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GRE PRACTICE TEST
Thermodynamics, Statistical Mechanics, etc.
Time — 60 minutes
30 Questions
1.
For an ideal gas, the specific heat at constant pressure Cp is greater than the specific
heat at constant volume Cv because the
(A) gas does work on its environment when its pressure remains constant while its
temperature is increased
(B) heat input per degree increase in temperature is the same in processes for which
either the pressure or the volume is kept constant
(C) pressure of the gas remains constant when its temperature remains constant
(D) increase in the gas's internal energy is greater when the pressure remains
constant than when the volume remains constant
(E) heat needed is greater when the volume remains constant than when the pressure
remains constant
2.
A sample of N atoms of helium gas is confined in a 1.0 cubic meter volume. The
probability that none of the helium atoms is in a 1.010-6 cubic meter volume of the
container is
(A) 0
3.
6 N
(B) graviton
(C) photon
(D) pion
(E) proton

(B) 0.40c
(C) 0.55c
(D) 0.70c
(E) 0.85c
Two observers O and O' observe two events, A and B. The observers have a constant
relative speed of 0.8c. In units such that the speed of light is 1, observer O obtained
the following coordinates:
Event A:
x = 3, y = 3, z = 3, t = 3
Event B:
x = 5, y = 3, z = 1, t = 5
What is the length of the space-time interval between these two events, as measured
by O'?
(A) 1
6.
(E) 1
A positive Kaon ( K ) has a rest mass of 494 MeV/c2, whereas a proton has a rest
mass of 938 MeV/c2. If a kaon has a total energy that is equal to the proton rest
energy, the speed of the kaon is most nearly
(A) 0.25c
5.
6 N
(D) 1  (10 )
Except for mass, the properties of the muon most closely resemble the properties of
the
(A) electron
4.
6 N
(C) (1 10 )
(B) (10 )
(B)
2
(C) 2
(D) 3
(E) 2 3
Which of the following statements most accurately describes how an electromagnetic
field behaves under a Lorentz transformation?
(A) The electric field transforms completely into a magnetic field.
(B) If initially there is only an electric field, after the transformation there may be
both an electric and a magnetic field.
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(C) The electric field is unaltered.
(D) The magnetic field is unaltered.
(E) It cannot be determined unless a gauge transformation is also
specified.
7.
If logical 0 is 0 volts and logical 1 is +1 volt, the circuit shown on the right is a logic
circuit commonly known as
(A)
(B)
(C)
(D)
(E)
8.
an OR gate
an AND gate
a 2-bit adder
a flip-flop
a fanout
An experimenter measures 9934 counts during one hour from a radioactive sample.
From this number the counting rate of the sample can be estimated with a standard
deviation of most nearly
(A) 100
9.
(B) 200
(C) 300
(D) 400
(E) 500
One feature common to both the Debye theory and the Einstein theory of the specific
heat of a crystal composed of N identical atoms is that the
(A) average energy of each atom is 3kT
(B) vibrational energy of the crystal is equivalent to the energy of 3N independent
harmonic oscillators
(C) crystal is assumed to be continuous for all elastic waves
(D) speed of the longitudinal elastic waves is less than the speed of the transverse
waves
(E) upper cutoff frequency of the elastic waves is the same
10. The mean kinetic energy of electrons in metals at room temperature is usually many
times the thermal energy kT. Which of the following can best be used to explain this
fact?
(A)
(B)
(C)
(D)
(E)
The energy-time uncertainty relation
The Pauli exclusion principle
The degeneracy of the energy levels
The Born approximation
The wave-particle duality
1
2 2
11. The dispersion law for a certain type of wave motion is   (c k  m ) , where  is
the angular frequency, k is the magnitude of the propagation vector, and c and m are
constants. The group velocity of these waves approaches
2 2
(A)
(B)
(C)
(D)
(E)
infinity as k  0 and zero as k  
infinity as k  0 and c as k  
c as k  0 and zero as k  
zero as k  0 and infinity as k  
zero as k  0 and c as k  
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12. For a system in which the number of particles is fixed, the reciprocal of the Kelvin
temperature T is given by which of the following derivatives? (Let P = pressure,
V = volume, S = entropy, and U = internal energy.)
