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Here is the slideshow I am using in class: Thermodynamics Slideshow
Textbook: Chapters 9, 12, & 13
Objectives:
Objectives:
1st Law of Thermodynamics (conservation):
Internal Energy:
Temperature:
qualitatively explain average K of particles being proportional to T
connect statistical distribution of microscopic energy to macroscopic T & thermo processes.
Heat Transfer:
Thermal Conductivity - design an experiment to test thermal conductivity
Describe direction of energy transfer in terms of particle interactions
describe conduction, convection and radiation models for transferring energy
describe approaching thermal equilibrium in terms of particle interactions and probability
Work:
Ideal Gas Law
2nd Law of Thermodynamics (entropy):
Ideal Gas Law
Equations:
Equations:
Equations not on the chart:
Be able to combine K=3/2(k_B)T with the concept that total internal energy for a monatomic gas is equal to NK = 3/2N(k_B)T = 3/2nRT = 3/2 PV
Common Misconceptions:
Common Misconceptions:
A cold body contains no heat.
There is no limit on the lowest temperature.
At absolute zero motion of every part of an object stops.
An object has no mass at absolute zero.
Sweaters will make you warmer.
Cold can flow.
Gases can be compressed to zero volume.
Heat and temperature are the same thing.
Heat and cold flow like liquids.
Pressure is the same as force.
Skin is a good thermometer.
Until I get more up here:
Until I get more up here:
Check out this guy's notes: http://whs.wsd.wednet.edu/Faculty/Busse/MathHomePage/busseclasses/apphysics/studyguides/chapter121314/chapter121314studyguide2006_2.php
and
Khan Academy or Mrs. Twu for thorough explanations and examples:
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