A refrigeration cycle is the same as a __________ cycle,

Chemical Engineering Thermodynamics
A refrigeration cycle is the same as a __________ cycle,

Heat engine

None of these

Turbine

Reversed heat engine

Heat engine

None of these

Turbine

Reversed heat engine

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Chemical Engineering Thermodynamics
Gibbs free energy per mole for a pure substance is equal to the

Latent heat of vaporisation

Molal boiling point

Heat capacity

Chemical potential

Latent heat of vaporisation

Molal boiling point

Heat capacity

Chemical potential

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Chemical Engineering Thermodynamics
In a reversible chemical reaction (where, Δx = number of moles of products-number of moles of reactants )

All of these

Addition of inert gas has no effect on the equilibrium constant at constant volume for any value of Δx (+ ve, - ve) or zero)

Pressure has no effect on equilibrium, when Δn = 0

Addition of inert gas favours the forward reaction, when Δx is positive

All of these

Addition of inert gas has no effect on the equilibrium constant at constant volume for any value of Δx (+ ve, - ve) or zero)

Pressure has no effect on equilibrium, when Δn = 0

Addition of inert gas favours the forward reaction, when Δx is positive

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Chemical Engineering Thermodynamics
Activity co-efficient is a measure of the

None of these

Departure from ideal solution behaviour

Departure of gas phase from idea] gas law

Vapour pressure of liquid

None of these

Departure from ideal solution behaviour

Departure of gas phase from idea] gas law

Vapour pressure of liquid

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Chemical Engineering Thermodynamics
With increase in compression ratio, the efficiency of the otto engine

Decreases

Increases

Increases linearly

Remains constant

Decreases

Increases

Increases linearly

Remains constant

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Chemical Engineering Thermodynamics
The expression, nRT In P₁/P₂ , is for the____of an ideal gas.

Work done under isothermal condition

Co-efficient of thermal expansion

Work done under adiabatic contition

Compressibility

Work done under isothermal condition

Co-efficient of thermal expansion

Work done under adiabatic contition

Compressibility

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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics A refrigeration cycle is the same as a __________ cycle,

Chemical Engineering Thermodynamics Gibbs free energy per mole for a pure substance is equal to the

Chemical Engineering Thermodynamics In a reversible chemical reaction (where, Δx = number of moles of products-number of moles of reactants )

Chemical Engineering Thermodynamics Activity co-efficient is a measure of the

Chemical Engineering Thermodynamics With increase in compression ratio, the efficiency of the otto engine

Chemical Engineering Thermodynamics The expression, nRT In P₁/P₂ , is for the____of an ideal gas.

Chemical Engineering Thermodynamics
A refrigeration cycle is the same as a __________ cycle,

Chemical Engineering Thermodynamics
Gibbs free energy per mole for a pure substance is equal to the

Chemical Engineering Thermodynamics
In a reversible chemical reaction (where, Δx = number of moles of products-number of moles of reactants )

Chemical Engineering Thermodynamics
Activity co-efficient is a measure of the

Chemical Engineering Thermodynamics
With increase in compression ratio, the efficiency of the otto engine

Chemical Engineering Thermodynamics
The expression, nRT In P₁/P₂ , is for the____of an ideal gas.