(A)
 P 
V S
(B)
P 
S V
(C)
S 
P U
(D)
V 
 P U
(E)
 S 
U V
13. A large isolated system of N weakly interacting particles is in thermal equilibrium.
Each particle has only 3 possible nondegenerate states of energies 0, , and 3. When
the system is at an absolute temperature T >> /k, where k is Boltzmann's constant,
the average energy of each particle is
4
(A) 0
(B) 
(C) 
(D) 2
(E) 3
3
14. If a newly discovered particle X moves with a speed equal to the speed of light in
vacuum, then which of the following must be true?

(B)
(C)
(D)
(E)
The rest mass of X is zero.
The spin of X equals the spin of a photon.
The charge of X is carried on its surface.
X does not spin.
X cannot be detected.
Questions 15-17
A car of rest length 5 meters passes through a garage of rest length 4 meters. Due to the
relativistic Lorentz contraction, the car is only 3 meters long in the garage's rest frame.
There are doors on both ends of the garage, which open automatically when the front of the
car reaches them and close automatically when the rear passes them. The opening or
closing of each door requires a negligible amount of time.
15. The velocity of the car in the garage's rest frame is
(A) 0.4c
(B) 0.6c
(C) 0.8c
(D) greater than c
(E) not determinable from the data given
16. The length of the garage in the car's rest frame is
(A) 2.4 m
(B) 4.0 m
(C) 5.0 m
(E) not determinable from the data given
(D) 8.3 m
17. Which of the following statements is the best response to the question:
"Was the car ever inside a closed garage?"
(A)
(B)
(C)
(D)
No, because the car is longer than the garage in all reference frames.
No, because the Lorentz contraction in not a "real" effect.
Yes, because the car is shorter than the garage in all reference frames.
Yes, because the answer to the question in the garage's rest frame must apply in
all reference frames.
(E) There is no unique answer to the question, as the order of door openings and
closing depends on the reference frame.
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18. The measured index of refraction of x-rays in rock salt is less than one. This is
consistent with the theory of relativity because
(A)
(B)
(C)
(D)
(E)
relativity deals with light waves traveling in a vacuum only
x-rays cannot transmit signals
x-ray photons have imaginary mass
the theory of relativity predates the development of solid-state physics
the phase velocity and group velocity are different
19. In a gas of N diatomic molecules, two possible models for a classical description of a
diatomic molecule are:
Which of the following statements about this gas is true?
3
(A) Model I has a specific heat Cv  Nk .
2
(B) Model II has a smaller specific heat than Model I.
(C) Model I is always correct.
(D) Model II is always correct.
(E) The choice between Model I and II depends on the
temperature.
20. Consider a system of N noninteracting particles confined
in a volume V at a temperature such that the particles
obey classical Boltzmann statistics. If the temperature is
lowered to the point at which quantum effects become
important, the pressure of the gas may differ depending
on whether the particles are fermions or bosons. Let PF
be the pressure exerted by the particles if they are
fermions, PB be the pressure if they are bosons, and PC
be the pressure the particles would exert if quantum effects are ignored. Which of the
following is true?
(A) PF  PB  PC
(D) PF  PB  PC
(B) PF  PC  PB
(E) PF  PC  PB
(C) PF  PB  PC
21. In the cycle shown on the right, KL and NM represent isotherms, while KN and LM
represent reversible adiabats. A system is carried through the Carnot cycle KLMN,
taking in heat Q2 from the hot reservoir T2 and releasing heat Q1 to the cold reservoir
T2. All of the following statements are true EXCEPT:
(A)
(B)
(C)
(D)
(E)
Q1 T1  Q2 T2
The entropy of the hot reservoir decreases.
The entropy of the system increases.
The work W done is equal to the net heat absorbed, Q2  Q1 .
The efficiency of the cycle is independent of the working substance.
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22. The speed of sound in an ideal gas is related to the temperature T. This speed is
proportional to
(A) T
1
4
(B) T
1
2
(C) T
(D) T
4
3
(E) T 2
23. Two harmonic transverse waves of the same frequency with displacements at right
angles to each other can be represented by the equations:
y  y o sin(t  kx) ,
z  zo sin(t  kx   ) ,
where yo and zo are non-zero constants. The equations represent a plane-polarized
wave if  equals
(A)
2
(B) 3/2
(C) /2
(D) /4
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(E) 0
Questions 24-25
A particle with rest mass m and momentum mc/2 collides with a particle of the same rest
mass that is initially at rest. After the collision, the original two particles have disappeared.
