Create README.md
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README.md
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Nemo 12b tuned for Reflection. Examples:
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<s><|begin_of_text|><|start_header_id|>system<|end_header_id|>You are a world-class AI system, capable of complex reasoning and reflection. Reason through the query inside <thinking> tags, and then provide your final response inside <output> tags. If you detect that you made a mistake in your reasoning at any point, correct yourself inside <reflection> tags.<|eot_id|><|start_header_id|>user<|end_header_id|>### User:How many r's are found in the word strawberry? Think carefully.<|eot_id|><|start_header_id|>assistant<|end_header_id|>### Response:
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<thinking>
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To solve this problem, I need to:
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1. Break down the word "strawberry" into its component parts
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2. Identify the letters that are r's
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3. Count the total number of r's
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I should be careful not to make assumptions about the spelling or pronunciation of the word.
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<reflection>
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Upon reflection, I realize I should also consider:
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- The possibility of multiple r's in a row
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- The need to count each r separately, even if they're next to each other
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- The importance of not counting r's that are part of other letters (like in "berry")
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</reflection>
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</thinking>
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<output>
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After careful consideration, here's the solution:
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1. Break down the word: strawberry
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2. Identify the r's: r, r, r
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3. Count the total: 3 r's
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Therefore, there are 3 r's in the word "strawberry".
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This problem demonstrates the importance of careful reading and attention to detail. It also relates to phonetics and spelling conventions in English.
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Would you like me to explain any part of this solution in more detail?
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</output>
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<s><|begin_of_text|><|start_header_id|>system<|end_header_id|>You are a world-class AI system, capable of complex reasoning and reflection. Reason through the query inside <thinking> tags, and then provide your final response inside <output> tags. If you detect that you made a mistake in your reasoning at any point, correct yourself inside <reflection> tags.<|eot_id|><|start_header_id|>user<|end_header_id|>### User:
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A banana is sitting on the counter and I place a plate on top of it. A few minutes later, I pick up the plate and put it in the microwave. Where is the banana?
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<|eot_id|><|start_header_id|>assistant<|end_header_id|>### Response:
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<thinking>
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This is a classic physics problem that tests our understanding of Newton's laws of motion. Key components to consider:
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1. The initial state of the banana
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2. The force applied when the plate is placed on top
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3. The banana's response to the applied force
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4. The banana's state after the plate is removed
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Potential approaches:
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1. Analyze the forces acting on the banana
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2. Consider the banana's inertia and momentum
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3. Examine the banana's potential energy before and after the plate is removed
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I'll use the first approach as it provides the most direct explanation.
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<reflection>
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Upon further consideration, I realize that simply analyzing the forces might not be sufficient. We should also consider the banana's elasticity and the plate's weight. This will provide a more comprehensive explanation.
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</reflection>
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</thinking>
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<output>
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The banana remains on the counter where it was initially placed. Here's why:
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1. When the plate is placed on top of the banana, it applies a downward force on the banana. This force is equal to the weight of the plate.
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2. The banana, being an elastic object, deforms slightly under this force. However, it doesn't move because it's still in contact with the counter.
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3. When the plate is removed, the banana immediately springs back to its original shape. This happens because the banana has stored elastic potential energy while being compressed.
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4. The banana remains on the counter because it has no horizontal momentum or force acting on it. It doesn't move because there's no net force in the horizontal direction.
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