1. Thermal Energy

2. Temperature – THE AVERAGE KINETIC ENERGY OF AN OBJECT. Average motion energy Thermal Energy – THE TOTAL KINETIC + POTENTIAL ENERGY IN AN OBJECT. Energy of stored bonds + motion

3. Temperature Reference Points Freezing Point of Water – 0 °Cor 32°F Boiling Point of Water – 100°Cor212°F

4. 0 100 Temperature (°C) 212 32 Temperature (°F) Temperature Conversions T K = Temperature in Kelvin T C = Temperature in °C T F = Temperature in °F

6. HEAT TRANSFER

7. 1.Which object has the greatest temperature? 2.Which object has the greatest average kinetic energy? 3.Which object has the greatest total kinetic energy? 4.Which object has the greatest Thermal Energy? 5.Which object, left on its own, in outer space, has the greatest heat? 6.Which object, connected to the table, has the greatest heat transfer? A. 97°C 50 mL B. 7°C 1 L C. -2°C 1000 kL D. None of these

8. Heat HEAT = THERMAL ENERGY THAT IS TRANSFERRED FROM ONE OBJECT TO ANOTHER. HEAT ALWAYS FLOWS FROM THE HIGHER TEMPERATURE TO THE LOWER TEMPERATURE Touch the leg of your chair and the leg of your desk. Which one is colder?

9. Pizza Capacity Think and Explain? When I throw my pizza into the microwave to warm it up, it isn’t the same temperature throughout. Why?

10. Heat Capacity All substances will change temperature as they gain thermal energy. HEAT CAPACITY = THE AMOUNT OF TEMPERATURE CHANGE TO A HEATED OBJECT DEPENDS ON THE OBJECT AND THE MASS.

11. Modes of Heat Transfer The three methods of Heat Transfer – CONDUCTION – CONVECTION – RADIATION

12. Conduction CONDUCTION = THERMAL ENERGY TRANSFERRED BY THE COLLOSIONS OF PARTICLES CONDUCTION REQUIRES CONTACT – It is an exchange of energy between atoms and electrons by collisions – Less energetic particles gain energy during collisions with more energetic particles.

13. Materials Listed are common materials. Better conductors have a higher thermal conductivity Demo - POOR CONDUCTOR = GOOD INSULATOR

14. Conduction Examples Why is the tile cold and the carpet feel warm? Because the tile is a better conductor and it has a greater heat capacity

15. Convection What is convection? THERMAL ENERGY TRANSFERRED BY A CURRENT OF FLUID REQUIRES A FLUID(Gas/Liquid) – When the movement results from differences in density, it is called natural convection – When the movement is forced by a fan or a pump, it is called forced convection

16. Convection Heating An example of natural convection Explain what is happening Water Temp Demo

17. Convection Current Example What is the forced convection? What is the natural convection?

18. Weather – due to natural convection

19. Radiation RADIATION = THERMAL ENERGY TRANSFERRED BY ELECTROMAGNETIC WAVES RADIATION DOES NOT REQUIRE CONTACT All objects radiate (give off) energy continuously in the form of electromagnetic waves due to thermal vibrations of the molecules

20. Thermal Expansion When an object is heated, it’s particles speed up and spread apart, making the object expand. Demo - Uses: Cavities, Bridges, Sidewalks Lines Downsides - potholes

21. Radiation example No physical contact is necessary The electromagnetic waves carry the energy The heat transfer cannot be accounted for by conduction or convection (thru space)

22. States of Matter

23. PictureVolumeShape Kinetic Energy Inter- molecular Force Gas Liquid Solid

24. Phase Summary Picture Definite Volume Definite Shape Kinetic Energy Inter- molecular Force GasNo High Sometimes bounce off one another None Liquid YesNo Medium Roll, Bounce off one another Weak SolidYes Low Shake back and Forth Strong

25. States of Matter Notes These are found online at http://prezi.com/_2quyv8zpnzq/notes-states- of-matter/ http://prezi.com/_2quyv8zpnzq/notes-states- of-matter/ (Look at these or you’ll be sorry).

26. Deposition = Frost Condensation Amorphous Definite Shape No Definite Shape Fluid Molecules in motion Vaporziation Melting Crystalline Freezing Definite Volume No Definite Volume Least Kinetic energy Medium Kinetic energy Property of Viscosity Highest Kinetic Energy Sublimation = Dry Ice

27. Phase Change Graphs

28. 0 1 2 3 4 5 Thermal Energy 150 100 50 0 Temperature (°C) Thermal Energy and Phase Changes Freezing Liquid Gas Condensation Melting Solid Vaporization

29. Phase Change Process (S & L) Melting – THERMAL ENERGY IS USED TO BREAK BONDS – The bonds that hold molecules in vibrating lattice structure are breaking. – The Intermolecular Forces Lessen Freezing – THERMAL ENERGY IS USED TO CREATE BONDS AND HOLD MOLECULES IN PLACE – The bonds that will hold molecules in position are forming – The Intermolecular Forces Increase – Melting Point – THE TEMPERATURE AT WHICH AN OBJECT EITHER MELTS OR FREEZES.

30. E vaporation = E scape Brant’s Maximum Security Penitentiary for Incarcerated Dress Code Violators and Others. If the highest IQ’s escape, what happens to the average Penitentiary IQ. – Up – Down – Same

31. VAPORIZATION (L – G) EVAPORATION – A CHANGE IN PHASE FROM LIQUID TO GAS AT THE SURFACE. – This cools the remaining liquid! BOILING – A CHANGE IN PHASE FROME LIQUID TO GAS BELOW THE SURFACE. – This cools the remaining liquid! Boiling Point – THE TEMPERATURE THAT AN OBJECT VAPORIZES OR CONDENSES.

32. Condensation (G  L) CONDENSATION – A CHANGE OF PHASE FROM GAS TO LIQUID. This is a WARMING PROCESS for the liquid. Gas molecules strike surface of liquid and give up so much energy that they can’t stay in gaseous phase Examples Droplets forming on mirror Droplets on glass of water

33. C ondensation = C aptured The smart kids sneak out of a convocation in the gym and join the prison of ISS. What happens to the average IQ of the prison? – Up – Down – Same

34. Phase Changes with the Gizmo The differences with this type of graph, and the basic phase change graph is that the time is the x-axis instead of changing thermal energy. Hint: In these graphs Mr. Nuetzel had an initial setup, then didn’t change any of the settings after starting it.

35. Phase Change Gizmo With this setup, what will happen to the temp. graph?

43. What’s the difference between these two graphs?

45. Phase Change Gizmo With this setup, what will happen to the temp. graph?

47. Interpreting Graphs Hint – Mr. Nuetzel didn’t keep the RATE of heat transfer constant in these graphs.

48. What is happening in this graph?

50. What is the difference in these graphs?

51. What is happening in this graph?

54. Acting Out Phase Changes Get in a group of 8-12 students. You will have 2 minutes to decide how you want to act out one of the phase changes that H2O can go through with either an addition or subtraction of thermal energy. Demonstrate your skit to the class.

55. Review Discussion Questions Explain in detail and use the thermal energy vocabulary. When I throw my pizza into the microwave to warm it up, it isn’t the same temperature throughout. Why? How is the house heated? How does a thermometer work?