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Deck 5: Entropy and the Second Law of Thermodynamics

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Question
A slow (quasi-static) process is NOT reversible if:

A) the temperature changes
B) energy is absorbed or emitted as heat
C) work is done on the system
D) friction is present
E) the pressure changes
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Question
The change in entropy is zero for:

A) reversible adiabatic processes
B) reversible isothermal processes
C) reversible processes during which no work is done
D) reversible isobaric processes
E) all adiabatic processes
Question
Rank from smallest to largest, the changes in entropy of a pan of water on a hot plate, as the temperature of the water
1) goes from 20 °\degree to 30 °\degree C
2) goes from 30 °\degree to 40 °\degree C.
3) goes from 40 °\degree to 45 °\degree C
4) foes from 80 °\degree to 85 °\degree C

A) 1, 2, 3, 4
B) 4, 3, 2, 1
C) 1 and 2 tie, then 3 and 4 tie
D) 3 and 4 tie, then 1 and 2 tie.
E) 4, 3, 2, 1.
Question
An ideal gas expands into a vacuum in a rigid vessel. As a result there is:

A) a change in entropy
B) an increase of pressure
C) a change in temperature
D) a decrease of internal energy
E) a change in phase
Question
One mole of an ideal gas expands reversibly and isothermally at temperature T until its volume is doubled. The change of entropy of this gas for this process is:

A) R ln 2
B) (ln 2)/T
C) zero
D) RT ln 2
E) 2R
Question
A hot object and a cold object are placed in thermal contact and the combination is isolated. They transfer energy until they reach a common temperature. The change Δ\Delta Sh in the entropy of the hot object, the change Δ\Delta Sc in the entropy of the cold object, and the change Δ\Delta Stotal in the entropy of the combination are:

A) Δ\Delta Sh > 0, Δ\Delta Sc > 0, Δ\Delta Stotal > 0
B) Δ\Delta Sh < 0, Δ\Delta Sc > 0, Δ\Delta Stotal > 0
C) Δ\Delta Sh < 0, Δ\Delta Sc > 0, Δ\Delta Stotal < 0
D) Δ\Delta Sh > 0, Δ\Delta Sc < 0, Δ\Delta Stotal > 0
E) Δ\Delta Sh > 0, Δ\Delta Sc < 0, Δ\Delta Stotal < 0
Question
For all adiabatic processes:

A) the entropy does not change
B) the entropy increases
C) the entropy decreases
D) the entropy does not increase
E) the entropy does not decrease
Question
A Carnot cycle heat engine operates between 400 K and 500 K. Its efficiency is:

A) 20%
B) 25%
C) 44%
D) 79%
E) 100%
Question
The maximum theoretical efficiency of a Carnot engine operating between reservoirs at the steam point and at room temperature is about:

A) 10%
B) 20%
C) 50%
D) 80%
E) 99%
Question
Consider the following processes:
I. Energy flows as heat from a hot object to a colder object
II.Work is done on a system and an equivalent amount of energy is
Rejected as heat by the system
III. Energy is absorbed as heat by a system and an equivalent amount
Of work is done by the system
Which are never found to occur?

A) Only I
B) Only II
C) Only III
D) Only II and III
E) I, II and III
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Deck 5: Entropy and the Second Law of Thermodynamics
1
A slow (quasi-static) process is NOT reversible if:

A) the temperature changes
B) energy is absorbed or emitted as heat
C) work is done on the system
D) friction is present
E) the pressure changes
friction is present
2
The change in entropy is zero for:

A) reversible adiabatic processes
B) reversible isothermal processes
C) reversible processes during which no work is done
D) reversible isobaric processes
E) all adiabatic processes
reversible adiabatic processes
3
Rank from smallest to largest, the changes in entropy of a pan of water on a hot plate, as the temperature of the water
1) goes from 20 °\degree to 30 °\degree C
2) goes from 30 °\degree to 40 °\degree C.
3) goes from 40 °\degree to 45 °\degree C
4) foes from 80 °\degree to 85 °\degree C

A) 1, 2, 3, 4
B) 4, 3, 2, 1
C) 1 and 2 tie, then 3 and 4 tie
D) 3 and 4 tie, then 1 and 2 tie.
E) 4, 3, 2, 1.
4, 3, 2, 1.
4
An ideal gas expands into a vacuum in a rigid vessel. As a result there is:

A) a change in entropy
B) an increase of pressure
C) a change in temperature
D) a decrease of internal energy
E) a change in phase
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Unlock for access to all 10 flashcards in this deck.
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5
One mole of an ideal gas expands reversibly and isothermally at temperature T until its volume is doubled. The change of entropy of this gas for this process is:

A) R ln 2
B) (ln 2)/T
C) zero
D) RT ln 2
E) 2R
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Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
6
A hot object and a cold object are placed in thermal contact and the combination is isolated. They transfer energy until they reach a common temperature. The change Δ\Delta Sh in the entropy of the hot object, the change Δ\Delta Sc in the entropy of the cold object, and the change Δ\Delta Stotal in the entropy of the combination are:

A) Δ\Delta Sh > 0, Δ\Delta Sc > 0, Δ\Delta Stotal > 0
B) Δ\Delta Sh < 0, Δ\Delta Sc > 0, Δ\Delta Stotal > 0
C) Δ\Delta Sh < 0, Δ\Delta Sc > 0, Δ\Delta Stotal < 0
D) Δ\Delta Sh > 0, Δ\Delta Sc < 0, Δ\Delta Stotal > 0
E) Δ\Delta Sh > 0, Δ\Delta Sc < 0, Δ\Delta Stotal < 0
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7
For all adiabatic processes:

A) the entropy does not change
B) the entropy increases
C) the entropy decreases
D) the entropy does not increase
E) the entropy does not decrease
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8
A Carnot cycle heat engine operates between 400 K and 500 K. Its efficiency is:

A) 20%
B) 25%
C) 44%
D) 79%
E) 100%
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Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
9
The maximum theoretical efficiency of a Carnot engine operating between reservoirs at the steam point and at room temperature is about:

A) 10%
B) 20%
C) 50%
D) 80%
E) 99%
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Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
10
Consider the following processes:
I. Energy flows as heat from a hot object to a colder object
II.Work is done on a system and an equivalent amount of energy is
Rejected as heat by the system
III. Energy is absorbed as heat by a system and an equivalent amount
Of work is done by the system
Which are never found to occur?

A) Only I
B) Only II
C) Only III
D) Only II and III
E) I, II and III
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