Finding specific heat capacity

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👩 Teacher’s Guide

🎯 Objective

Students will be able to:

• Describe and explain finding specific heat capacity using the particle model
• Use correct equations and units where appropriate
• Apply ideas about matter and energy to everyday situations

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📝 Teaching Notes

• Key idea to emphasize: Specific heat capacity can be determined by heating a known mass with a measured energy input and measuring the temperature rise.
• Common misconception: Temperature always rises when heating (it can stay constant during a change of state).
• Suggested teaching approach:
• Use particle diagrams to explain observations
• Collect simple data (temperature, time, volume) and discuss reliability
• Reinforce key equations with short calculation questions

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💬 Discussion Starter

Ask students:

• Why can matter change state without changing temperature?
• How does the particle model explain what we see?
• Where do we use these ideas in cooking, weather, or engineering?

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🧒 Student Worksheet

Concept and Helping Material

Specific heat capacity can be determined by heating a known mass with a measured energy input and measuring the temperature rise.

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Vocabulary and Definitions

• — Device that supplies energy electrically
• — Energy transferred per second (W)
• — Measures temperature
• — Calculated as E = P × t
• — Energy transferred to surroundings

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Hands-On Experiment or Activities

Activity 1: Heating water (high heat capacity)

What You Need: beaker, water, thermometer/probe, stopwatch, hot plate or kettle (supervised), lid/insulation.

What You Do: Heat gently and record temperature every minute; notice how slowly temperature rises.

Think and Talk: What changed? What stayed the same?

Activity 2: Compare materials with same energy input

What You Need: two equal-mass blocks (e.g., aluminum and steel), heater, power supply, thermometer/probe, insulation.

What You Do: Supply the same energy to each and compare the temperature rise.

Think and Talk: What changed? What stayed the same?

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Practice Questions (QA)

1. How can you calculate energy supplied by an электрical heater?

2. What is power?

3. If P=60 W and t=200 s, E?

4. What equation links E, m, c, and ΔT?

5. How do you rearrange to find c?

6. Why insulate the object in the experiment?

7. Why use a lid when heating water?

8. Why stir water when heating?

9. What is the main systematic error?

10. How reduce heat loss?

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Reflection

• Where do you see finding specific heat capacity in daily life?
• What would you do to make measurements more accurate in this topic?