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Deck 18: Chemical Thermodynamics

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Question
If a piston of cross-sectional area 1.60×102 mm2 exerts a pressure of 4.80×105 N/m2, by what distance should it move in order to perform 1.92×102 J of work?

A) 5.00 m
B) 7.50 m
C) 2.50 m
D) 12.5 m
E) 10.0 m
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Question
Which of the following best defines a state function?

A) It is the property of a system whose magnitude depends on the pathway used to go from one state to another.
B) It is the property of a system whose magnitude depends on only the present state of the system, not its previous history.
C) It is the property of a system whose magnitude depends on the work done in the past and on how the equilibrium state is reached.
D) It is the property of a system whose magnitude depends on only the previous history of the system.
E) It is the property of a system whose magnitude is independent of the equilibrium state of the system.
Question
If a piston exerts an external pressure of 3.20×105 N/m2 to move a distance of 3.50 m, what is the area of cross-section of the piston? Given: Work done by the piston = 1.50×102 J.

A) 134 mm2
B) 175 mm2
C) 224 mm2
D) 115 mm2
E) 252 mm2
Question
If the external pressure on the piston is less than the internal pressure in the piston, then the ideal gas in the piston will be compressed, and the surroundings will perform work on the system.
Question
If a piston of cross-sectional area 2.50×102 mm2 exerts an external pressure of 4.00×104 N/m2, what is the force acting on the piston?

A) 25.0 N
B) 4.25 N
C) 17.5 N
D) 10.0 N
E) 32.5 N
Question
If a piston exerts an external pressure of 75.0×103 N/m2 and moves a distance of 2.00 m, what is the magnitude of the work performed by the piston? Given: Cross-sectional area of the piston = 5.00×102 mm2.

A) 7.50×101 J
B) 15.0×101 J
C) 22.5×101 J
D) 37.5×101 J
E) 50.0×101 J
Question
Internal energy is a state function.
Question
If a force of 250 N acts on a piston of surface area 5.0×102 mm2, what is the external pressure exerted by the piston?

A) 6.5×104 N/m2
B) 1.0×105N/m2
C) 5.0×105 N/m2
D) 2.5×104 N/m2
E) 9.5×105 N/m2
Question
_____ is the study of the interrelationships among heat, work, and the energy content of a system at equilibrium.
Question
If a force of 80.0 N acts on the piston, by what distance should the piston move in order to perform 5.00×102 J of work?

A) 6.25 m
B) 11.5 m
C) 2.48 m
D) 14.9 m
E) 17.5 m
Question
Which of the following is used to calculate the magnitude of the work performed by the piston?

A) PextAΔh\frac { \mathrm { P } _ { \mathrm { ext } } \mathrm { A } } { \Delta \mathrm { h } }
B) Pext ΔhA\frac { P _ { \text {ext } } \Delta h } { A }
C) PextAΔh\mathrm { P } _ { \mathrm { ext } } \mathrm { A } \Delta \mathrm { h }
D) PextAP _ { e x t} A
E) PextΔh\mathrm { P } _ { \mathrm { ext } } \Delta \mathrm { h }
Question
Work done by a system on its surroundings has a positive sign because it results in a transfer of energy to a system from its surroundings.
Question
If a piston performs 64.8 J of work and exerts an external pressure of 87.5 N/m2, what is the change in volume of the cylinder?

A) 0.741 m3
B) 1.45 m3
C) 0.267 m3
D) 1.86 m3
E) 2.50 m3
Question
In the SI system, the units of work and heat are _____.

A) celsius
B) pascal
C) newton
D) joules
E) kelvin
Question
A small high-performance internal combustion engine has six cylinders with a total nominal displacement (volume) of 3.60 L and a 10:1 compression ratio. How much work in joules is done when a gas in one cylinder of the engine expands at constant temperature against an opposing pressure of 60.0 atm during the engine cycle? Assume that the gas is ideal, the piston is frictionless, and no energy is lost as heat.

A) 1.32×103 J
B) -3.28×103 J
C) 7.84×103 J
D) -7.84×103 J
E) 3.28×103 J
Question
If a force of 120 N acts through a distance of 6.0 m, what is the work done by the system?

A) 240 J
B) 420 J
C) 180 J
D) 360 J
E) 720 J
Question
A closed system can exchange matter with its surroundings.
Question
A(n) _____ is that part of the universe in which we are interested, such as a mixture of gases in a glass bulb or a solution of substances in a flask.
Question
Explain the concept of a state function.
Question
If a piston exerts an external pressure of 60 N/m2 and the change in volume of the cylinder is 0.75 m3, what is the magnitude of the work performed by the piston?

