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

1.5 Ru × T

2 Ru × T

Ru × T

3 Ru × T

1.5 Ru × T

2 Ru × T

Ru × T

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Engineering Thermodynamics
In an isothermal process

All of the listed here

There is no change in temperature

There is no change in enthalpy

There is no change in internal energy

All of the listed here

There is no change in temperature

There is no change in enthalpy

There is no change in internal energy

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Engineering Thermodynamics
According to Kelvin-Planck’s statement of second law of thermodynamics,

None of these

It is impossible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

It is impossible to construct a device which operates in a cyclic process and produces no effect other than the transfer of heat from a cold body to a hot body

It is possible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

None of these

It is impossible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

It is impossible to construct a device which operates in a cyclic process and produces no effect other than the transfer of heat from a cold body to a hot body

It is possible to construct an engine working on a cyclic process, whose sole purpose is to convert heat energy into work

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Engineering Thermodynamics
Mixture of ice and water form a

Open system

Isolated system

Closed system

Heterogeneous system

Open system

Isolated system

Closed system

Heterogeneous system

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Engineering Thermodynamics
Zeroth law of thermodynamics

States that if two systems are both in equilibrium with a third system, they are in thermal equilibrium with each other

Deals with heat engines

Deals with conversion of mass and energy

Deals with reversibility and irreversibility of process

States that if two systems are both in equilibrium with a third system, they are in thermal equilibrium with each other

Deals with heat engines

Deals with conversion of mass and energy

Deals with reversibility and irreversibility of process

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Engineering Thermodynamics
In an ideal gas turbine plant, it is assumed that the compression and expansion processes are

Isothermal

None of these

Polytropic

Isentropic

Isothermal

None of these

Polytropic

Isentropic

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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 In an isothermal process

Engineering Thermodynamics According to Kelvin-Planck’s statement of second law of thermodynamics,

Engineering Thermodynamics Mixture of ice and water form a

Engineering Thermodynamics Zeroth law of thermodynamics

Engineering Thermodynamics In an ideal gas turbine plant, it is assumed that the compression and expansion processes are

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
In an isothermal process

Engineering Thermodynamics
According to Kelvin-Planck’s statement of second law of thermodynamics,

Engineering Thermodynamics
Mixture of ice and water form a

Engineering Thermodynamics
Zeroth law of thermodynamics

Engineering Thermodynamics
In an ideal gas turbine plant, it is assumed that the compression and expansion processes are