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2. Thermal expansion Convert temperatures and temperature differences in the Week 7
3. Heat and heat capacity following scales: Fahrenheit, Celsius, Kelvin
Define coefficient of thermal expansion and coefficient of Week 7
volume expansion
Calculate volume or length changes of solids due to Week 7
changes in temperature
Solve problems involving temperature, thermal expansion, Week 7
heat capacity, heat transfer, and thermal equilibrium in
contexts such as, but not limited to, the design of bridges
and train rails using steel, relative severity of steam burns
and water burns, thermal insulation, sizes of stars, and
surface temperatures of planets
1. Ideal gas law Enumerate the properties of an ideal gas Week 8
2. Internal energy of an Solve problems involving ideal gas equations in contexts Week 8
ideal gas such as, but not limited to, the design of metal containers
3. Heat capacity of an for compressed gases
ideal gas Interpret PV diagrams of a thermodynamic process Week 8
4. Thermodynamic Compute the work done by a gas using dW=PdV Week 8
systems State the relationship between changes internal energy, Week 8
5. Work done during work done, and thermal energy supplied through the First
volume changes Law of Thermodynamics
6. 1st law of Differentiate the following thermodynamic processes and Week 8
thermodynamics show them on a PV diagram: isochoric, isobaric,
7. Thermodynamic processes: isothermal, adiabatic, and cyclic
adiabatic, isothermal, isobaric, Calculate the efficiency of a heat engine Week 8
isochoric Describe reversible and irreversible processes Week 8
8. Heat engines Explain how entropy is a measure of disorder Week 8
9. Engine cycles State the 2nd Law of Thermodynamics Week 8
10. Entropy
Calculate entropy changes for various processes e.g., Week 8
11. 2nd law of isothermal process, free expansion, constant pressure
Thermodynamics
process, etc.
12. Reversible and irreversible
processes