A) 90 J
B) 60 J
C) 25 J
D) 80 J
E) 45 J
Question
The molar enthalpy of fusion for ice at 0.0°C and a pressure of 1.00 atm is 8.52 kJ, and the molar volumes of ice and water at 0°C are 0.0286 L and 0.0220 L, respectively. What is the change in internal energy for the melting of ice at 0.0C0.0 ^ { \circ } \mathrm { C } if the pressure is kept constant?

A) 2.35 kJ
B) 8.52 kJ
C) 11.5 kJ
D) 5.17 kJ
E) 15.8 kJ
Question
The combustion of graphite to produce carbon dioxide is described by the equation C (graphite, s) + O2(g) → CO2(g). At 286.0 K and 1.000 atm, ΔH = −367.6 kJ/mol of graphite for this reaction, and the molar volume of graphite is 7.900× 10 -3 L. What is ΔE for the reaction?

A) -465.8 kJ/mol
B) -227.3 kJ/mol
C) 465.8 kJ/mol
D) -367.6 kJ/mol
E) 227.3 kJ/mol
Question
When a reaction involves only solids, liquids, or liquid solutions, the change in enthalpy is equal to the change in internal energy.
Question
At constant temperature, the change in internal energy (ΔE)( \Delta \mathrm { E } ) is equal to _____.

A) ΔHRTΔn\Delta \mathrm { H } - \mathrm { RT } \Delta { \mathrm { n } }
B) ΔH+RTΔn\Delta \mathrm { H } + \mathrm { RT } \Delta \mathrm { n }
C) ΔHΔn+RT\Delta \mathrm { H } \Delta n + \mathrm { RT }
D) ΔHΔnRT\Delta \mathrm { H } \Delta n - \mathrm { R T}
E) RTΔnΔH\mathrm { RT } \Delta { n } - \Delta \mathrm { H }
Question
The change in enthalpy ( ΔH\Delta H ) of a system is equal to _____.

A) ΔEΔ(PV)\frac { \Delta \mathrm { E } } { \Delta ( \mathrm { PV } ) }
B) E+Δ(PV)\triangle E + \Delta ( P V )
C) Δ(PV)ΔE\frac { \Delta ( \mathrm { PV } ) } { \Delta \mathrm { E } }
D) ΔEΔ(PV)\Delta \mathrm { E } - \Delta ( \mathrm { PV } )
E) Δ(PV)ΔE\Delta ( \mathrm { PV } ) - \Delta \mathrm { E }
Question
If 120 J of work is done by the system and its change in internal energy is 480 J, what is the amount of heat transferred between the system and its surroundings?

A) 600 J
B) 360 J
C) 4.00 J
D) 480 J
E) 5.76×104 J
Question
State and explain the first law of thermodynamics.
Question
_____ is a state function that is the sum of the system's internal energy and the product of its pressure and volume.
Question
For endothermic reactions that result in a net consumption of gas, ΔE<ΔH\Delta E < \Delta H .
Question
A sample of an ideal gas in the cylinder of an engine is compressed from 400.0 mL to 200.0 mL during the compression stroke against a constant pressure of 10.00 atm. The total change in internal energy of the system is equal to -390.0 J. What is the amount of energy that is transferred from the gas to the surroundings as heat?

A) 202.6 J
B) 390.0 J
C) 98.34 J
D) 502.5 J
E) 187.4 J
Question
Derive the relationship between ΔH and ΔE.
Question
All systems have the tendency to move toward the lowest possible overall energy state.
Question
The greater the number of atoms or molecules in the gas, the greater the disorder.
Question
If "q" is the heat transferred and "w" is the work done, the change in the internal energy is equal to _____.

A) q+w
B) q×w
C) qw\frac { \mathrm { q } } { \mathrm { w } }
D) wqw - q
E) qwq - w
Question
If 3.00×102 J of work is done by the system and 1.50×102 J of energy is transferred between the system and its surroundings, what is the change in the internal energy of the system?

