- created_by: vishnoianil
icl_a: There are three turkeys in total. In this riddle, when it mentions "two turkeys
in front of the turkey” it's referring to the arrangement of turkeys in relation
to a last turkey and when it mentions "two turkeys behind the turkey” it's referring
to the arrangement of turkeys in relation to the first turkey. So, with the arrangement
of a total of three turkeys it can satisfy both the conditions.
icl_q: can you solve the following riddle? Two turkeys in front of the turkey, two
turkeys behind the turkey, tell me how many total turkeys?
inputs: 'Can you figure out the next letter in this sequence: A, E, I, _ ? It follows
the "every other letter of the alphabet" pattern.'
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: The next letter in the sequence is O. This sequence follows the pattern
of every other letter of the alphabet, starting from A (the first letter), E (the
fifth letter), and I (the ninth letter). Continuing this pattern, the next letter
would be the thirteenth letter, which is O.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: There are three turkeys in total. In this riddle, when it mentions "two turkeys
in front of the turkey” it's referring to the arrangement of turkeys in relation
to a last turkey and when it mentions "two turkeys behind the turkey” it's referring
to the arrangement of turkeys in relation to the first turkey. So, with the arrangement
of a total of three turkeys it can satisfy both the conditions.
icl_q: can you solve the following riddle? Two turkeys in front of the turkey, two
turkeys behind the turkey, tell me how many total turkeys?
inputs: If a snail climbs up a 15-foot wall but slides back down 4 feet every night,
how many days will it take for the snail to reach the top and stay there?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: It will take the snail 13 days to reach the top and stay there. This is
because, after climbing 11 feet (such that only 4 feet remain to reach the top),
the snail will be able to climb up the remaining distance in a single day, and
it will stay at the top without sliding back down during the night. So, the 13th
day would be the day when the snail reaches the top and stays there.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: There are three turkeys in total. In this riddle, when it mentions "two turkeys
in front of the turkey” it's referring to the arrangement of turkeys in relation
to a last turkey and when it mentions "two turkeys behind the turkey” it's referring
to the arrangement of turkeys in relation to the first turkey. So, with the arrangement
of a total of three turkeys it can satisfy both the conditions.
icl_q: can you solve the following riddle? Two turkeys in front of the turkey, two
turkeys behind the turkey, tell me how many total turkeys?
inputs: There are three houses in a row, each with a different color. The red house
is on the left, and the green house is in the middle. Where is the blue house?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: The blue house is on the right. Given that the red house is on the left
and the green house is in the middle, the only position left for the blue house
is the one on the right.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: There are three turkeys in total. In this riddle, when it mentions "two turkeys
in front of the turkey” it's referring to the arrangement of turkeys in relation
to a last turkey and when it mentions "two turkeys behind the turkey” it's referring
to the arrangement of turkeys in relation to the first turkey. So, with the arrangement
of a total of three turkeys it can satisfy both the conditions.
icl_q: can you solve the following riddle? Two turkeys in front of the turkey, two
turkeys behind the turkey, tell me how many total turkeys?
inputs: A man pushes his car to a hotel and loses his fortune. What happened? (This
is a classic lateral thinking puzzle)
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: The man arrived at a gambling casino, which is also referred to as a "hotel"
in some contexts, and decided to play a game of chance. He wagered and lost all
of his wealth, hence "losing his fortune." The phrase "pushes his car" is used
to mislead and suggest that the man is experiencing some sort of financial or
transportation difficulty, but in reality, he simply arrived at the casino by
car. So, in summary, the man lost all of his money while gambling at a casino,
referred to as a "hotel" in this riddle.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: There are three turkeys in total. In this riddle, when it mentions "two turkeys
in front of the turkey” it's referring to the arrangement of turkeys in relation
to a last turkey and when it mentions "two turkeys behind the turkey” it's referring
to the arrangement of turkeys in relation to the first turkey. So, with the arrangement
of a total of three turkeys it can satisfy both the conditions.
icl_q: can you solve the following riddle? Two turkeys in front of the turkey, two
turkeys behind the turkey, tell me how many total turkeys?
inputs: A man is looking at a photograph of someone. His friend asks who it is.
