The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU - W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU × W1 - 2

Q1 - 2 = dU/W1 - 2

Q1 - 2 = dU - W1 - 2

Q1 - 2 = dU + W1 - 2

Q1 - 2 = dU × W1 - 2

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Engineering Thermodynamics
The temperature at which the volume of a gas becomes zero is called

None of these

Absolute temperature

Absolute scale of temperature

Absolute zero temperature

None of these

Absolute temperature

Absolute scale of temperature

Absolute zero temperature

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Engineering Thermodynamics
The ratio of two specific heats of air is equal to

0.1

0.17

0.24

1.41

0.1

0.17

0.24

1.41

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Engineering Thermodynamics
Intensive property of a system is one whose value

Is dependent on the path followed and not on the state

Is not dependent on the path followed but on the state

Depends on the mass of the system, like volume

Does not depend on the mass of the system, like temperature, pressure, etc.

Is dependent on the path followed and not on the state

Is not dependent on the path followed but on the state

Depends on the mass of the system, like volume

Does not depend on the mass of the system, like temperature, pressure, etc.

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Engineering Thermodynamics
According to Dalton's law, the total pressure of the mixture of gases is equal to

Greater of the partial pressures of all

Average of the partial pressures of all

Sum of the partial pressures of all divided by average molecular weight

Sum of the partial pressures of all

Greater of the partial pressures of all

Average of the partial pressures of all

Sum of the partial pressures of all divided by average molecular weight

Sum of the partial pressures of all

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Engineering Thermodynamics
In an isothermal process, the internal energy

Increases

Decreases

Remain constant

First increases and then decreases

Increases

Decreases

Remain constant

First increases and then decreases

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Engineering Thermodynamics

Engineering Thermodynamics The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics The temperature at which the volume of a gas becomes zero is called

Engineering Thermodynamics The ratio of two specific heats of air is equal to

Engineering Thermodynamics Intensive property of a system is one whose value

Engineering Thermodynamics According to Dalton's law, the total pressure of the mixture of gases is equal to

Engineering Thermodynamics In an isothermal process, the internal energy

Engineering Thermodynamics
The general gas energy equation is (where Q1 - 2 = Heat supplied, dU = Change in internal energy, and W1 - 2 = Work done in heat units)

Engineering Thermodynamics
The temperature at which the volume of a gas becomes zero is called

Engineering Thermodynamics
The ratio of two specific heats of air is equal to

Engineering Thermodynamics
Intensive property of a system is one whose value

Engineering Thermodynamics
According to Dalton's law, the total pressure of the mixture of gases is equal to

Engineering Thermodynamics
In an isothermal process, the internal energy