A) 3.00×102 J
B) 1.50×102 J
C) 4.50×102 J
D) 2.00×102 J
E) 6.00×102 J
Question
The lesser the number of microstates, the greater the entropy.
Question
The _____ of a system is the sum of the potential energy and the kinetic energy of all the components.
Question
In the equation, ΔEsys=q+w\Delta \mathrm { E } _ { \mathrm { sys } } = \mathrm { q } + \mathrm { w } , q and w are state functions.
Question
The _____ states that the energy of the universe is constant.
Question
A sample of an ideal gas in the cylinder of an engine is compressed from 5.00×102 mL to 1.50×102 mL during the compression stroke against a constant pressure of 6.00 atm. At the same time, 1.80×103 J of energy is transferred from the gas to the surroundings as heat. What is the total change in the internal energy of the gas in joules?

A) 67.5 J
B) 11.9 J
C) 32.8 J
D) 53.5 J
E) 78.4 J
Question
If the quantity of heat transferred is equal to 3.40 kJ and the absolute temperature of the object is 25.0C25.0 ^ { \circ } \mathrm { C } , what is the change in entropy for the process?

A) 15.7 J/K
B) 6.80 J/K
C) 2.39 J/K
D) 11.4 J/K
E) 9.82 J/K
Question
What is the ?S° for the reaction of liquid cyclohexane (C6H12) with O2(g) to give CO2(g) and H2O(g) at 298 K? Given: S° for C6H12 = 204.4 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) , S° for O2 = 205.2 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) , S° for CO2 = 213.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) , and S° for H2O(g) = 188.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) .

A) 550.6 J/K
B) 276.4 J/K
C) 364.4 J/K
D) 487.5 J/K
E) 762.8 J/K
Question
Which of the following causes an increase in the entropy of the system?

A) Decrease in the number of microstates
B) Condensation of vapor to form a liquid
C) Formation of a crystalline solid
D) Freezing of water to form ice
E) Expansion of gas into a vacuum
Question
Work done in an irreversible process is always equal to or greater than work done in a corresponding reversible process.
Question
If the enthalpy of fusion of ice is 6.01 kJ/mol, what is the entropy of fusion of ice?

A) 11.3 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
<strong>If the enthalpy of fusion of ice is 6.01 kJ/mol, what is the entropy of fusion of ice?</strong> A) 11.3 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) B) 6.75 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) C) 22.0 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) D) 17.2 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) E) 29.6 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) <div style=padding-top: 35px>
B) 6.75 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
C) 22.0 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
D) 17.2 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
E) 29.6 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
Question
A(n) _____ process is one in which the intermediate states are not equilibrium states, so change occurs spontaneously in only one direction.
Question
What are the differences between a reversible and an irreversible process?
Question
Thermodynamic properties, such as internal energy and enthalpy are evaluated in absolute terms.
Question
If the change in entropy of CO2 is 16.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) and its temperature changes from 298 K to 318 K, how many moles of CO2 are present? Given: Cp of CO2 = 36.94 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) .

A) 2 moles
B) 3 moles
C) 5 moles
D) 7 moles
E) 10 moles
Question
A disordered system has higher entropy than an ordered system.
Question
The process of condensing a vapor to form a liquid must be accompanied by an increase in the entropy of the system.
Question
The _____ states that the entropy of the universe remains constant in a reversible process, whereas the entropy of the universe increases in an irreversible process.
Question
If the change in entropy of the system is equal to 5.8 J/K and the absolute temperature of the system is 290 K, what is the change in internal energy of the system? Given: Work done by the system is equal to 1.3 kJ.

A) 4.8 kJ
B) 7.2 kJ
C) 2.9 kJ
D) 16 kJ
E) 12 kJ
Question
_____ is the thermodynamic property of all substances that is proportional to their degree of disorder.
Question
A(n) _____ process is one in which every intermediate state between the extremes is an equilibrium state, regardless of the direction of the change.
Question
The absolute entropy of a substance tends to decrease with increasing molecular complexity.
Question
If the temperature of 10 moles of oxygen changes from 298 K to 310 K, what is the change in entropy for oxygen? Given: Cp of oxygen = 29.38 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )

A) 11.6 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
B) 4.67 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
C) 15.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
D) 8.32 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
E) 19.7 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
Question
ΔE for a process is the same whether that process is carried out in a reversible manner or an irreversible one.
Question
If the change in entropy of the system is equal to 4.70 J/K and the absolute temperature of the object is 287K, what is the quantity of heat transferred from the object?

