An Introduction to Thermal Physics
1st Edition
ISBN: 9780201380279
Author: Daniel V. Schroeder
Publisher: Addison Wesley
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Textbook Question
Chapter 2.6, Problem 29P
Consider a system of two Einstein solids, with
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Recall Problem 1.34, which concerned an ideal diatomic gas taken around a rectangular cycle on a PV diagram. Suppose now that this system is used as a heat engine, to convert the heat added into mechanical work. (a) Evaluate the efficiency of this engine for the case V2 = 3V1 , P2 = 2P1. (b) Calculate the efficiency of an "ideal" engine operating between the same temperature extremes.
Prove that the entropy S of an ideal gas [Sackur and Tetrode's equation] is an extensive quantity.
Then show that the entropy of the gas of particles to be separated from each other is
3
S = NKB
— Nku [2 - In (2/V)],
and that this quantity is not extensive.
Remember: by extensiveness we mean that if we scale the size of the system by a factor a (V
→ a V, N a N, but the particle density n = N/V remains constant), any extensive quantity
a s)
also scales by a factor a (here: S
→
2.2 Consider a van der Waal's gas that undergoes an
isothermal expansion from volume V₁ to volume V₂.
(a)
(b)
Calculate the change in the Helmholtz free energy.
From the theory of thermodynamics, with 7 and V
p. Show that the change in
independent, (a)
T
V
(OV)₁ = 7 (SP),
),
internal energy is AU = a a (1/17 - 12/2).
G
V₂
Chapter 2 Solutions
An Introduction to Thermal Physics
Ch. 2.1 - Prob. 1PCh. 2.1 - Prob. 2PCh. 2.1 - Prob. 3PCh. 2.1 - Prob. 4PCh. 2.2 - For an Einstein solid with each of the following...Ch. 2.2 - Prob. 6PCh. 2.2 - Prob. 7PCh. 2.3 - Prob. 8PCh. 2.3 - Use a computer to reproduce the table and graph in...Ch. 2.3 - Use a computer to produce a table and graph, like...
Ch. 2.3 - Use a computer to produce a table and graph, like...Ch. 2.4 - Prob. 12PCh. 2.4 - Fun with logarithms. (a) Simplify the expression...Ch. 2.4 - Write e1023 in the form 10x, for some x.Ch. 2.4 - Prob. 15PCh. 2.4 - Prob. 16PCh. 2.4 - Prob. 17PCh. 2.4 - Prob. 18PCh. 2.4 - Prob. 19PCh. 2.4 - Suppose you were to shrink Figure 2.7 until the...Ch. 2.4 - Prob. 21PCh. 2.4 - Prob. 22PCh. 2.4 - Prob. 23PCh. 2.4 - Prob. 24PCh. 2.4 - Prob. 25PCh. 2.5 - Prob. 26PCh. 2.5 - Prob. 27PCh. 2.6 - How many possible arrangements are there for a...Ch. 2.6 - Consider a system of two Einstein solids, with...Ch. 2.6 - Prob. 30PCh. 2.6 - Fill in the algebraic steps to derive the...Ch. 2.6 - Prob. 32PCh. 2.6 - Use the Sackur-Tetrode equation to calculate the...Ch. 2.6 - Prob. 34PCh. 2.6 - According to the Sackur-Tetrode equation, the...Ch. 2.6 - For either a monatomic ideal gas or a...Ch. 2.6 - Using the Same method as in the text, calculate...Ch. 2.6 - Prob. 38PCh. 2.6 - Compute the entropy of a mole of helium at room...Ch. 2.6 - For each of the following irreversible process,...Ch. 2.6 - Describe a few of your favorite, and least...Ch. 2.6 - A black hole is a region of space where gravity is...
