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)

2 Ru × T

Ru × T

1.5 Ru × T

3 Ru × T

2 Ru × T

Ru × T

1.5 Ru × T

3 Ru × T

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Engineering Thermodynamics
Carnot cycle consists of

Two isothermal and two isentropic processes

Two constant volume and two isentropic processes

One constant volume, one constant pressure and two isentropic processes

Two constant pressure and two isentropic processes

Two isothermal and two isentropic processes

Two constant volume and two isentropic processes

One constant volume, one constant pressure and two isentropic processes

Two constant pressure and two isentropic processes

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Engineering Thermodynamics
The amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

None of these

Specific heat at constant pressure

kilo-Joule

Specific heat at constant volume

None of these

Specific heat at constant pressure

kilo-Joule

Specific heat at constant volume

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Engineering Thermodynamics
Universal gas constant is defined as equal to product of the molecular weight of the gas and

Specific heat at constant volume

Specific heat at constant pressure

Ratio of two specific heats

Gas constant

Specific heat at constant volume

Specific heat at constant pressure

Ratio of two specific heats

Gas constant

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Engineering Thermodynamics
The entropy may be expressed as a function of

Heat and work

Temperature and volume

All of these

Pressure and temperature

Heat and work

Temperature and volume

All of these

Pressure and temperature

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Engineering Thermodynamics
An adiabatic wall is one which

Encourages thermal interaction

Permits thermal interaction

Discourages thermal interaction

Prevents thermal interaction

Encourages thermal interaction

Permits thermal interaction

Discourages thermal interaction

Prevents thermal interaction

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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 amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

Engineering Thermodynamics Universal gas constant is defined as equal to product of the molecular weight of the gas and

Engineering Thermodynamics The entropy may be expressed as a function of

Engineering Thermodynamics An adiabatic wall is one which

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 amount of heat required to raise the temperature of 1 kg of water through one Kelvin is called

Engineering Thermodynamics
Universal gas constant is defined as equal to product of the molecular weight of the gas and

Engineering Thermodynamics
The entropy may be expressed as a function of

Engineering Thermodynamics
An adiabatic wall is one which