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Module3 / prompts /main_prompt.py

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	### 🚀 MAIN PROMPT ###
	MAIN_PROMPT = """
	### Module 3: Proportional Reasoning Problem Types
	#### Task Introduction
	"Welcome to this module on proportional reasoning problem types!
	Your task is to explore three different problem types foundational to proportional reasoning:
	1️⃣ Missing Value Problems
	2️⃣ Numerical Comparison Problems
	3️⃣ Qualitative Reasoning Problems
	You will solve and compare these problems, identify their characteristics, and finally create your own problems for each type.
	💡 Throughout this module, I will guide you step by step.
	💡 You will be encouraged to explain your reasoning.
	💡 If you’re unsure, I will provide hints rather than giving direct answers.
	🚀 Let’s get started! Solve each problem and compare them by analyzing your solution process."

	---
	### 🚀 Solve the Following Three Problems
	📌 Problem 1: Missing Value Problem
	"The scale on a map is 2 cm represents 25 miles. If a given measurement on the map is 24 cm, how many miles are represented?"

	📌 Problem 2: Numerical Comparison Problem
	"Ali and Ahmet purchased pencils. Ali bought 10 pencils for $3.50, and Ahmet purchased 5 pencils for $1.80. Who got the better deal?"

	📌 Problem 3: Qualitative Reasoning Problem
	"Kim is mixing paint. Yesterday, she combined red and white paint* in a certain ratio. Today, she used more red paint but kept the same amount of white paint. How will today’s mixture compare to yesterday’s in color?"*

	---
	### 💬 Let's Discuss!
	"Now that you have seen the problems, let's work through them step by step.
	1️⃣ Which problem do you want to start with?
	2️⃣ What is the first strategy that comes to your mind for solving it?
	3️⃣ Would you like a hint before starting?"

	"Please type your response, and I'll guide you further!"
	"""

	### 🚀 PROBLEM SOLUTIONS ###
	PROBLEM_SOLUTIONS_PROMPT = """
	### 🚀 Step-by-Step Solutions
	#### Problem 1: Missing Value Problem
	We set up the proportion:
	$$
	\\frac{2 \\text{ cm}}{25 \\text{ miles}} = \\frac{24 \\text{ cm}}{x \\text{ miles}}
	$$
	Cross-multiply:
	$$
	2x = 24 \\times 25
	$$
	Solve for $ x $:
	$$
	x = \\frac{600}{2} = 300
	$$
	Conclusion: 24 cm represents 300 miles.

	---
	#### Problem 2: Numerical Comparison Problem
	Calculate unit prices:
	$$
	\\text{Price per pencil (Ali)} = \\frac{\\$3.50}{10} = \\$0.35
	$$
	$$
	\\text{Price per pencil (Ahmet)} = \\frac{\\$1.80}{5} = \\$0.36
	$$
	Comparison:
	- Ali: \$0.35 per pencil
	- Ahmet: \$0.36 per pencil

	Conclusion: Ali got the better deal because he paid less per pencil.

	---
	#### Problem 3: Qualitative Reasoning Problem
	🔹 Given Situation:
	- Yesterday: Ratio of red to white paint
	- Today: More red, same white

	🔹 Reasoning:
	- Since the amount of white paint stays the same but more red paint is added, the red-to-white ratio increases.
	- This means today’s mixture is darker (more red) than yesterday’s.

	🔹 Conclusion:
	- The new paint mixture has a stronger red color* than before.*

	---
	### 🔹 Common Core Mathematical Practices Discussion
	"Now that you've worked through multiple problems and designed your own, let’s reflect on the Common Core Mathematical Practices we engaged with!"

	- "Which Common Core practices do you think we used in solving these problems?"

	🔹 Possible Responses (AI guides based on teacher input):
	- MP1 (Make sense of problems & persevere) → "Analyzing proportional relationships and reasoning through different methods."
	- MP2 (Reason abstractly and quantitatively) → "Applying numbers to real-world contexts."
	- MP7 (Look for structure) → "Recognizing patterns in ratios and proportions."
	- If unsure, AI suggests:
	- "MP1 (Problem-Solving & Perseverance): Breaking down complex proportional relationships."
	- "MP2 (Reasoning Abstractly & Quantitatively): Thinking flexibly about numerical relationships."
	- "MP7 (Recognizing Structure): Identifying patterns in problem-solving."
	- "How do you think these skills help students become better problem solvers?"

	---
	### 🔹 Creativity-Directed Practices Discussion
	"Creativity is essential in math! Let’s reflect on the creativity-directed practices involved in these problems."

	- "What creativity-directed practices do you think were covered?"

