1. Thermal Energy Thermal Energy: The total internal Energy Internal Energy: The sum of the kinetic and potential energies of the internal motion of particles that make up an object.

2. You did work against friction, where did the energy go?

3. Temperature Molecules move at different speeds. Temperature relates to the AVERAGE kinetic energy of the molecules in a substance. The amount of KE is also related to the phase of the material Solid

4. Temperature When heat is added the molecules move faster. The higher the temperature, the faster the molecules move and the less they are bound to each other.

5. What is Heat? Heat is energy in transfer from an object of higher temperature to one of lower temperature. The quantity of energy transfer from one object to another is because of a difference in temperature. ColdHot Heat Flow Warm

6. Change of Phase of State States of matter –Solid –Liquid –Gas What happens to the temperature when matter is changing states?

7. Substances in Phase Transfer 40  32  212  40  00 100  FF CC

8. Phase Change Between A-B: The ice is warming to 0 o C Between B-C: Thermal energy melts the ice at 0 o C Between C-D: The water is warm to 100 o C Between D-E: The water boils and changes to vapor at 100 o C After E:The temperature of the vapor increases A B C E D

9. Thermal Energy Transfer Conduction: –Transfer of Kinetic Energy by contact Convection: –Heat transfer by the motion of a fluid (e.g. air) Radiation: –Electromagnetic waves carry energy Note: Conduction and Convection require matter

10. Conduction Conduction is the transfer of heat through molecular collisions. This form of heat transfer best occurs in solids where molecules are closely packed. Materials that conduct heat well are called conductors. (Eg. metals such as copper and iron) Magnification

11. Convection Convection is the transfer of heat though moving fluids. A fluid is any substance that flows, which includes all liquids and gases. Examples include convection ovens and cloud formation. Convection ?

12. Radiation (not radioactivity) Radiation is the transfer of heat via electromagnetic waves. These waves include visible light, but are mostly infrared. No matter is required for this type of heat transfer. Examples include the sun’s heat and warmth felt from a flame. Open Space ? Radiation

13. Heat Transfer Question Consider a camp fire burning vigorously. –How is heat normally transferred while warming its viewers? Radiation –How is heat transferred when you put a hand in the smoke? Convection –How is heat transferred to a stick when it is placed in the hot coals? Conduction Some situations involve multiple heat transfer types like this.

14. Specific Heat Heat: The energy that flows as a result of a difference in temperature Q: The symbol for heat. Measured in Joules (J) C: the symbol for Specific Heat. The amount of energy needed to raise a unit of mass one temperature unit. (J/kg K)

15. Heat gained Q: Heat m:mass ΔT:Change in Temperature

16. Sample Heat Problem How much heat is required to raise the temperature of a 2.4kg gold ingot (c = 129J/kgK) from 23°C to 45°C? 2.4kg Light

17. Heat Transfer Example 1 A 0.40kg block of iron is heated from 295K to 325K. How much heat is absorbed by the iron? C=450J/kg K

18. Calorimerty Calorimeter: A device used to measure changes in thermal energy. Calorimerty depends on the conservation of energy. Q gained + Q lost = Zero

19. Calorimerty Example #1 A.4kg block of zinc @115°C is placed in.5kg of water @15°C. Find the final temperature.

20. Calorimerty Example example #2 A.1kg block of brass @90°C is placed in.2kg of water @20°C. Find the final temperature.

21. Heat of fusion Example #1 If 5,000J is added to ice at 0 o C, how much ice is melted? Q=mH f Q=mH v Water H f =3.34x10 5 J/kg WaterH v =2.26x10 6 J/kg Specific Heat Phase Change

22. Heat of fusion example #2 How much heat must be transferred to 100g of ice at 0 0 C unit the ice melts and the temperature of the resulting water rises to 20 0 C? Water H f =3.34x10 5 J/kg