Whatsonna Chapter 13, 14, 15 Test .:. Review PowerPoint .:. Go up

Prequizzes solved: | 13.1 | 14.1 | 15.1 |

Do 3 out of 4 pages:

1. Ideal Gas Law:

A) Ideal gas law (PV = nRT) - (13:35, PQ13.1#2)

B) Ideal gas law (PV = nRT) - (13:31, PQ13.1#2, 4)

C) Ideal Gas Law Question - (Ideal #5, PQ13.1#2)

D) PV/nT = PV/nT - (Ideal #6, PQ13.1 #4)

E) PV/nT = PV/nT - (Ideal #8, PQ13.1 #5)

2. Phase change graph, Just like AP #1 and PQ14.1

A) Graph reading question.  (Where is the solid, liquid, ... etc.)  (PQ14.1#1)

B) Graph reading and kinetic vs potential energy (AP#1c)

C) Specific heat 14:9 (read values from graph) - (PQ14.1#3, AP#1a)

D) Latent heat 14:23 (read values from graph) - (PQ14.1#2, AP#1b)

E) Heat needed to bring from below boiling to some temp above boiling - (PQ14.1#4)

3. pV diagram of a cycle (like PQ15.1, and AP#2)

A) Temperatures of vertices - (AP#2aii, AP#4a, PQ15.1#1)

B) Work done for a complete cycle - (AP#2bi, AP#4b, PQ15.1#4) - (Ch 15:8, PQ15.1#3)

C) calculate mols - (Ideal #3)

D) Heat flow, work, and internal energy question (Q = U + W) - (Like in Lecture HeatInternalEnergyAndWork)

E) Pressure = Force/Area    problem - (PQ13.1#1)

4. First law of thermodynamics (Energy is conserved)

A) Potential energy turning to heat - (Like whiteboard example in Lecture FirstLaw.ppt)

B) Kinetic energy turning to heat - (Ch 14:15 - also like the whiteboard in Lecture FirstLaw.ppt)

C) Conceptual question about conservation of energy (Read Ch 15.1)

D) What are at least three methods of heat transfer? - (Read Ch 14-7 through 14-9)
E) Calorimetry - (Ch 14:19, PQ14.1#5)