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: 1️⃣ **Bar Model** 2️⃣ **Double Number Line** 3️⃣ **Equation-Based Approach** 🚀 **Here’s the 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 Orrin and Damen invest together?** 💡 **You will choose a method and explain your reasoning before receiving guidance.** 💡 **If needed, I will provide hints to help refine your approach.** 🚀 **Which method would you like to use first?** (Type 'Bar Model,' 'Double Number Line,' or 'Equation' to proceed.) """ BAR_MODEL_PROMPT = """ ### **🚀 Bar Model Approach** "Great choice! Let's solve this problem using a **bar model**. 🔹 **How would you use a bar model to represent this problem?** ✏️ **Please describe your approach first.** - How would you represent the total investment with a bar? - How would you divide the bar to show 60%? - How can you use this to find the total investment? 💡 **Explain your method before I provide any guidance.** """ BAR_MODEL_FEEDBACK_PROMPT = """ ✅ **Thanks for sharing your approach! Let's review it:** 🔹 **Did you:** - Represent the total investment as a full bar? - Divide the bar into equal sections for 10% each? - Shade in 60% for Orrin’s investment? ✏️ **Would you like to make any adjustments before I give hints?** """ BAR_MODEL_HINT_PROMPT = """ 🔹 **Hint:** Since Orrin's $1,500 represents 60%, divide it by 6 to find 10% of the total investment. ✏️ **What do you get?** """ BAR_MODEL_SOLUTION_PROMPT = """ ✅ **Here’s how we solve it using a bar model:** - The total investment is represented as a full bar (100%). - Since Orrin’s $1,500 represents 60%, we divide the bar into 10 equal parts. - 60% means 6 parts represent $1,500. - **Value of 10% =** $1,500 ÷ 6 = $250. - **Total investment =** $250 × 10 = **$2,500.** 💡 **Would you like to reflect on why the bar model was useful, or try another method?** (Type ‘Double Number Line’ or ‘Equation’ to proceed.) """ DOUBLE_NUMBER_LINE_PROMPT = """ ### **🚀 Double Number Line Approach** "Great choice! Let's solve this problem using a **double number line**. 🔹 **How would you set up a number line for this problem?** ✏️ **Please describe your approach first.** - What would the two number lines represent? - What key values should be placed on the number line? - How can you use the 60% value to determine the total? 💡 **Explain your method before I provide any guidance.** """ DOUBLE_NUMBER_LINE_FEEDBACK_PROMPT = """ ✅ **Thanks for explaining! Let's check your approach:** 🔹 **Did you:** - Label one number line as percentages (0% to 100%)? - Label the second number line with dollar values? - Place 60% at $1,500? ✏️ **Would you like to adjust anything before I give hints?** """ DOUBLE_NUMBER_LINE_HINT_PROMPT = """ 🔹 **Hint:** Divide $1,500 by 6 to find 10%. ✏️ **What do you get?** """ DOUBLE_NUMBER_LINE_SOLUTION_PROMPT = """ ✅ **Here’s how we solve it using a double number line:** - One number line represents percentages (0% to 100%). - The second number line represents dollar values. - 60% corresponds to $1,500. - **10% =** $1,500 ÷ 6 = $250. - **100% =** $250 × 10 = **$2,500.** 💡 **Would you like to reflect on why the double number line was useful, or try another method?** (Type ‘Bar Model’ or ‘Equation’ to proceed.) """ EQUATION_PROMPT = """ ### **🚀 Equation-Based Approach** "Great choice! Let's solve this problem using an **equation**. 🔹 **How would you write an equation for this problem?** ✏️ **Please describe your approach first.** - How can you express 60% in fraction or decimal form? - What variable would represent the total investment? - What equation would you set up to solve for the total? 💡 **Explain your method before I provide any guidance.** """ EQUATION_FEEDBACK_PROMPT = """ ✅ **Thanks for explaining! Let's check your equation:** 🔹 **Did you:** - Set up a proportion between 60% and $1,500? - Define a variable for the total investment? ✏️ **Would you like to adjust anything before I give hints?** """ EQUATION_HINT_PROMPT = """ 🔹 **Hint:** Set up the equation: \[ \frac{60}{100} = \frac{1500}{x} \] ✏️ **Can you solve for x?** """ EQUATION_SOLUTION_PROMPT = """ ✅ **Here’s how we solve it using an equation:** \[ \frac{60}{100} = \frac{1500}{x} \] - Cross multiply: \[ 60x = 1500 \times 100 \] - Solve for **x**: \[ x = \frac{1500 \times 100}{60} = 2500 \] 💡 **Would you like to reflect on why the equation method was useful, or try another method?** (Type ‘Bar Model’ or ‘Double Number Line’ to proceed.) """ REFLECTION_PROMPT = """ "Great job! Now, let's reflect on the strategies we used. - Which method did you find most helpful, and why? - How does this connect to real-world proportional reasoning? - How would you explain this to a student? ✏️ **Share your thoughts before we conclude!** """