The man replies, "Brothers and sisters, I have none. But that man’s father is
my father’s son." Who was in the photograph?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: The person in the photograph is the man's son. The response "Brothers and
sisters, I have none" indicates that the man has no siblings. The statement "that
man’s father is my father’s son" implies that the man in the photograph is the
son of the man's father's son, which is the man's son.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: There are three turkeys in total. In this riddle, when it mentions "two turkeys
in front of the turkey” it's referring to the arrangement of turkeys in relation
to a last turkey and when it mentions "two turkeys behind the turkey” it's referring
to the arrangement of turkeys in relation to the first turkey. So, with the arrangement
of a total of three turkeys it can satisfy both the conditions.
icl_q: can you solve the following riddle? Two turkeys in front of the turkey, two
turkeys behind the turkey, tell me how many total turkeys?
inputs: A farmer has 15 sheep, and all but 8 die. How many sheep are left?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: There are eight sheep left. The phrase "all but eight" in this riddle means
that every sheep except for eight of them died. Therefore, eight sheep are still
alive.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Name of the third son is Tom. The question mentions that Tom's mother has
3 sons and the names of the two sons are Dick and Hardy.
icl_q: can you solve the following riddle? Tom's mother has 3 sons. The names of
the two sons are Dick and Hardy, what's the name of the third son?
inputs: 'Can you figure out the next letter in this sequence: O, T, T, F, F, S,
S, ? The pattern here is that the letters represent the number of times you can
fold a piece of paper.'
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: The next letter in the sequence is E. This sequence represents the number
of times you can fold a piece of paper, with each letter representing a power
of 2. O represents once (2^0), T represents two folds (2^1), F represents four
folds (2^2), and S represents eight folds (2^3). Therefore, the next letter in
the sequence is E, which represents 16 folds (2^4).
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Name of the third son is Tom. The question mentions that Tom's mother has
3 sons and the names of the two sons are Dick and Hardy.
icl_q: can you solve the following riddle? Tom's mother has 3 sons. The names of
the two sons are Dick and Hardy, what's the name of the third son?
inputs: 'Here''s a classic one: I speak without a mouth and hear without ears. I
have no body, but I come alive with the wind. What am I?'
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: The answer to the riddle is "an echo." An echo speaks without a mouth when
it repeats the sounds it "hears" without ears. It doesn't have a body but can
come alive with the wind, as the sound waves can carry and propagate further,
making the echo more distinct.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Name of the third son is Tom. The question mentions that Tom's mother has
3 sons and the names of the two sons are Dick and Hardy.
icl_q: can you solve the following riddle? Tom's mother has 3 sons. The names of
the two sons are Dick and Hardy, what's the name of the third son?
inputs: 'What is the next number in this sequence: 10, 9, 60, 90, 70, 66? The pattern
is that each number is the product of the two numbers before it, minus the second
last number.'
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: |-
The next number in the sequence is 132. To find this, we can apply the given pattern to the last three numbers:
* 90 (the second last number) multiplied by 70 (the last number) equals 6300.
* Then, subtract the second last number (90) from the result (6300) to get 6210.
Therefore, the next number in the sequence is 6210.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Name of the third son is Tom. The question mentions that Tom's mother has
3 sons and the names of the two sons are Dick and Hardy.
icl_q: can you solve the following riddle? Tom's mother has 3 sons. The names of
the two sons are Dick and Hardy, what's the name of the third son?
inputs: What can travel all around the world without leaving its corner?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: The answer to the riddle is a stamp. A stamp can travel all around the
world through mail without leaving its corner.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: How would you solve a puzzle that requires you to find the next letter in
a pattern of every other letter in the alphabet?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: 'To solve a puzzle that requires you to find the next letter in a pattern
of every other letter in the alphabet, you would start with the first letter of
the alphabet, A, and then alternate between the remaining letters to find the
pattern. The pattern would look like this: A, C, E, G, I, ... and so on. Therefore,
the next letter in the pattern would be the next consecutive letter after I in
the alphabet, which is K.'
