mathchatbot-v4-simple

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mathchatbot-v4-simple / prompts /main_prompt.py

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	MAIN_PROMPT = """
	### Module 4: Proportional Thinking with Percentages
	"Welcome to this module on proportional reasoning with percentages!
	Your goal is to solve a real-world problem using different representations and connect proportional relationships to the meaning of the problem."

	📌 Problem:
	Orrin and Damen decided to invest money in a local ice cream shop. Orrin invests $1,500, which is 60% of their total investment.
	💡 How much do they invest together?

	🚀 Choose a method to solve:
	1️⃣ Bar Model
	2️⃣ Double Number Line
	3️⃣ Equations

	💡 First, try solving the problem on your own before I provide guidance!
	🚀 Which method would you like to use first?
	"""

	def next_step(step):
	if step == 1:
	return """🚀 Step 1: Choose Your Method
	"Which method would you like to use to solve this problem?"

	💡 Select one:
	- Bar Model
	- Double Number Line
	- Equation

	🔹 Try your best first. I won’t provide hints until you attempt a solution!
	"""

	elif step == 2:
	return """🚀 Step 2: Bar Model
	"Great choice! Let’s use a bar model."

	💡 Before I provide any hints, describe your approach:
	- "How would you divide the bar to represent percentages?"
	- "What part of the bar represents Orrin’s investment?"
	- "How would you use this to find the total investment?"

	🔹 Explain your reasoning first!
	"""

	elif step == 3:
	return """🤔 Would you like a hint?
	- Step 1: Draw a bar divided into 10 equal parts (each representing 10%).
	- Step 2: Since 60% = $1,500, shade in 6 parts of the bar.
	- Step 3: How much is 1 part worth?

	💡 What do you think? Try calculating it before I continue!
	"""

	elif step == 4:
	return """✅ Solution Using Bar Model
	"Let’s confirm the answer together!"

	📌 Bar Model Representation
	Understanding the Problem:
	- Orrin invests $1,500, which is 60% of the total investment.
	- We need to find 100% of the total investment.

	📌 Creating the Bar Model
	- Draw a horizontal bar and divide it into 10 equal parts.
	- Label 6 parts as Orrin’s 60% ($1,500).
	- The remaining 4 parts represent Damen’s investment (40%).

	📌 Calculating the Total Investment
	Since Orrin’s $1,500 represents 60%, we set up the proportion:
	\\[
	\\text{Total Investment} = \\frac{1500}{0.6}
	\\]
	Solving for total investment:
	\\[
	\\text{Total Investment} = 2500
	\\]

	📌 Conclusion:
	The total investment made by Orrin and Damen together is $2,500.

	💡 Reflection:
	- "How did the bar model help your understanding?"
	🚀 Would you like to try another method, such as a Double Number Line?
	"""

	elif step == 5:
	return """🚀 Step 3: Double Number Line
	"Now, let’s try solving using a double number line."

	💡 Your turn first:
	- "How would you set up the number lines?"
	- "What values should go at 0%, 60%, and 100%?"

	🔹 Try setting up the number line first before I provide hints!
	"""

	elif step == 6:
	return """🤔 Need a hint?
	- Step 1: One number line represents percentages (0%, 60%, 100%).
	- Step 2: The other represents dollars ($0, $1,500, total investment).
	- Step 3: Find the value of 10% by dividing $1,500 by 6.

	💡 What do you think the total investment is?
	"""

	elif step == 7:
	return """✅ Solution Using Double Number Line
	📌 Double Number Line Representation
	- Mark key points on two parallel lines:
	- 0%, 60%, 100% on one line.
	- $0, $1,500, and Total Investment on the other.
	- Since $1,500 represents 60%, divide by 6 to get 10% = $250.
	- Multiply by 10 to get 100% = $2,500.

	📌 Conclusion:
	The total investment is $2,500.

	💡 Reflection:
	- "How does this method compare to the bar model?"
	🚀 Would you like to try solving with an equation**?"
	"""

	elif step == 8:
	return """🚀 Step 4: Equation Method
	"Now, let’s try setting up an equation to solve this problem."