A) 4.56 kJ
B) 1.35 kJ
C) 8.76 kJ
D) 12.5 kJ
E) 15.8 kJ
Question
Soft crystalline substances have higher entropies because of increased molecular motion and disorder.
Question
Explain standard free-energy change and standard free energy of formation.
Question
If the ΔGf° of benzene is equal to 124.5 kJ/mol and the ΔGf° of cyclohexane is equal to 217.3 kJ/mol, what is the ΔG° for the reaction of benzene with hydrogen gas to give cyclohexane?

A) -124.6 kJ
B) 186.5 kJ
C) - 75.9 kJ
D) 92.8 kJ
E) 57.3 kJ
Question
The magnitude of the equilibrium constant is directly influenced by the tendency of a system to move toward maximum disorder and seek the lowest energy state possible.
Question
The _____ is the change in free energy when one substance or a set of substances in their standard states is converted to one or more other substances, also in their standard states.
Question
In the absence of a phase change, neither ΔH nor ΔS vary greatly with temperature.
Question
At constant temperature and pressure, the change in Gibbs free energy (ΔG)( \Delta \mathrm { G } ) is equal to _____.

A) TΔSΔH\mathrm { T } \Delta \mathrm { S } - \Delta \mathrm { H }
B) TΔHΔS\mathrm { T } \Delta \mathrm { H } - \Delta \mathrm { S }
C) ΔHΔST \Delta \mathrm { H} \Delta{S } - \mathrm { T }
D) ΔH+TΔS\Delta \mathrm { H } + \mathrm { T } \Delta \mathrm { S }
E) HTΔS\triangle \mathrm { H } - \mathrm { T } \Delta \mathrm { S }
Question
The _____ states that the entropy of any perfectly ordered, crystalline substance at absolute zero is zero.
Question
The _____ is the amount of heat needed to raise the temperature of 1 mol of a substance by 1°C at constant pressure.
Question
If ΔSuniv < 0 for a process or a reaction, the process will occur spontaneously.
Question
What is the ?G at 350.0C350.0 ^ { \circ } \mathrm { C } for the reaction N2(g)+3H2(g)f2NH3(g)\mathrm { N } _ { 2 } ( g ) + 3 \mathrm { H } _ { 2 } ( g ) f \quad 2 \mathrm { NH } _ { 3 } ( g ) assuming that ?H and ?S do not change between 25.00°C and 350.0°C?Given: S°(N2) = 191.6 J/(mol·K), S°(H2) = 130.7 J/(mol·K), S°(NH3) = 192.8 J/(mol·K), and ?Hf° (NH3) = ?45.90 kJ/mol.

A) 156.5 kJ/mol
B) 31.62 kJ/mol
C) -93.45 kJ/mol
D) 114.6 kJ/mol
E) - 168.8 kJ/mol
Question
If Q > K, then the reaction proceeds spontaneously to the right as written, resulting in the net conversion of reactants to products.
Question
The entropy of the universe increases during all processes that produce energy.
Question
Explain the third law of thermodynamics.
Question
The entropy of 1 mol of a substance at a standard temperature of 298 K is its _____.
Question
A positive ΔG° means that the equilibrium constant is greater than 1.
Question
The _____ of a compound is the change in free energy that occurs when 1 mol of a substance in its standard state is formed from the component elements in their standard states.
Question
The temperature at which liquid water is in equilibrium with water vapor is called the _____ of water.
Question
At 25°C, for the reaction 2H2( g)+O2( g)f2H2O(l)2 \mathrm { H } _ { 2 } ( \mathrm {~g} ) + \mathrm { O } _ { 2 } ( \mathrm {~g} ) f \quad 2 \mathrm { H } _ { 2 } \mathrm { O } ( \mathrm { l } ) , the standard enthalpy change (?H°) is ?285.8 kJ/mol, and the absolute entropies of the products and reactants are S°(H2O) = 70.00 J/(mol·K), S°(O2) = 205.2 J/(mol·K), and S°(H2) = 130.7 J/(mol·K). What is the standard free-energy change for the reaction?

A) 278.6 kJ/mol
B) -188.4 kJ/mol
C) -249.7 kJ/mol
D) 359.8 kJ/mol
E) -313.4 kJ/mol
Question
For a spontaneous process under standard conditions, Keq and Kp are greater than 1.
Question
At temperatures greater than 373.15 K, ΔG is negative, and water evaporates spontaneously and irreversibly.
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Deck 18: Chemical Thermodynamics
1
If a piston of cross-sectional area 1.60×102 mm2 exerts a pressure of 4.80×105 N/m2, by what distance should it move in order to perform 1.92×102 J of work?

