The kinetic energy per kg molecule of any gas at absolute temperature T is equal to (where Ru = Universal gas constant)

Engineering Thermodynamics
The kinetic energy per kg molecule of any gas at absolute temperature T is equal to (where Ru = Universal gas constant)

3 Ru × T

Ru × T

1.5 Ru × T

2 Ru × T

3 Ru × T

Ru × T

1.5 Ru × T

2 Ru × T

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Engineering Thermodynamics
Carnot cycle consists of

One constant volume, one constant pressure and two isentropic processes

Two constant volume and two isentropic processes

Two constant pressure and two isentropic processes

Two isothermal and two isentropic processes

One constant volume, one constant pressure and two isentropic processes

Two constant volume and two isentropic processes

Two constant pressure and two isentropic processes

Two isothermal and two isentropic processes

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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
Extensive 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
Molecular volume of any perfect gas at 600 × 103 N/m² and 27°C will be

41.7 m3/kg mol

4.17 m3/kg mol

400 m3/kg mol

0.15 m3/kg mol

41.7 m3/kg mol

4.17 m3/kg mol

400 m3/kg mol

0.15 m3/kg mol

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Engineering Thermodynamics
A cycle consisting of two constant pressure and two isentropic processes is known as

Otto cycle

None of the listed here

Carnot cycle

Stirling cycle

Otto cycle

None of the listed here

Carnot cycle

Stirling cycle

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Engineering Thermodynamics

Engineering Thermodynamics The kinetic energy per kg molecule of any gas at absolute temperature T is equal to (where Ru = Universal gas constant)

Engineering Thermodynamics Carnot cycle consists of

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 Extensive property of a system is one whose value

Engineering Thermodynamics Molecular volume of any perfect gas at 600 × 103 N/m² and 27°C will be

Engineering Thermodynamics A cycle consisting of two constant pressure and two isentropic processes is known as

Engineering Thermodynamics
The kinetic energy per kg molecule of any gas at absolute temperature T is equal to (where Ru = Universal gas constant)

Engineering Thermodynamics
Carnot cycle consists of

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
Extensive property of a system is one whose value

Engineering Thermodynamics
Molecular volume of any perfect gas at 600 × 103 N/m² and 27°C will be

Engineering Thermodynamics
A cycle consisting of two constant pressure and two isentropic processes is known as