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- Problem 4.1. Recall Problem 1.34, which concerned an ideal diatomic gas taken around a rectangular cycle on a PV diagram. Suppose now that this system is used as a heat engine, to convert the heat added into mechanical work. (a) Evaluate the efficiency of this engine for the case V2 = 3V1, P2 = 2P1. (b) Calculate the efficiency of an "ideal" engine operating between the same temperature extremes.arrow_forwardIn Section 1.13 it was stated that the van der Waals constant b is approximately four times the volume occupied by the molecules themselves. Justify this relationship for a gas composed of spherical moleculesarrow_forwardConsider a van der Waal's gas that undergoes an isothermal expansion from volume V₁ to volume V₂. Calculate the change in the Helmholtz free energy. 2.2 (a) (b) From the theory of thermodynamics, with T and V T independent, ()₁ = T()-p. Show that the change in internal energy is AU = a(-1/2).arrow_forward
- Statical Mechanics (Thermal and Statical Physics) Instruction: Write ALL the solutions of this (necessary or and not direct answer). Write also the equations that are needed to solve for a certain problem. Thank you. Problem: Now, we have the number of microstates and in between E and E + ∆E in isolated system of N particles in the volume V is given by: (Please see the image attached) Where a,b, c are constants. Note: Answer also letter A-Darrow_forwardFor this question, consider a cylinder filled with a gas, com- pressed by a piston, as discussed in lectures. Consider the gas to be an ideal gas with constant heat capacity at fixed pressure (Cp) and constant heat capacity at fixed pressure (Cy). (See Tutorial 2). Both Cp and Cy are positive numbers. (a) How could we place this system into a state that is in mechanical equilibrium, but not in thermal equilibrium, with its surroundings? (b) We wish to raise the temperature of the gas isobarically (at constant pressure), and then lower the temperature isochorically (at constant volume). Briefly describe an experimental process that will achieve this. (c) The gas expands isobarically and reversibly from (Vo, Po, To) to (V₁, Po, T₁) — call this Process 1. Illustrate this process on a pV -diagram. (d) Calculate the amount work done on the gas during Process 1. Pay attention to the sign of your answer. (e) Show that the amount of heat that flows into the system during Process 1 is, V₁ - Vo…arrow_forwardUse the Maxwell distribution to calculate the average value of v2 for the molecules in an ideal gas. Check that your answer agrees with equation 6.41 (Attached).arrow_forward
- rork 28 the ofnly Problem 1.31. Imagine some helium in a cylinder with an initial volume of 1 liter and an initial pressure of 1 atm. Somehow the helium is made to expand to a final volume of 3 liters, in such a way that its pressure rises in direct proportion to its volume. (a) Sketch a graph of pressure vs. volume for this process. (b) Calculate the work done on the gas during this process, assuming that there are no "other" types of work being done. (c) Calculate the change in the helium's energy content during this process. (d) Calculate the amount of heat added to or removed from the helium during this process. (e) Describe what you might do to cause the pressure to rise as the helium еxpands. Problem 1.33. An ideal gas is made to undergo the cyclic process shown in Figure 1.10(a). For each of the steps A, B, and C, determine whether each of the following is positive, nogative, or zero: (a) the work done on the gas; (b) the change in the energy content of the gas; (c) the heat…arrow_forwardConsider N identical harmonic oscillators (as in the Einstein floor). Let the allowed energies of each oscillator (E = n h f (n = 0, 1, 2 ...)) 0, hf, 2hf and so on. A) Find the Helmholtz free energy of this system. B) Derive the expression that gives the entropy of this system as a function of temperature.arrow_forwardcalculate the heat capacity of an Einstein solid in the low-temperature limit. Sketch the predicted heat capacity as a function of temperature. (Note: Measurements of heat capacities of actual solids at low temperatures do not confirm the prediction that you will make in this problem.arrow_forward
- 1.9. Making use of the fact that the entropy S(N, V, E) of a thermodynamic system is an extensive quantity, show that as as as N (³N) VE + V ( ³5 ) N.F + E (³E) N.V av Note that this result implies that (-Nµ+ PV + E)/T = S, that is, Nμ = E + PV - TS. = S.arrow_forwardConsider a mass, m, moving under the influence of an effective potential energy -a b T 7-2 U(r) = + " where a and b are positive constants and r is the radial distance from the origin. In this case, U(r) is a 1D potential energy. (c) Expand The function for U(r) for small displacements about the equilibrium point, To. This will be a Taylor series for U(r) in terms of (r-ro)", where n is an integer. Generate the first three nonzero terms in the series.arrow_forwardQuestion 2: Suppose a solid contains 3 identical independent one dimensional oscillstors and sar i.e. 0, 1 and 2, then- he only the ee td mer O there is only one macrostate with total energy zero. o there are two macrostates with total energy zero. O There are nine macrostates with total energy zero. O There are three macrostates with total energy zero.arrow_forward
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