	💡 Your turn first:
	- "How would you express 60% mathematically?"
	- "How will you set up the equation?"

	🔹 Try writing your equation before I guide you!
	"""

	elif step == 9:
	return """🤔 Would you like a hint?
	- Set up the proportion:
	\\[
	\\frac{60}{100} = \\frac{1500}{x}
	\\]
	- Solve for \$x\$ using cross-multiplication.

	💡 What do you get?
	"""

	elif step == 10:
	return """✅ Solution Using an Equation
	📌 Equation Representation
	Using a proportion:
	\\[
	\\frac{60}{100} = \\frac{1500}{x}
	\\]
	Cross-multiply:
	\\[
	60x = 1500 \\times 100
	\\]
	Divide both sides by 60:
	\\[
	x = 2500
	\\]

	📌 Conclusion:
	The total investment is $2,500.

	💡 Reflection:
	- "Which method—Bar Model, Double Number Line, or Equation—helped you most?"
	🚀 Now, let’s reflect on the Common Core practices we used.
	"""

	elif step == 11:
	return """📌 Common Core Standards Discussion
	"Great job! Let’s reflect on how this connects to teaching strategies."

	🔹 Which Common Core Standards did we cover?
	- CCSS.MATH.CONTENT.6.RP.A.3 (Solving real-world proportional reasoning problems)
	- CCSS.MATH.CONTENT.7.RP.A.2 (Recognizing proportional relationships)
	- CCSS.MATH.PRACTICE.MP1 (Making sense of problems & persevering)
	- CCSS.MATH.PRACTICE.MP4 (Modeling with mathematics)

	💡 Which of these standards do you think applied most? Why?
	"""

	elif step == 12:
	return """📌 Creativity-Directed Practices Discussion
	"Throughout this module, we engaged in creativity-directed strategies, such as:
	✅ Using multiple solution methods
	✅ Encouraging deep reasoning
	✅ Connecting visual and numerical representations

	💡 "How do these strategies help students build deeper understanding?"
	🚀 "Now, let’s create your own problem!"
	"""

	return "🎉 You've completed the module! Would you like to review anything again?"

	MAIN_PROMPT = """
	### Module 4: Proportional Thinking with Percentages
	"Welcome to this module on proportional reasoning with percentages!
	Your goal is to solve a real-world problem using different representations and connect proportional relationships to the meaning of the problem."

	📌 Problem:
	Orrin and Damen decided to invest money in a local ice cream shop. Orrin invests $1,500, which is 60% of their total investment.
	💡 How much do they invest together?

	🚀 Choose a method to solve:
	1️⃣ Bar Model
	2️⃣ Double Number Line
	3️⃣ Equations

	💡 First, try solving the problem on your own before I provide guidance!
	🚀 Which method would you like to use first?
	"""

	def next_step(step):
	if step == 1:
	return """🚀 Step 1: Choose Your Method
	"Which method would you like to use to solve this problem?"

	💡 Select one:
	- Bar Model
	- Double Number Line
	- Equation

	🔹 Try your best first. I won’t provide hints until you attempt a solution!
	"""

	elif step == 2:
	return """🚀 Step 2: Bar Model
	"Great choice! Let’s use a bar model."

	💡 Before I provide any hints, describe your approach:
	- "How would you divide the bar to represent percentages?"
	- "What part of the bar represents Orrin’s investment?"
	- "How would you use this to find the total investment?"

	🔹 Explain your reasoning first!
	"""

	elif step == 3:
	return """🤔 Would you like a hint?
	- Step 1: Draw a bar divided into 10 equal parts (each representing 10%).
	- Step 2: Since 60% = $1,500, shade in 6 parts of the bar.
	- Step 3: How much is 1 part worth?

	💡 What do you think? Try calculating it before I continue!
	"""

	elif step == 4:
	return """✅ Solution Using Bar Model
	"Let’s confirm the answer together!"

	📌 Bar Model Representation
	Understanding the Problem:
	- Orrin invests $1,500, which is 60% of the total investment.
	- We need to find 100% of the total investment.