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: If you have a 3x3 grid with different colored squares and you need to find
a path that goes through each color once without repeating, what strategy would
you use?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
To solve this problem, you can use the concept of a "loop" or "closed circuit" path. Here's a strategy you could use:
1. Identify the different colors in the 3x3 grid. Let's say there are three colors: red, blue, and green.
2. Choose a square to start with. It doesn't matter which color you start with, as long as you keep track of which colors you've visited.
3. From your starting square, move to a neighboring square of a different color. You can move horizontally or vertically, but not diagonally.
4. Continue moving to squares of different colors. Each time you move, make a note of the color you just left, so you don't visit it again.
5. Since there are only three colors, when you visit the third color, you'll have to return to a square of a color you've already visited. However, because you've been keeping track, you'll know which color to return to.
6. Once you've returned to the color you visited second, you can then move to the remaining color, completing the loop.
This strategy should allow you to visit each color once without repeating.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: How would you approach a puzzle that asks you to unscramble a list of words
to form a coherent sentence?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
When approaching a puzzle that asks you to unscramble a list of words to form a coherent sentence, I would follow these steps:
1. First, I would carefully read and understand the given words, trying to identify any familiar or meaningful combinations.
2. Next, I would write down each word on a piece of paper or a digital notepad, leaving enough space between them for potential rearrangements.
3. Then, I would start experimenting with different word orders, trying to form grammatically correct phrases or sentences. I would pay close attention to the sequence of verbs, subjects, and objects, as well as the proper use of prepositions and conjunctions.
4. If I encounter any difficulties or ambiguities, I would consult a dictionary or a grammar reference to clarify the meaning or function of specific words.
5. Once I have a sentence that seems coherent, I would double-check it for grammatical correctness and overall sense. I would ensure that the sentence is logically consistent and that the words convey the intended meaning.
6. If necessary, I would continue to refine and adjust the word order until I am confident that I have formed a correct and meaningful sentence.
7. Finally, I would verify that all the given words have been used in the unscrambled sentence, and that no extra or missing words have been introduced during the process.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: In a logic puzzle, if you are given a set of clues about a group of people
and their characteristics, how would you determine the correct arrangement of
the people based on the clues?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
In a logic puzzle, determining the correct arrangement of people based on a set of clues involves a systematic approach. Here's a general process:
1. **Read and Understand the Clues**: The first step is to carefully read and understand the clues given in the puzzle. Make sure you understand what each clue is indicating about the people and their characteristics.
2. **Create a Preliminary Arrangement**: Based on the clues, try to make an initial arrangement of the people. This might not be correct, but it gives you a starting point.
3. **Evaluate the Arrangement Against the Clues**: Go through each clue one by one and evaluate whether your current arrangement satisfies all the clues. If a clue is not satisfied, adjust your arrangement accordingly.
4. **Repeat Steps 2 and 3**: Keep adjusting your arrangement based on the clues until all clues are satisfied. This might require several iterations.
5. **Check for Consistency**: Once you have an arrangement that satisfies all clues, check to make sure it is consistent. For example, if one clue indicates that Person A is older than Person B, and another clue indicates that Person B is older than Person C, then Person A should be older than Person C as well.
6. **Confirm the Arrangement**: If your arrangement is consistent and satisfies all clues, then you have likely found the correct arrangement.
Remember, logic puzzles often require careful and systematic thinking. It's easy to make mistakes, so it's important to double-check your work.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: If you have a cipher text that needs to be decoded, what steps would you
take to decipher the message?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
To decipher a cipher text, you would typically follow these steps:
1. Identify the type of cipher used: There are various types of ciphers, such as substitution ciphers, transposition ciphers, or a combination of both. Recognizing the pattern used in the cipher text is crucial to deciphering it.
2. Gather clues or context: If available, any additional information about the cipher or the message can help narrow down the possibilities and guide your deciphering process.
3. Use frequency analysis: In many ciphers, certain letters or patterns appear more frequently than others. By analyzing these patterns, you can make educated guesses about the most likely letters to represent common words or sounds.