A) 5.00 m
B) 7.50 m
C) 2.50 m
D) 12.5 m
E) 10.0 m
2.50 m
2
Which of the following best defines a state function?

A) It is the property of a system whose magnitude depends on the pathway used to go from one state to another.
B) It is the property of a system whose magnitude depends on only the present state of the system, not its previous history.
C) It is the property of a system whose magnitude depends on the work done in the past and on how the equilibrium state is reached.
D) It is the property of a system whose magnitude depends on only the previous history of the system.
E) It is the property of a system whose magnitude is independent of the equilibrium state of the system.
It is the property of a system whose magnitude depends on only the present state of the system, not its previous history.
3
If a piston exerts an external pressure of 3.20×105 N/m2 to move a distance of 3.50 m, what is the area of cross-section of the piston? Given: Work done by the piston = 1.50×102 J.

A) 134 mm2
B) 175 mm2
C) 224 mm2
D) 115 mm2
E) 252 mm2
134 mm2
4
If the external pressure on the piston is less than the internal pressure in the piston, then the ideal gas in the piston will be compressed, and the surroundings will perform work on the system.
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5
If a piston of cross-sectional area 2.50×102 mm2 exerts an external pressure of 4.00×104 N/m2, what is the force acting on the piston?

A) 25.0 N
B) 4.25 N
C) 17.5 N
D) 10.0 N
E) 32.5 N
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6
If a piston exerts an external pressure of 75.0×103 N/m2 and moves a distance of 2.00 m, what is the magnitude of the work performed by the piston? Given: Cross-sectional area of the piston = 5.00×102 mm2.

A) 7.50×101 J
B) 15.0×101 J
C) 22.5×101 J
D) 37.5×101 J
E) 50.0×101 J
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7
Internal energy is a state function.
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8
If a force of 250 N acts on a piston of surface area 5.0×102 mm2, what is the external pressure exerted by the piston?

A) 6.5×104 N/m2
B) 1.0×105N/m2
C) 5.0×105 N/m2
D) 2.5×104 N/m2
E) 9.5×105 N/m2
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9
_____ is the study of the interrelationships among heat, work, and the energy content of a system at equilibrium.
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10
If a force of 80.0 N acts on the piston, by what distance should the piston move in order to perform 5.00×102 J of work?

A) 6.25 m
B) 11.5 m
C) 2.48 m
D) 14.9 m
E) 17.5 m
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11
Which of the following is used to calculate the magnitude of the work performed by the piston?

A) PextAΔh\frac { \mathrm { P } _ { \mathrm { ext } } \mathrm { A } } { \Delta \mathrm { h } }
B) Pext ΔhA\frac { P _ { \text {ext } } \Delta h } { A }
C) PextAΔh\mathrm { P } _ { \mathrm { ext } } \mathrm { A } \Delta \mathrm { h }
D) PextAP _ { e x t} A
E) PextΔh\mathrm { P } _ { \mathrm { ext } } \Delta \mathrm { h }
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12
Work done by a system on its surroundings has a positive sign because it results in a transfer of energy to a system from its surroundings.
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13
If a piston performs 64.8 J of work and exerts an external pressure of 87.5 N/m2, what is the change in volume of the cylinder?

A) 0.741 m3
B) 1.45 m3
C) 0.267 m3
D) 1.86 m3
E) 2.50 m3
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14
In the SI system, the units of work and heat are _____.

A) celsius
B) pascal
C) newton
D) joules
E) kelvin
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15
A small high-performance internal combustion engine has six cylinders with a total nominal displacement (volume) of 3.60 L and a 10:1 compression ratio. How much work in joules is done when a gas in one cylinder of the engine expands at constant temperature against an opposing pressure of 60.0 atm during the engine cycle? Assume that the gas is ideal, the piston is frictionless, and no energy is lost as heat.

A) 1.32×103 J
B) -3.28×103 J
C) 7.84×103 J
D) -7.84×103 J
E) 3.28×103 J
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16
If a force of 120 N acts through a distance of 6.0 m, what is the work done by the system?

