Do Now Thursday , January 09, 2014

1. Do Now Thursday, January 09, 2014 • You heat a balloon filled with air. What happens to the pressure inside of the balloon? Why? 3.5 minutes Do Now Check

2. By the end of the day today, IWBAT… • Explain and calculate specific heat Why it matters in LIFE: Explains why certain objects are made out of certain materials Why it matters in THIS CLASS: This is the last topic we are covering before spring break – you will have a mastery quiz on Monday so let’s hit 85%!

3. Agenda

4. Thursday, 01/09/14

5. Thermometer Lab Wrap Up • What were the two systems you dealt with in this lab? • Which system is transferring energy into the water? How do you know? • After you turned the hot plate on, what happened to the molecules on the surface of the plate? • What type of energy is being transferred from the hot plate to the water? • How does this transfer of energy affect the molecules of water? • How does this transfer of energy affect the molecules of the liquid inside the thermometer? • As particles of water strike the thermometer and transfer their energy into the liquid inside, what happens to the pressure of the thermometer’s liquid? • How does this change in pressure allow us to use a thermometer to measure the temperature of a system?

6. Specific Heat • In the last step of your lab, you calculated the total heat that was put into your system in order to raise the temperature of the water • In order to be able to do this, you needed to know the SPECIFIC HEAT of the water

7. Specific Heat • Specific heat is a property of matter that describes the amount of energy required to raise the temperature of one gram of a substance by 1 °C

8. Specific Heat • Specific heat is a constant that relates heat and temperature change per kilogram • Different materials have a different specific heat • A low specific heat means heat is conducted through an object quickly

9. Specific Heat CONDUCTORS: change heat easily Low Specific Heat Require little energy to change temp INSULATORS: Do NOT change heat easily High Specific Heat Require LOTS of energy to change temp

10. Specific Heat Insulators Conductors

11. Recall the “Fire Proof Balloon”Specific Heat Demonstration • We have two balloons – one filled with water and one filled with air Based on what you learned yesterday about temperature and pressure, what actually happens to the balloon?

12. Specific Heat – Equation Q = mCDT Q = mC(Tf – Ti) Q = heat (joules-J) m = mass (kg) C = specific heat (J/kg °C) DT = change in temp (°C)

13. Specific Heat Demo • Why did the balloon filled with water not explode? • The water balloon does not explode because the water inside absorbs the heat better than the air does • Water has a HIGHER specific heat, which means it has a HIGH heat capacity • It takes a lot more energy to change the temperature of the water than it does for the air

14. Practice Problem - Q = mCDT • If the specific heat of methanol is 251 J/kg˚C, how many Joules of heat are needed to raise the temp of .250 kg of methanol from 18˚C to 33˚C?

15. Group Practice • A .625 sample of water was cooled from 50˚C to 10˚C. How much heat was lost? The specific heat of water is 4,184 J/kg˚C.

16. Group Practice • The heat capacity of lead is 130 J/kg˚C. How much heat (in J) is required to raise the temperature of 15 g of lead from 22˚C to 37˚C?

17. Group Practice •  What is the specific heat of a substance that absorbs 250 J of heat when a sample of 10 kg of the substance increases in temperature from 10˚C to 70˚C?

18. Exit Ticket • Complete the exit ticket questions INDEPENDENTLY • You are not getting enough INDIVIDUAL practice before assessments, which is one of the reasons why the grades are so low • You don’t really know it unless you can do it ON YOUR OWN