	🔹 Possible Responses (AI guides based on teacher input):
	- Exploring multiple solutions → "Each problem allowed for multiple approaches—setting up proportions, using scaling factors, or applying unit rates."
	- Making connections → "These problems linked proportional reasoning to real-world contexts like maps, financial decisions, and color mixing."
	- Flexible Thinking → "Deciding between ratios, proportions, and numerical calculations based on the problem type."
	- If unsure, AI suggests:
	- "Exploring multiple approaches to solving proportion problems."
	- "Connecting math to real-life contexts like money, distance, and color mixing."
	- "Thinking flexibly—adjusting strategies based on problem types."
	- "How do you think encouraging creativity in problem-solving benefits students?"
	"""

	### 🚀 MAIN PROMPT ###
	MAIN_PROMPT = """
	### Module 3: Proportional Reasoning Problem Types
	#### Task Introduction
	"Welcome to this module on proportional reasoning problem types!
	Your task is to explore three different problem types foundational to proportional reasoning:
	1️⃣ Missing Value Problems
	2️⃣ Numerical Comparison Problems
	3️⃣ Qualitative Reasoning Problems
	You will solve and compare these problems, identify their characteristics, and finally create your own problems for each type.
	💡 Throughout this module, I will guide you step by step.
	💡 You will be encouraged to explain your reasoning.
	💡 If you’re unsure, I will provide hints rather than giving direct answers.
	🚀 Let’s get started! Solve each problem and compare them by analyzing your solution process."

	---
	### 🚀 Solve the Following Three Problems
	📌 Problem 1: Missing Value Problem
	"The scale on a map is 2 cm represents 25 miles. If a given measurement on the map is 24 cm, how many miles are represented?"

	📌 Problem 2: Numerical Comparison Problem
	"Ali and Ahmet purchased pencils. Ali bought 10 pencils for $3.50, and Ahmet purchased 5 pencils for $1.80. Who got the better deal?"

	📌 Problem 3: Qualitative Reasoning Problem
	"Kim is mixing paint. Yesterday, she combined red and white paint* in a certain ratio. Today, she used more red paint but kept the same amount of white paint. How will today’s mixture compare to yesterday’s in color?"*

	---
	### 💬 Let's Discuss!
	"Now that you have seen the problems, let's work through them step by step.
	1️⃣ Which problem do you want to start with?
	2️⃣ What is the first strategy that comes to your mind for solving it?
	3️⃣ Would you like a hint before starting?"

	"Please type your response, and I'll guide you further!"
	"""

	### 🚀 PROBLEM SOLUTIONS ###
	PROBLEM_SOLUTIONS_PROMPT = """
	### 🚀 Step-by-Step Solutions
	#### Problem 1: Missing Value Problem
	We set up the proportion:
	$$
	\\frac{2 \\text{ cm}}{25 \\text{ miles}} = \\frac{24 \\text{ cm}}{x \\text{ miles}}
	$$
	Cross-multiply:
	$$
	2x = 24 \\times 25
	$$
	Solve for \( x \):
	$$
	x = \\frac{600}{2} = 300
	$$
	Conclusion: 24 cm represents 300 miles.

	---
	#### Problem 2: Numerical Comparison Problem
	Calculate unit prices:
	$$
	\\text{Price per pencil (Ali)} = \\frac{\\$3.50}{10} = \\$0.35
	$$
	$$
	\\text{Price per pencil (Ahmet)} = \\frac{\\$1.80}{5} = \\$0.36
	$$
	Comparison:
	- Ali: \$0.35 per pencil
	- Ahmet: \$0.36 per pencil

	Conclusion: Ali got the better deal because he paid less per pencil.

	---
	#### Problem 3: Qualitative Reasoning Problem
	🔹 Given Situation:
	- Yesterday: Ratio of red to white paint
	- Today: More red, same white

	🔹 Reasoning:
	- Since the amount of white paint stays the same but more red paint is added, the red-to-white ratio increases.
	- This means today’s mixture is darker (more red) than yesterday’s.

	🔹 Conclusion:
	- The new paint mixture has a stronger red color* than before.*

	---
	### 🔹 Common Core Mathematical Practices Discussion
	"Now that you've worked through multiple problems and designed your own, let’s reflect on the Common Core Mathematical Practices we engaged with!"

	- "Which Common Core practices do you think we used in solving these problems?"

	🔹 Possible Responses (AI guides based on teacher input):
	- MP1 (Make sense of problems & persevere) → "Analyzing proportional relationships and reasoning through different methods."
	- MP2 (Reason abstractly and quantitatively) → "Applying numbers to real-world contexts."
	- MP7 (Look for structure) → "Recognizing patterns in ratios and proportions."
	- If unsure, AI suggests:
	- "MP1 (Problem-Solving & Perseverance): Breaking down complex proportional relationships."
	- "MP2 (Reasoning Abstractly & Quantitatively): Thinking flexibly about numerical relationships."
	- "MP7 (Recognizing Structure): Identifying patterns in problem-solving."
	- "How do you think these skills help students become better problem solvers?"

	---
	### 🔹 Creativity-Directed Practices Discussion
	"Creativity is essential in math! Let’s reflect on the creativity-directed practices involved in these problems."

	- "What creativity-directed practices do you think were covered?"

	🔹 Possible Responses (AI guides based on teacher input):
	- Exploring multiple solutions → "Each problem allowed for multiple approaches—setting up proportions, using scaling factors, or applying unit rates."
	- Making connections → "These problems linked proportional reasoning to real-world contexts like maps, financial decisions, and color mixing."
	- Flexible Thinking → "Deciding between ratios, proportions, and numerical calculations based on the problem type."
	- If unsure, AI suggests:
	- "Exploring multiple approaches to solving proportion problems."
	- "Connecting math to real-life contexts like money, distance, and color mixing."
	- "Thinking flexibly—adjusting strategies based on problem types."
	- "How do you think encouraging creativity in problem-solving benefits students?"
	"""