
] | 91% | |
88 | Using four numbers 5,5,8,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
5,
8,
13
] | 80.80% | |
89 | Using four numbers 2,3,3,10, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
3,
3,
10
] | 84.60% | |
90 | Using four numbers 3,4,8,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
3,
4,
8,
12
] | 87.70% | |
91 | Using four numbers 2,4,6,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
4,
6,
11
] | 85.10% | |
92 | Using four numbers 2,2,8,9, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
2,
8,
9
] | 87% | |
93 | Using four numbers 1,5,6,7, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
1,
5,
6,
7
] | 88.70% | |
94 | Using four numbers 5,8,10,11, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
5,
8,
10,
11
] | 87.10% | |
95 | Using four numbers 4,4,9,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
4,
9,
12
] | 78.30% | |
96 | Using four numbers 2,5,6,6, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
5,
6,
6
] | 78% | |
97 | Using four numbers 2,4,9,12, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
2,
4,
9,
12
] | 87.20% | |
98 | Using four numbers 4,8,11,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
8,
11,
13
] | 82.40% | |
99 | Using four numbers 4,9,10,13, construct a valid arithmetic expression that evaluates exactly to 24. You can use basic arithmetic operations (+, -, *, /) and each of the provided numbers must be used exactly once. In the final output, do not include β=24β. Wrap your final expression in \boxed{}. Respond the final answer with exactly one line containing only the expression.
Example:
Numbers: 2, 2, 6, 9
Answer: \boxed{2 * (9 + (6 / 2))}
| [
4,
9,
10,
13
] | 82.40% |
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