Clayperon equation deals with the

Chemical Engineering Thermodynamics
Clayperon equation deals with the

Rate of change of vapour pressure with temperature

Effect of an inert gas on vapour pressure

Temperature dependence of heat of phase transition

Calculation of ΔF for spontaneous phase change

Rate of change of vapour pressure with temperature

Effect of an inert gas on vapour pressure

Temperature dependence of heat of phase transition

Calculation of ΔF for spontaneous phase change

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Chemical Engineering Thermodynamics
The intensive properties are

Refractive index and surface tension

Both A and B

None of these

Molar volume, density, viscosity and boiling point

Refractive index and surface tension

Both A and B

None of these

Molar volume, density, viscosity and boiling point

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Chemical Engineering Thermodynamics
The value of Cp & Cv respectively for monoatomic gases in Kcal/kg Mole . °K are

5 & 3

0.66 & 1.987

1.987 & 0.66

3.987 & 1.987

5 & 3

0.66 & 1.987

1.987 & 0.66

3.987 & 1.987

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Chemical Engineering Thermodynamics
Translational kinetic energy of molecules of an ideal gas is proportional to (where, T = absolute temperature of the gas )

√T

1/√T

T

T²

√T

1/√T

T

T²

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Chemical Engineering Thermodynamics
The equation, PV = nRT, is best obeyed by gases at

Low pressure & high temperature

High pressure & low temperature

Low pressure & low temperature

None of these

Low pressure & high temperature

High pressure & low temperature

Low pressure & low temperature

None of these

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Chemical Engineering Thermodynamics
A refrigeration cycle is a reversed heat engine. Which of the following has the maximum value of the co-efficient of performance (COP) for a given refrigeration effect?

Carnot refrigeration cycle

Vapor compression cycle using expansion engine

Air refrigeration cycle

Vapor compression cycle using expansion valve

Carnot refrigeration cycle

Vapor compression cycle using expansion engine

Air refrigeration cycle

Vapor compression cycle using expansion valve

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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics Clayperon equation deals with the

Chemical Engineering Thermodynamics The intensive properties are

Chemical Engineering Thermodynamics The value of Cp & Cv respectively for monoatomic gases in Kcal/kg Mole . °K are

Chemical Engineering Thermodynamics Translational kinetic energy of molecules of an ideal gas is proportional to (where, T = absolute temperature of the gas )

Chemical Engineering Thermodynamics The equation, PV = nRT, is best obeyed by gases at

Chemical Engineering Thermodynamics A refrigeration cycle is a reversed heat engine. Which of the following has the maximum value of the co-efficient of performance (COP) for a given refrigeration effect?

Chemical Engineering Thermodynamics
Clayperon equation deals with the

Chemical Engineering Thermodynamics
The intensive properties are

Chemical Engineering Thermodynamics
The value of Cp & Cv respectively for monoatomic gases in Kcal/kg Mole . °K are

Chemical Engineering Thermodynamics
Translational kinetic energy of molecules of an ideal gas is proportional to (where, T = absolute temperature of the gas )

Chemical Engineering Thermodynamics
The equation, PV = nRT, is best obeyed by gases at

Chemical Engineering Thermodynamics
A refrigeration cycle is a reversed heat engine. Which of the following has the maximum value of the co-efficient of performance (COP) for a given refrigeration effect?