	📌 Creating the Bar Model
	- Draw a horizontal bar and divide it into 10 equal parts.
	- Label 6 parts as Orrin’s 60% ($1,500).
	- The remaining 4 parts represent Damen’s investment (40%).

	📌 Calculating the Total Investment
	Since Orrin’s $1,500 represents 60%, we set up the proportion:
	\\[
	\\text{Total Investment} = \\frac{1500}{0.6}
	\\]
	Solving for total investment:
	\\[
	\\text{Total Investment} = 2500
	\\]

	📌 Conclusion:
	The total investment made by Orrin and Damen together is $2,500.

	💡 Reflection:
	- "How did the bar model help your understanding?"
	🚀 Would you like to try another method, such as a Double Number Line?
	"""

	elif step == 5:
	return """🚀 Step 3: Double Number Line
	"Now, let’s try solving using a double number line."

	💡 Your turn first:
	- "How would you set up the number lines?"
	- "What values should go at 0%, 60%, and 100%?"

	🔹 Try setting up the number line first before I provide hints!
	"""

	elif step == 6:
	return """🤔 Need a hint?
	- Step 1: One number line represents percentages (0%, 60%, 100%).
	- Step 2: The other represents dollars ($0, $1,500, total investment).
	- Step 3: Find the value of 10% by dividing $1,500 by 6.

	💡 What do you think the total investment is?
	"""

	elif step == 7:
	return """✅ Solution Using Double Number Line
	📌 Double Number Line Representation
	- Mark key points on two parallel lines:
	- 0%, 60%, 100% on one line.
	- $0, $1,500, and Total Investment on the other.
	- Since $1,500 represents 60%, divide by 6 to get 10% = $250.
	- Multiply by 10 to get 100% = $2,500.

	📌 Conclusion:
	The total investment is $2,500.

	💡 Reflection:
	- "How does this method compare to the bar model?"
	🚀 Would you like to try solving with an equation**?"
	"""

	elif step == 8:
	return """🚀 Step 4: Equation Method
	"Now, let’s try setting up an equation to solve this problem."

	💡 Your turn first:
	- "How would you express 60% mathematically?"
	- "How will you set up the equation?"

	🔹 Try writing your equation before I guide you!
	"""

	elif step == 9:
	return """🤔 Would you like a hint?
	- Set up the proportion:
	\\[
	\\frac{60}{100} = \\frac{1500}{x}
	\\]
	- Solve for \\(x\\) using cross-multiplication.

	💡 What do you get?
	"""

	elif step == 10:
	return """✅ Solution Using an Equation
	📌 Equation Representation
	Using a proportion:
	\\[
	\\frac{60}{100} = \\frac{1500}{x}
	\\]
	Cross-multiply:
	\\[
	60x = 1500 \\times 100
	\\]
	Divide both sides by 60:
	\\[
	x = 2500
	\\]

	📌 Conclusion:
	The total investment is $2,500.

	💡 Reflection:
	- "Which method—Bar Model, Double Number Line, or Equation—helped you most?"
	🚀 Now, let’s reflect on the Common Core practices we used.
	"""

	elif step == 11:
	return """📌 Common Core Standards Discussion
	"Great job! Let’s reflect on how this connects to teaching strategies."

	🔹 Which Common Core Standards did we cover?
	- CCSS.MATH.CONTENT.6.RP.A.3 (Solving real-world proportional reasoning problems)
	- CCSS.MATH.CONTENT.7.RP.A.2 (Recognizing proportional relationships)
	- CCSS.MATH.PRACTICE.MP1 (Making sense of problems & persevering)
	- CCSS.MATH.PRACTICE.MP4 (Modeling with mathematics)

	💡 Which of these standards do you think applied most? Why?
	"""

	elif step == 12:
	return """📌 Creativity-Directed Practices Discussion
	"Throughout this module, we engaged in creativity-directed strategies, such as:
	✅ Using multiple solution methods
	✅ Encouraging deep reasoning
	✅ Connecting visual and numerical representations

	💡 "How do these strategies help students build deeper understanding?"
	🚀 "Now, let’s create your own problem!"
	"""

	return "🎉 You've completed the module! Would you like to review anything again?"