A) 240 J
B) 420 J
C) 180 J
D) 360 J
E) 720 J
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17
A closed system can exchange matter with its surroundings.
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18
A(n) _____ is that part of the universe in which we are interested, such as a mixture of gases in a glass bulb or a solution of substances in a flask.
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19
Explain the concept of a state function.
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20
If a piston exerts an external pressure of 60 N/m2 and the change in volume of the cylinder is 0.75 m3, what is the magnitude of the work performed by the piston?

A) 90 J
B) 60 J
C) 25 J
D) 80 J
E) 45 J
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21
The molar enthalpy of fusion for ice at 0.0°C and a pressure of 1.00 atm is 8.52 kJ, and the molar volumes of ice and water at 0°C are 0.0286 L and 0.0220 L, respectively. What is the change in internal energy for the melting of ice at 0.0C0.0 ^ { \circ } \mathrm { C } if the pressure is kept constant?

A) 2.35 kJ
B) 8.52 kJ
C) 11.5 kJ
D) 5.17 kJ
E) 15.8 kJ
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22
The combustion of graphite to produce carbon dioxide is described by the equation C (graphite, s) + O2(g) → CO2(g). At 286.0 K and 1.000 atm, ΔH = −367.6 kJ/mol of graphite for this reaction, and the molar volume of graphite is 7.900× 10 -3 L. What is ΔE for the reaction?

A) -465.8 kJ/mol
B) -227.3 kJ/mol
C) 465.8 kJ/mol
D) -367.6 kJ/mol
E) 227.3 kJ/mol
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23
When a reaction involves only solids, liquids, or liquid solutions, the change in enthalpy is equal to the change in internal energy.
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24
At constant temperature, the change in internal energy (ΔE)( \Delta \mathrm { E } ) is equal to _____.

A) ΔHRTΔn\Delta \mathrm { H } - \mathrm { RT } \Delta { \mathrm { n } }
B) ΔH+RTΔn\Delta \mathrm { H } + \mathrm { RT } \Delta \mathrm { n }
C) ΔHΔn+RT\Delta \mathrm { H } \Delta n + \mathrm { RT }
D) ΔHΔnRT\Delta \mathrm { H } \Delta n - \mathrm { R T}
E) RTΔnΔH\mathrm { RT } \Delta { n } - \Delta \mathrm { H }
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25
The change in enthalpy ( ΔH\Delta H ) of a system is equal to _____.

A) ΔEΔ(PV)\frac { \Delta \mathrm { E } } { \Delta ( \mathrm { PV } ) }
B) E+Δ(PV)\triangle E + \Delta ( P V )
C) Δ(PV)ΔE\frac { \Delta ( \mathrm { PV } ) } { \Delta \mathrm { E } }
D) ΔEΔ(PV)\Delta \mathrm { E } - \Delta ( \mathrm { PV } )
E) Δ(PV)ΔE\Delta ( \mathrm { PV } ) - \Delta \mathrm { E }
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26
If 120 J of work is done by the system and its change in internal energy is 480 J, what is the amount of heat transferred between the system and its surroundings?

A) 600 J
B) 360 J
C) 4.00 J
D) 480 J
E) 5.76×104 J
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27
State and explain the first law of thermodynamics.
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28
_____ is a state function that is the sum of the system's internal energy and the product of its pressure and volume.
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29
For endothermic reactions that result in a net consumption of gas, ΔE<ΔH\Delta E < \Delta H .
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30
A sample of an ideal gas in the cylinder of an engine is compressed from 400.0 mL to 200.0 mL during the compression stroke against a constant pressure of 10.00 atm. The total change in internal energy of the system is equal to -390.0 J. What is the amount of energy that is transferred from the gas to the surroundings as heat?

A) 202.6 J
B) 390.0 J
C) 98.34 J
D) 502.5 J
E) 187.4 J
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31
Derive the relationship between ΔH and ΔE.
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32
All systems have the tendency to move toward the lowest possible overall energy state.
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33
The greater the number of atoms or molecules in the gas, the greater the disorder.
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34
If "q" is the heat transferred and "w" is the work done, the change in the internal energy is equal to _____.

A) q+w
B) q×w
C) qw\frac { \mathrm { q } } { \mathrm { w } }
D) wqw - q
E) qwq - w
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35
If 3.00×102 J of work is done by the system and 1.50×102 J of energy is transferred between the system and its surroundings, what is the change in the internal energy of the system?

