Which of the following is not an intensive property?

Chemical Engineering Thermodynamics
Which of the following is not an intensive property?

Surface tension

Chemical potential

None of these

Heat capacity

Surface tension

Chemical potential

None of these

Heat capacity

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Chemical Engineering Thermodynamics
Specific volume of an ideal gas is

The reciprocal of its density

Proportional to pressure

Equal to its density

None of these

The reciprocal of its density

Proportional to pressure

Equal to its density

None of these

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Chemical Engineering Thermodynamics
The accentric factor of a materical, 'ω', is defined as ω = -log10(Prsat)Tr⁻¹ = 0.7, where, Prsat = reduced vapor pressure, Tr = reduced temperature. The value of accentric factor is always

< 3

> 1

< 1

> 2

< 3

> 1

< 1

> 2

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Chemical Engineering Thermodynamics
Which of the following will increase the volume of a real gas by four times ?

Reducing pressure to one fourth at constant temperature

Doubling the absolute temperature as well as pressure of the gas

Reducing temperature to one fourth at constant pressure

Reducing the temperature to half and doubling the pressure

Reducing pressure to one fourth at constant temperature

Doubling the absolute temperature as well as pressure of the gas

Reducing temperature to one fourth at constant pressure

Reducing the temperature to half and doubling the pressure

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Chemical Engineering Thermodynamics
In case of vapour compression refrigeration system, elevating the evaporator temperature (keeping the condenser temperature constant) results in

Enhanced COP

No change in the value of COP

Increased or decreased COP ; depending upon the type of refrigerant

Decreased COP

Enhanced COP

No change in the value of COP

Increased or decreased COP ; depending upon the type of refrigerant

Decreased COP

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Chemical Engineering Thermodynamics
For an incompressible fluid, the __________ is a function of both pressure as well as temperature.

Enthalpy

Internal energy

Entropy

All of these

Enthalpy

Internal energy

Entropy

All of these

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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics Which of the following is not an intensive property?

Chemical Engineering Thermodynamics Specific volume of an ideal gas is

Chemical Engineering Thermodynamics The accentric factor of a materical, 'ω', is defined as ω = -log10(Prsat)Tr⁻¹ = 0.7, where, Prsat = reduced vapor pressure, Tr = reduced temperature. The value of accentric factor is always

Chemical Engineering Thermodynamics Which of the following will increase the volume of a real gas by four times ?

Chemical Engineering Thermodynamics In case of vapour compression refrigeration system, elevating the evaporator temperature (keeping the condenser temperature constant) results in

Chemical Engineering Thermodynamics For an incompressible fluid, the __________ is a function of both pressure as well as temperature.

Chemical Engineering Thermodynamics
Which of the following is not an intensive property?

Chemical Engineering Thermodynamics
Specific volume of an ideal gas is

Chemical Engineering Thermodynamics
The accentric factor of a materical, 'ω', is defined as ω = -log10(Prsat)Tr⁻¹ = 0.7, where, Prsat = reduced vapor pressure, Tr = reduced temperature. The value of accentric factor is always

Chemical Engineering Thermodynamics
Which of the following will increase the volume of a real gas by four times ?

Chemical Engineering Thermodynamics
In case of vapour compression refrigeration system, elevating the evaporator temperature (keeping the condenser temperature constant) results in

Chemical Engineering Thermodynamics
For an incompressible fluid, the __________ is a function of both pressure as well as temperature.