4. Test decryption hypotheses: Based on your observations, make educated guesses about the plaintext and test your hypotheses by applying the inverse of the cipher method.
5. Confirm and refine: As you progress, continually confirm and refine your decryption by checking for consistency and plausibility in the deciphered text.
6. Seek assistance: If you're unable to decipher the message on your own, consider seeking help from cryptanalysis experts or online tools designed to break ciphers.
Remember, deciphering a cipher text can be a challenging and time-consuming process, but with patience and persistence, you can often unlock the hidden message.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: How would you solve a maze puzzle, where you need to find the shortest path
from the start to the end point?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
To solve a maze puzzle and find the shortest path from the start to the end point, you can follow these steps:
1. Start at the beginning of the maze, and imagine you are an ant that can only move forward.
2. As you move forward, make sure to mark the walls you have encountered on your right side. This technique is called "left-hand rule" or "right-hand rule" and it helps you avoid getting stuck in loops.
3. Continue to move forward, always keeping the wall on your chosen side (either left or right).
4. If you reach a dead end, turn around and retrace your steps until you find an intersection.
5. At the intersection, take the new path that is not the one you just came from.
6. Repeat steps 3-5 until you reach the end of the maze.
By following this method, you will eventually find the shortest path from the start to the end point, as you will only be exploring new paths and never revisiting the same section of the maze twice.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: In a puzzle that requires you to find the missing number in a sequence,
what steps would you take to identify the pattern and find the solution?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
When trying to find the missing number in a sequence to solve a puzzle, I would take the following steps:
1. Examine the sequence carefully: Write down the sequence and underline or highlight the numbers given. This will help you focus on the pattern.
2. Identify any arithmetic operations: Look for common arithmetic operations, such as addition, subtraction, multiplication, or division, that might be used to generate the sequence.
3. Analyze the differences between consecutive terms: Calculate the difference between consecutive terms in the sequence. If the differences are consistent, you might have found the pattern.
4. Look for common differences in intervals: If the differences between consecutive terms are not consistent, analyze the differences between terms at regular intervals (e.g., every 2nd, 3rd, or 4th term). This might reveal a pattern.
5. Consider more complex patterns: If the pattern is not apparent, think about more complex possibilities, such as exponentiation, factorials, or Fibonacci sequences.
6. Test your hypothesis: Once you think you've identified the pattern, test it by using the pattern to generate the missing number(s).
7. Verify your solution: Double-check your work to ensure that the pattern holds for all numbers in the sequence, not just the missing number(s).
By following these steps, you can systematically identify the pattern and find the solution to a sequence puzzle.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: If you have a sliding puzzle, like a Rubik's Cube, what techniques would
you use to solve it?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
Solving a sliding puzzle, such as a Rubik's Cube, involves several techniques. Here are some of them:
1. Familiarize yourself with the puzzle: Understand the mechanics of the puzzle and how each piece moves.
2. Learn basic moves and algorithms: Start by learning basic moves like the "U" move (turning the upper face 90 degrees clockwise), "D" move (turning the lower face 90 degrees clockwise), "L" move (turning the left face 90 degrees clockwise), and their counterparts. Then, learn and practice algorithms, which are sequences of moves that solve specific parts of the puzzle.
3. Solve one face at a time: Begin by solving one face of the puzzle, usually the white cross on the white face. This will help you understand the position of edge pieces.
4. Solve the corners: After solving the white cross, focus on solving the corners of the white face. Corners are the pieces that have two different colors.
5. Solve the edges: Once the corners are in place, solve the edge pieces (pieces that have one color on each side) of the white face.
6. Use the "CFOP" method: This stands for Cross, F2L (First Two Layers), OLL (Orientation of Last Layer), and PLL (Permutation of Last Layer). This is a popular and efficient method for solving the Rubik's Cube.
7. Practice: Solving a Rubik's Cube requires practice. The more you practice, the better and faster you will get.
8. Learn from others: Watch tutorials, read books, or join a Rubik's Cube community to learn new techniques and strategies.
