Heat Propagation

1. Heat Propagation • Liceo Da Procida Lesson 2

2. Reminder • Last time we learned about kinetic theory of matter • Which state of matter has the fastest moving particles? • How do we make the particles move even more quickly? • Today, we will explore the different ways to transfer heat to a substance

3. Concept Question What is heat? A) A measure of how hot or cold something is. B) A basketball team from Boston. C) Energy transferred due to a temperature difference. D) A quantity measured in degrees Kelvin.

4. Answer What is heat? A) A measure of how hot or cold something is. B) A basketball team from Boston. C) Energy transferred due to a temperature difference. D) A quantity measured in degrees Kelvin.

5. How does heat travel? • Heat energy always travels from HOT to COLD • When the sun shines on the Earth, does energy travel from the sun to the Earth or from the Earth to the sun? • If I burn my hand by touching the stove, does energy travel from the stove to my hand or from my hand to the stove? • If I take a cold shower to cool down, does energy travel from the water to my body or from my body to the water?

6. Kinds of Heat Propagation • 3 types • Heat Propagation Rap • Conduction • Convection • Radiation

7. Conduction • What happens to the roof of your mouth if you eat a piece of pizza before it cools down? • If you have coffee in a mug does the outside of the mug feel hot or cold? • Two objects touching = CONDUCTION • Two objects = pizza and your mouth, two molecules in mug

8. Conduction • Different materials conduct heat differently • Which will get hotter, a metal spoon or a wooden spoon in a pot of boiling water? • Thermal conductivity – How well a material can conduct heat vs.

9. Concept Question • Would you use a material with high or low thermal conductivity in the walls of your house to keep heat in during the winter? • High thermal conductivity • Low thermal conductivity

10. Concept Question • Would you use a material with high or low thermal conductivity in the walls of your house to keep heat in during the winter? • High thermal conductivity • Low thermal conductivity

11. Conduction • The thermal conductivity of a material is measured in W/m*C (ex: for aluminum, k = 250 W/m*C) • We can measure how much heat has gone through a bar based on the following equation: • Q = k*A*ΔT*Δt/L • A = cross-sectional area, T = temperature, t = time, L = length

12. Conduction • Q = k*A*ΔT*Δt/L • ΔT = T1 – T2 • Δt = elapsed time • Q = amount of heat transferred

13. Practice Problems • Q = k*A*ΔT*Δt/L • A 2 m copper rod with a cross-sectional area of 0.1 m2 has one end at 80C and the other at 50C. The thermal conductivity of copper is 370 W/m*C. How much heat is transferred in 10 seconds? • How much heat is transferred in an hour through a 5 m long copper rod with a square cross-sectional area, where each side measures 0.1 m? One end of the rod is at 300K and the other is at 320K

14. Convection • Which way does a flame point on a candle? • Right after you burn yourself, what should you do? • Fluids flowing = CONVECTION • Fluid = liquid (i.e. water), air

15. Convection • Two parts to convection: • Hot air always travels UP (ex: hot air balloon) • Flowing liquids transfer heat (ex: run something frozen under warm water to heat it up) • Cool convection video!

16. Convection • Remember, FLUIDS MOVING (air, liquid) = CONVECTION!

17. Radiation • Where do you normally hear the word “radiation?” • Cell phones, X-rays, nuclear power plants, etc. • What do all these have in common? • Two objects that DON’T touch • Energy transferred through electromagnetic waves

18. Radiation • If you light a campfire and sit a few feet from it, what do you feel? • If you put something in a microwave, does it come out hotter or colder? • In heat propagation, radiation means heat transfer between two objects that DON’T touch • Heat energy is transferred through electromagnetic waves • Radiation experiment!

19. Radiation • We can predict how much heat energy an object will give off based on its temperature! • The Stefan-Boltzmann Law gives us the amount of heat energy radiated per unit surface area per second (flux) • Think: would a higher temperature mean an object gives off more or less heat energy?

20. Stefan-Boltzmann Law • THE EQUATION: F = σT4 • F = heat propagation flux (energy radiated per unit surface area per second) • σ = Stefan-Boltzmann constant (5.67 * 10-8 J/s*m2*K4) • T = temperature (but be careful! Temperature must be measured in Kelvin, not degrees Celsius or Fahrenheit) • Does higher temperature mean more or less heat propagation?

21. Practice Problems • Remember: F = σT4 • A star’s temperature is 5000K. According to the Stefan-Boltzmann law, how much energy is radiated into space per second by each square meter of the star’s surface? • If the star is a perfect sphere with radius 640000000 m, what is the total power output of the star?

22. Examples from earlier • Conduction, Convention, Radiation • Sun shining on Earth • Radiation • Burning my hand on the stove • Conduction • Taking a cold shower • Convection

23. Heat transfer applet • http://www.teachersdomain.org/asset/lsps07_int_heattransfer/

24. More Examples • For each of the following examples, what kind of heat transfer is it (and why)? • Hot water rises in a boiling pot • An incandescent light bulb feels warm when your hand is a few centimeters away • A chocolate bar melts in my hand on a hot day • A firefighter uses a hose of water to put out a fire • A crazy man walks across burning coals

25. More Examples • I ride on a waterslide to cool down on a hot day • You feel the coolness of a breeze on a warm day • The cold outside makes the inside of the windows feel cold • Venus is much hotter than Saturn • You stir fry vegetables in a pan • You put your finger in a cup of hot coffee