Chapter 11
# Use the concept of efficiency.
# Discuss how energy is used in the body.
# Understand the definitions of the Fahrenheit, Celsius, and Kelvin temperature scales and
converting between them.
# Understand the correspondence of temperature and average kinetic energy and its use to
find the rms speed.
# Understand the related concepts of heat, temperature, and thermal energy.
# Apply the first and second laws of thermodynamics.
# Understand energy-transfer diagrams, heat engines and heat pumps.
# Understand and apply efficiency and coefficient of performance, theoretical vs. actual.
# Understand the concept of entropy and the limits it places on energy transformations.
Chapter 12
# Use the atomic model of matter to explain the thermal expansion of solids and liquids,
changes of phase, pressure in gases, and the transfer of heat.
# Apply the ideal-gas law to gases undergoing changes in pressure, volume, and
temperature.
# Understand p-V diagrams and how to find the net work in a process
# Understand the meanings of the terms thermal energy, heat, specific heat capacity, heat
of fusion, and heat of vaporization
# Solve problems involving heat transfer between systems.
# Be able to work calorimetry problems including those involving phase changes.
# Understand the heat-transfer processes of conduction, convection, and radiation.
Chapter 13
# Understand and use the concept of mass density, pressure and viscosity.
# Understand pressure in liquids, and how pressure is measured.
# Know the difference between absolute and gauge pressure.
# Understand hydrostatic equilibrium, equal pressures in a liquid, pressure at a depth in
the fluid.
# Use Archimedes' principle to understand buoyancy, predict if it will float, relations to
density and volume.
# Apply the equation of continuity to a moving fluid, volume flow rate and streamlines.
# Understand velocity dependence on pressure gradients, venturi tubes and lift.
# Make qualitative predictions about pressures and forces in moving fluids.
# Apply Bernoulli's and Poiseuille's equations to problems of fluid flow.