9. Stay patient and positive: Solving a Rubik's Cube can be challenging and frustrating at times. Stay patient, keep a positive attitude, and don't give up.
10. Use lubricant: Applying a silicone-based lubricant to the Rubik's Cube can reduce friction and make it easier to turn the faces.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: All 12 months have 28 days, but except February all other months have more
than 28 days. February has more than 28 days during leap year.
icl_q: How many months have 28 days?
inputs: How would you approach a puzzle that requires you to rearrange a set of
shapes to form a specific figure?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: "When approaching a puzzle that requires rearranging shapes to form a specific
figure, I would follow these steps:\n\n1. **Understand the Figure**: I would first
carefully study the figure I'm trying to create, noting its shape, size, and the
arrangement of its parts.\n\n2. **Analyze the Shapes**: I would then examine the
set of shapes I have to work with, taking note of their size, shape, and any unique
features they might have.\n\n3. **Plan a Strategy**: Based on my understanding
of the figure and the shapes, I would then plan a strategy for how to arrange
the shapes to form the figure. This might involve trying to match the shapes to
parts of the figure, or using the shapes to build up the figure piece by piece.\n\n4.
**Execute the Strategy**: I would then start to arrange the shapes according to
my strategy, making adjustments as necessary.\n\n5. **Review and Refine**: Once
I've arranged the shapes, I would review them to see if they form the figure correctly.
If not, I would identify what needs to be adjusted and refine my strategy accordingly.\n\n6.
**Repeat**: If necessary, I would repeat the process until the figure is correctly
formed. \n\nRemember, puzzles like these often require patience, creativity, and
a willingness to try different approaches."
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A bookshelf has 12 shelves. On the first shelf, there are 6 books. On the
third shelf, 4 books are added and 2 are removed. On the sixth shelf, 5 books
are removed and 3 are added. On the ninth shelf, 2 books are removed and 1 is
added. Finally, all the remaining books are taken off the shelf. The question
is, How many books were on the shelf when it started, and how many books were
removed by the end of the process?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: Starting on the first shelf, there are 6 books, so initially, there are
6 books on the shelf. On the third shelf, 4 books are added and 2 are removed,
resulting in (6 + 4 - 2 = 8) books. On the sixth shelf, 5 books are removed, leaving
(8 - 5 = 3) books. Additionally, 3 books are added, bringing the total to 3 +
3 = 6 books. On the ninth shelf, 2 books are removed, resulting in (6 - 2 = 4)
books. On the final step, all remaining books are taken off the shelf. Therefore,
there were 6 books when the process started, and a total of (6 books on the third
shelf + 3 books on the sixth shelf + 1 book on the ninth shelf) 10 books were
removed by the end of the process.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A bag contains 15 marbles. 7 red marbles are added, and 3 blue marbles are
removed. 5 green marbles are added, and 2 yellow marbles are removed. 3 white
marbles are added, and 1 black marble is removed. Finally, all the remaining marbles
are taken out of the bag. The question is, How many marbles were in the bag when
it started, and how many marbles were removed by the end of the process?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
In the bag, there were initially 15 marbles. After adding 7 red marbles, removing 3 blue marbles, adding 5 green marbles, removing 2 yellow marbles, adding 3 white marbles, and removing 1 black marble, there is a total of:
15 (initial marbles) + 7 (red marbles) - 3 (blue marbles) + 5 (green marbles) - 2 (yellow marbles) + 3 (white marbles) - 1 (black marble) = 26 marbles
So, there were 26 marbles in the bag at the end of the process. Since all the remaining marbles were taken out, the total number of marbles removed is equal to the number of marbles in the bag at the end of the process, which is 26 marbles.
Therefore, there were 15 marbles when the bag started, and a total of 26 marbles were removed by the end of the process.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A jar has 20 candies. 8 candies are eaten, and 3 are added. 6 candies are
eaten, and 2 are added. 4 candies are eaten, and 1 is added. Finally, all the
remaining candies are eaten. The question is, How many candies were in the jar
when it started, and how many candies were eaten by the end of the process?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: Starting with the initial 20 candies in the jar, after 8 candies are eaten,
(20 - 8 = 12) candies remain. Then, 3 candies are added, making the total 12 +
3 = 15 candies. Next, 6 candies are eaten, leaving (15 - 6 = 9) candies. After
that, 2 candies are added, resulting in 9 + 2 = 11 candies. Afterward, 4 candies
are eaten, and 1 candy is added, which means (11 - 4 + 1 = 8) candies remain.
