All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Engineering Thermodynamics
All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Charles' law

Boyle's law

Joule's law

Gay-Lussac law

Charles' law

Boyle's law

Joule's law

Gay-Lussac law

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Engineering Thermodynamics
The index of compression ‘n’ tends to reach ratio of specific heats ‘y’ when

Process is isentropic and specific heat does not change with temperature

Process is isentropic

Process is isothermal

Flow is uniform and steady

Process is isentropic and specific heat does not change with temperature

Process is isentropic

Process is isothermal

Flow is uniform and steady

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Engineering Thermodynamics
The increase in entropy of a system represents

Increase in availability of energy

Increase in temperature

Degradation of energy

Decrease in pressure

Increase in availability of energy

Increase in temperature

Degradation of energy

Decrease in pressure

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Engineering Thermodynamics
One barometric pressure or 1 atmospheric pressure is equal to

1.0197 kgf/cm²

1.033 kgf/cm²

1 kgf/cm²

0 kgf/cm²

1.0197 kgf/cm²

1.033 kgf/cm²

1 kgf/cm²

0 kgf/cm²

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Engineering Thermodynamics
The state of a substance whose evaporation from its liquid state is complete, is known as

Perfect gas

Vapour

Steam

Air

Perfect gas

Vapour

Steam

Air

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Engineering Thermodynamics
According to Clausius statement of second law of thermodynamics

Heat can be transferred for low temperature to high temperature source by using refrigeration cycle

Heat can

Heat can be transferred from low temperature to high temperature source if COP of process is more than unity

Heat can

Heat can be transferred for low temperature to high temperature source by using refrigeration cycle

Heat can

Heat can be transferred from low temperature to high temperature source if COP of process is more than unity

Heat can

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Engineering Thermodynamics

Engineering Thermodynamics All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Engineering Thermodynamics The index of compression ‘n’ tends to reach ratio of specific heats ‘y’ when

Engineering Thermodynamics The increase in entropy of a system represents

Engineering Thermodynamics One barometric pressure or 1 atmospheric pressure is equal to

Engineering Thermodynamics The state of a substance whose evaporation from its liquid state is complete, is known as

Engineering Thermodynamics According to Clausius statement of second law of thermodynamics

Engineering Thermodynamics
All perfect gases change in volume by 1/273th of its original volume at 0°C for every 1°C change in temperature, when the pressure remains constant. This statement is called

Engineering Thermodynamics
The index of compression ‘n’ tends to reach ratio of specific heats ‘y’ when

Engineering Thermodynamics
The increase in entropy of a system represents

Engineering Thermodynamics
One barometric pressure or 1 atmospheric pressure is equal to

Engineering Thermodynamics
The state of a substance whose evaporation from its liquid state is complete, is known as

Engineering Thermodynamics
According to Clausius statement of second law of thermodynamics