A) 3.00×102 J
B) 1.50×102 J
C) 4.50×102 J
D) 2.00×102 J
E) 6.00×102 J
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36
The lesser the number of microstates, the greater the entropy.
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37
The _____ of a system is the sum of the potential energy and the kinetic energy of all the components.
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38
In the equation, ΔEsys=q+w\Delta \mathrm { E } _ { \mathrm { sys } } = \mathrm { q } + \mathrm { w } , q and w are state functions.
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39
The _____ states that the energy of the universe is constant.
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40
A sample of an ideal gas in the cylinder of an engine is compressed from 5.00×102 mL to 1.50×102 mL during the compression stroke against a constant pressure of 6.00 atm. At the same time, 1.80×103 J of energy is transferred from the gas to the surroundings as heat. What is the total change in the internal energy of the gas in joules?

A) 67.5 J
B) 11.9 J
C) 32.8 J
D) 53.5 J
E) 78.4 J
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41
If the quantity of heat transferred is equal to 3.40 kJ and the absolute temperature of the object is 25.0C25.0 ^ { \circ } \mathrm { C } , what is the change in entropy for the process?

A) 15.7 J/K
B) 6.80 J/K
C) 2.39 J/K
D) 11.4 J/K
E) 9.82 J/K
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42
What is the ?S° for the reaction of liquid cyclohexane (C6H12) with O2(g) to give CO2(g) and H2O(g) at 298 K? Given: S° for C6H12 = 204.4 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) , S° for O2 = 205.2 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) , S° for CO2 = 213.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) , and S° for H2O(g) = 188.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) .

A) 550.6 J/K
B) 276.4 J/K
C) 364.4 J/K
D) 487.5 J/K
E) 762.8 J/K
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43
Which of the following causes an increase in the entropy of the system?

A) Decrease in the number of microstates
B) Condensation of vapor to form a liquid
C) Formation of a crystalline solid
D) Freezing of water to form ice
E) Expansion of gas into a vacuum
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44
Work done in an irreversible process is always equal to or greater than work done in a corresponding reversible process.
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45
If the enthalpy of fusion of ice is 6.01 kJ/mol, what is the entropy of fusion of ice?

A) 11.3 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
<strong>If the enthalpy of fusion of ice is 6.01 kJ/mol, what is the entropy of fusion of ice?</strong> A) 11.3 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) B) 6.75 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) C) 22.0 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) D) 17.2 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) E) 29.6 \mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
B) 6.75 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
C) 22.0 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
D) 17.2 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
E) 29.6 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
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46
A(n) _____ process is one in which the intermediate states are not equilibrium states, so change occurs spontaneously in only one direction.
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47
What are the differences between a reversible and an irreversible process?
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48
Thermodynamic properties, such as internal energy and enthalpy are evaluated in absolute terms.
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49
If the change in entropy of CO2 is 16.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) and its temperature changes from 298 K to 318 K, how many moles of CO2 are present? Given: Cp of CO2 = 36.94 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } ) .

A) 2 moles
B) 3 moles
C) 5 moles
D) 7 moles
E) 10 moles
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50
A disordered system has higher entropy than an ordered system.
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51
The process of condensing a vapor to form a liquid must be accompanied by an increase in the entropy of the system.
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52
The _____ states that the entropy of the universe remains constant in a reversible process, whereas the entropy of the universe increases in an irreversible process.
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53
If the change in entropy of the system is equal to 5.8 J/K and the absolute temperature of the system is 290 K, what is the change in internal energy of the system? Given: Work done by the system is equal to 1.3 kJ.

A) 4.8 kJ
B) 7.2 kJ
C) 2.9 kJ
D) 16 kJ
E) 12 kJ
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54
_____ is the thermodynamic property of all substances that is proportional to their degree of disorder.
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55
A(n) _____ process is one in which every intermediate state between the extremes is an equilibrium state, regardless of the direction of the change.
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56
The absolute entropy of a substance tends to decrease with increasing molecular complexity.
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57
If the temperature of 10 moles of oxygen changes from 298 K to 310 K, what is the change in entropy for oxygen? Given: Cp of oxygen = 29.38 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )

A) 11.6 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
B) 4.67 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
C) 15.8 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
D) 8.32 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
E) 19.7 J/(molK)\mathrm { J } / ( \mathrm { mol } \cdot \mathrm { K } )
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58
ΔE for a process is the same whether that process is carried out in a reversible manner or an irreversible one.
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59
If the change in entropy of the system is equal to 4.70 J/K and the absolute temperature of the object is 287K, what is the quantity of heat transferred from the object?

