Lecture 14 Chapter 19 Ideal Gas Law and Kinetic Theory of Gases
... Example: Four moles of an ideal gas undergo a reversible isothermal expansion from volume V1 to volume V2 = 2V1 at temperature T = 400K. a) Find the work done by the gas. b) Find the entropy change of the gas? c) Find the entropy change if the process is adiabatic ...
... Example: Four moles of an ideal gas undergo a reversible isothermal expansion from volume V1 to volume V2 = 2V1 at temperature T = 400K. a) Find the work done by the gas. b) Find the entropy change of the gas? c) Find the entropy change if the process is adiabatic ...
1 Problem T4 (Unified Thermodynamics): SOLUTIONS a) Describe
... provided energy (from the change in potential energy of the weight). The two chambers have received the energy, and it appears as increased internal energy of each of the chambers. b) What processes will you use to model this system? Why? (LO’s #2, #4, #5) The first process is not quasi-static but i ...
... provided energy (from the change in potential energy of the weight). The two chambers have received the energy, and it appears as increased internal energy of each of the chambers. b) What processes will you use to model this system? Why? (LO’s #2, #4, #5) The first process is not quasi-static but i ...
Solution to Sample Problems in Recitation 2 - Pruffle
... Figure 2: Heating up water by doing work on it As was said above, it is always useful to state the assumptions and constrains so we know exactly what the system is "allowed" to do: Since the system is surrounded by insulating walls, there is no heat transfer from or towards the system. No mass i ...
... Figure 2: Heating up water by doing work on it As was said above, it is always useful to state the assumptions and constrains so we know exactly what the system is "allowed" to do: Since the system is surrounded by insulating walls, there is no heat transfer from or towards the system. No mass i ...
Chapter 6 Thermodynamics and the Equations of Motion
... In actuality, thermodynamics is a misnomer. Classical thermodynamics deals with equilibrium states in which there are no variations of the material in space or time, hardly the situation of interest to us. However, we assume that we can subdivide the fluid into regions small enough to allow the cont ...
... In actuality, thermodynamics is a misnomer. Classical thermodynamics deals with equilibrium states in which there are no variations of the material in space or time, hardly the situation of interest to us. However, we assume that we can subdivide the fluid into regions small enough to allow the cont ...