At the end of the process, all the remaining candies are eaten, so a total of
(8 + 12 + 3 + 2 + 1 + 4) 28 candies were eaten throughout the entire process.
Therefore, the jar had 20 candies at the beginning, and a total of 20 + 28 = 48
candies were eaten by the end of the process.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A line of 10 people are waiting to buy tickets. The first person buys 2
tickets, and the second person buys 3 tickets. The third person buys 1 ticket,
and the fourth person buys 4 tickets. The fifth person buys 2 tickets, and the
sixth person buys 3 tickets. The seventh person buys 1 ticket, and the eighth
person buys 4 tickets. The ninth person buys 2 tickets, and the tenth person buys
3 tickets. The question is, How many tickets were bought in total?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
In this scenario, we see that each person in line buys a certain number of tickets. Let's calculate the total number of tickets bought by each person:
1. The first person buys 2 tickets.
2. The second person buys 3 tickets.
3. The third person buys 1 ticket.
4. The fourth person buys 4 tickets.
5. The fifth person buys 2 tickets.
6. The sixth person buys 3 tickets.
7. The seventh person buys 1 ticket.
8. The eighth person buys 4 tickets.
9. The ninth person buys 2 tickets.
10. The tenth person buys 3 tickets.
Now, to find the total number of tickets bought, we simply add up the number of tickets each person bought:
(2 tickets (first person) + 3 tickets (second person) + 1 ticket (third person) + 4 tickets (fourth person) + 2 tickets (fifth person) + 3 tickets (sixth person) + 1 ticket (seventh person) + 4 tickets (eighth person) + 2 tickets (ninth person) + 3 tickets (tenth person))
When we add these all up, we get a total of 24 tickets bought throughout this scenario.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A stack of 15 books are on a table. The first book is 2 inches thick, and
the second book is 3 inches thick. The third book is 1 inch thick, and the fourth
book is 4 inches thick. The fifth book is 2 inches thick, and the sixth book is
3 inches thick. The seventh book is 1 inch thick, and the eighth book is 4 inches
thick. The ninth book is 2 inches thick, and the tenth book is 3 inches thick.
The eleventh book is 1 inch thick, and the twelfth book is 4 inches thick. The
thirteenth book is 2 inches thick, and the fourteenth book is 3 inches thick.
The fifteenth book is 1 inch thick. The question is, How many inches thick is
the stack of books?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: Starting with the first book, which is 2 inches thick, the stack is already
2 inches high. The second book adds 3 more inches, making the stack 2 + 3 = 5
inches high. The third book is 1 inch thick, so the stack becomes 5 + 1 = 6 inches
high. The fourth book adds 4 inches, making the stack 6 + 4 = 10 inches high.
The fifth book is 2 inches thick, so the stack becomes 10 + 2 = 12 inches high.