A) 4.56 kJ
B) 1.35 kJ
C) 8.76 kJ
D) 12.5 kJ
E) 15.8 kJ
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60
Soft crystalline substances have higher entropies because of increased molecular motion and disorder.
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61
Explain standard free-energy change and standard free energy of formation.
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62
If the ΔGf° of benzene is equal to 124.5 kJ/mol and the ΔGf° of cyclohexane is equal to 217.3 kJ/mol, what is the ΔG° for the reaction of benzene with hydrogen gas to give cyclohexane?

A) -124.6 kJ
B) 186.5 kJ
C) - 75.9 kJ
D) 92.8 kJ
E) 57.3 kJ
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63
The magnitude of the equilibrium constant is directly influenced by the tendency of a system to move toward maximum disorder and seek the lowest energy state possible.
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64
The _____ is the change in free energy when one substance or a set of substances in their standard states is converted to one or more other substances, also in their standard states.
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65
In the absence of a phase change, neither ΔH nor ΔS vary greatly with temperature.
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66
At constant temperature and pressure, the change in Gibbs free energy (ΔG)( \Delta \mathrm { G } ) is equal to _____.

A) TΔSΔH\mathrm { T } \Delta \mathrm { S } - \Delta \mathrm { H }
B) TΔHΔS\mathrm { T } \Delta \mathrm { H } - \Delta \mathrm { S }
C) ΔHΔST \Delta \mathrm { H} \Delta{S } - \mathrm { T }
D) ΔH+TΔS\Delta \mathrm { H } + \mathrm { T } \Delta \mathrm { S }
E) HTΔS\triangle \mathrm { H } - \mathrm { T } \Delta \mathrm { S }
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67
The _____ states that the entropy of any perfectly ordered, crystalline substance at absolute zero is zero.
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68
The _____ is the amount of heat needed to raise the temperature of 1 mol of a substance by 1°C at constant pressure.
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69
If ΔSuniv < 0 for a process or a reaction, the process will occur spontaneously.
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70
What is the ?G at 350.0C350.0 ^ { \circ } \mathrm { C } for the reaction N2(g)+3H2(g)f2NH3(g)\mathrm { N } _ { 2 } ( g ) + 3 \mathrm { H } _ { 2 } ( g ) f \quad 2 \mathrm { NH } _ { 3 } ( g ) assuming that ?H and ?S do not change between 25.00°C and 350.0°C?Given: S°(N2) = 191.6 J/(mol·K), S°(H2) = 130.7 J/(mol·K), S°(NH3) = 192.8 J/(mol·K), and ?Hf° (NH3) = ?45.90 kJ/mol.

A) 156.5 kJ/mol
B) 31.62 kJ/mol
C) -93.45 kJ/mol
D) 114.6 kJ/mol
E) - 168.8 kJ/mol
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71
If Q > K, then the reaction proceeds spontaneously to the right as written, resulting in the net conversion of reactants to products.
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72
The entropy of the universe increases during all processes that produce energy.
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73
Explain the third law of thermodynamics.
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74
The entropy of 1 mol of a substance at a standard temperature of 298 K is its _____.
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75
A positive ΔG° means that the equilibrium constant is greater than 1.
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76
The _____ of a compound is the change in free energy that occurs when 1 mol of a substance in its standard state is formed from the component elements in their standard states.
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77
The temperature at which liquid water is in equilibrium with water vapor is called the _____ of water.
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78
At 25°C, for the reaction 2H2( g)+O2( g)f2H2O(l)2 \mathrm { H } _ { 2 } ( \mathrm {~g} ) + \mathrm { O } _ { 2 } ( \mathrm {~g} ) f \quad 2 \mathrm { H } _ { 2 } \mathrm { O } ( \mathrm { l } ) , the standard enthalpy change (?H°) is ?285.8 kJ/mol, and the absolute entropies of the products and reactants are S°(H2O) = 70.00 J/(mol·K), S°(O2) = 205.2 J/(mol·K), and S°(H2) = 130.7 J/(mol·K). What is the standard free-energy change for the reaction?

A) 278.6 kJ/mol
B) -188.4 kJ/mol
C) -249.7 kJ/mol
D) 359.8 kJ/mol
E) -313.4 kJ/mol
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79
For a spontaneous process under standard conditions, Keq and Kp are greater than 1.
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80
At temperatures greater than 373.15 K, ΔG is negative, and water evaporates spontaneously and irreversibly.
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