Two other particles, each with rest mass m', are observed to leave the region of the collision
at equal angles of 30 with respect to the direction of the original moving particle, as shown
below.
24. What is the speed of the original moving particle?
(A) c 5
(B) c 3
(C) c
7
(D) c
5
(E) c 2
25. What is the momentum of each of the two particles produced by the collision?
(A) mc 5
(B) mc 2 3
(C) mc
5
(D) mc 2
(E) mc
3
Questions 26-27
An ideal diatomic gas is initially at temperature T and volume V. The gas is taken
through three reversible processes in the following cycle: adiabatic expansion to the volume
2V; constant volume process to the temperature T; isothermal compression to the original
volume V.
26. For the complete cycle described above, which of the following is true?
(A)
(B)
(C)
(D)
(E)
Net thermal energy is transferred from the gas to the surroundings.
The net work done by the gas on the surroundings is positive.
The net work done by the gas on the surroundings is zero.
The internal energy of the gas increases.
The internal energy of the gas decreases.
27. Which of the following statements about entropy changes in this cycle is true?
(A) The entropy of the gas remains constant during each of the three processes.
(B) The entropy of the surroundings remains constant during each of the three
processes.
(C) The combined entropy of the gas and surroundings remains constant during each
of the three processes.
(D) For the complete cycle, the combined entropy of the gas and surroundings
increases.
(E) For the complete cycle, the entropy of the gas
increases.
28. Which of the curves in the graph on the right best
represents the distribution of speeds of the molecules
in an ideal gas?
(A) A
(B) B
(C) C
(D) D
(E) E
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29. Which of the following is most useful for measuring temperatures of about 3000 K?
(A) Optical pyrometer (B) Carbon resistor
(C) Gas-bulb thermometer
(D) Mercury thermometer (E) Thermocouple
30. materials that are good electrical conductors also tend to be good thermal conductors
because
(A)
(B)
(C)
(D)
(E)
they have highly elastic lattice structures
they have energy gaps between the allowed electron energy bands
impurities aid both processes
surface states are important in both processes
conduction electrons contribute to both processes
Page 8 of 6
Name ________________________________________
Right (R) _________
Wrong (W) _______
Scaled Score ___________
Date ___________________
Raw Score (R - W/4) ________
% ______
GRE PRACTICE TEST
Thermodynamics, Statistical Mechanics, etc.
1.
A
B
C
D
E
16. A
B
C
D
E
2.
A
B
C
D
E
17. A
B
C
D
E
3.
A
B
C
D
E
18. A
B
C
D
E
4.
A
B
C
D
E
19. A
B
C
D
E
5.
A
B
C
D
E
20. A
B
C
D
E
6.
A
B
C
D
E
21. A
B
C
D
E
7.
A
B
C
D
E
22. A
B
C
D
E
8.
A
B
C
D
E
23. A
B
C
D
E
9.
A
B
C
D
E
24. A
B
C
D
E
10. A
B
C
D
E
25. A
B
C
D
E
11. A
B
C
D
E
26. A
B
C
D
E
12. A
B
C
D
E
27. A
B
C
D
E
13. A
B
C
D
E
28. A
B
C
D
E
14. A
B
C
D
E
29. A
B
C
D
E
15. A
B
C
D
E
30. A
B
C
D
E
Name ________________________________________
Right (R) _________
Wrong (W) _______
Scaled Score ___________
Date ___________________
Raw Score (R - W/4) ________
% ______
GRE PRACTICE TEST
Thermodynamics, Statistical Mechanics, etc.
1.
A
2.
3.
C
A
4.
E
5.
C
6.
B
42%
16. A
36%
17.
E
65%
48%
18.
E
63%
37%
19.
E
57%
24%
20.
58%
21.
7.
A
53%
22.
8.
A
42%
23.
9.
B
30%
24.
10.
B
33%
25.
11.
E
41%
26. A
12.
E
44%
27.
34%
28.
89%
29. A
72%
30.
13.
C
14. A
15.
C
66%
B
26%
C
31%
B
E
D
B
C
D
E