The sixth book adds 3 more inches, making the stack 12 + 3 = 15 inches high. The
seventh book is 1 inch thick, so the stack becomes 15 + 1 = 16 inches high. The
eighth book adds 4 inches, making the stack 16 + 4 = 20 inches high. The ninth
book is 2 inches thick, so the stack becomes 20 + 2 = 22 inches high. The tenth
book adds 3 more inches, making the stack 22 + 3 = 25 inches high. The eleventh
book is 1 inch thick, so the stack becomes 25 + 1 = 26 inches high. The twelfth
book adds 4 inches, making the stack 26 + 4 = 30 inches high. The thirteenth book
is 2 inches thick, so the stack becomes 30 + 2 = 32 inches high. The fourteenth
book adds 3 more inches, making the stack 32 + 3 = 35 inches high. Finally, the
fifteenth book is 1 inch thick, so the stack is now 35 + 1 = 36 inches high. Therefore,
the stack of books is 36 inches thick.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A jar has 20 coins. The first coin is a quarter, and the second coin is
a dime. The third coin is a nickel, and the fourth coin is a penny. The fifth
coin is a quarter, and the sixth coin is a dime. The seventh coin is a nickel,
and the eighth coin is a penny. The ninth coin is a quarter, and the tenth coin
is a dime. The eleventh coin is a nickel, and the twelfth coin is a penny. The
thirteenth coin is a quarter, and the fourteenth coin is a dime. The fifteenth
coin is a nickel, and the sixteenth coin is a penny. The seventeenth coin is a
quarter, and the eighteenth coin is a dime. The nineteenth coin is a nickel, and
the twentieth coin is a penny. The question is, How many cents are in the jar?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 3
targets: |-
In the jar, there are 20 coins in total. The coins are a mix of quarters, dimes, nickels, and pennies. Given that there are 5 quarters, 5 dimes, 5 nickels, and 5 pennies, we can calculate the total number of cents as follows:
Quarters are worth 25 cents each, so 5 quarters equal 5 \* 25 = 125 cents.
Dimes are worth 10 cents each, so 5 dimes equal 5 \* 10 = 50 cents.
Nickels are worth 5 cents each, so 5 nickels equal 5 \* 5 = 25 cents.
Pennies are worth 1 cent each, so 5 pennies equal 5 \* 1 = 5 cents.
Now, to find the total number of cents in the jar, we simply add the amounts from each coin type:
125 (quarters) + 50 (dimes) + 25 (nickels) + 5 (pennies) = 205 cents
Therefore, there are 205 cents in the jar.
task_description: Teach the skill to solve puzzles
- created_by: vishnoianil
icl_a: Starting on the ground floor, 7 people enter the elevator, so initially,
there are 7 people in the elevator. On second floor 3 people get off, so (7 −
3 = 4) people remain. Additionally, 2 people enter, bringing the total to 4+2=6
people. On fourth floor, 5 people get off, so (6 − 5 = 1) person remains. Also,
2 people enter, making the total 1+2=3 people. On seventh floor, 1 person gets
off, leaving (3 − 1 = 2) people. Furthermore, 3 people enter, resulting in 2+3=5
people. On tenth floor, all remaining passengers, which is 5 people, get off.
So the answer is,there were 7 people when the journey started and a total of 14
(3 people at the second floor, 5 people at the fourth floor, 1 person at the seventh
floor, and 5 people at the tenth floor) people exited by the end of the journey.
icl_q: A building has 10 floors. At the ground floor, 7 people enter the elevator.
At the second floor, 3 people get off and 2 people enter. At the fourth floor,
5 people get off and 2 people enter. At the seventh floor, 1 person gets off and
3 people enter. Finally, at the tenth floor, everyone remaining in the elevator
gets off. The question is, How many people were in the elevator when it started
its journey, and how many total people exited the elevator by the end of its journey?
inputs: A box contains 12 balls. The first ball is red, and the second ball is blue.
The third ball is green, and the fourth ball is yellow. The fifth ball is red,
and the sixth ball is blue. The seventh ball is green, and the eighth ball is
yellow. The ninth ball is red, and the tenth ball is blue. The eleventh ball is
green, and the twelfth ball is yellow. The question is, How many different colors
of balls are in the box?
origin_branch_name: ""
path: /tmp/new_data/sdg_pipeline_test/db26f876-7341-4234-a2fb-1d7ba182ca3d/qna.yaml
pull_request: ""
qarating: 2
targets: |-
In the box, the first ball is red, the second ball is blue, the third ball is green, and the fourth ball is yellow. The fifth ball is also red, the sixth ball is blue, the seventh ball is green, and the eighth ball is yellow. The ninth ball is red, and the tenth ball is blue, and finally, the eleventh ball is green, and the twelfth ball is yellow.
As we can see, the box contains red, blue, green, and yellow balls. So, there are 4 different colors of balls in the box.
task_description: Teach the skill to solve puzzles