A refrigeration cycle is the same as a __________ cycle,

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

Reversed heat engine

None of these

Turbine

Heat engine

Reversed heat engine

None of these

Turbine

Heat engine

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Chemical Engineering Thermodynamics
With increase in temperature, the internal energy of a substance

May increase or decrease; depends on the substance

Increases

Decreases

Remains unchanged

May increase or decrease; depends on the substance

Increases

Decreases

Remains unchanged

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Chemical Engineering Thermodynamics
Compressibility factor (i.e., the ratio of actual volume of gas to the volume predicted by ideal gas law) for all gases are

Same at the same reduced pressure

Same at the same reduced temperature

Both B & C

Always greater than one

Same at the same reduced pressure

Same at the same reduced temperature

Both B & C

Always greater than one

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Chemical Engineering Thermodynamics
1m³ of an ideal gas at 500 K and 1000 kPa expands reversibly to 5 times its initial volume in an insulated container. If the specific heat capacity (at constant pressure) of the gas is 21 J/mole . K, the final temperature will be

274 K

154 K

35 K

174 K

274 K

154 K

35 K

174 K

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Chemical Engineering Thermodynamics
A solute distributes itself between two non-miscible solvents in contact with each other in such a way that, at a constant temperature, the ratio of its concentrations in two layers is constant, irrespective of its total amount". This is

The distribution law

Followed from Margule's equation

None of these

A corollary of Henry's law

The distribution law

Followed from Margule's equation

None of these

A corollary of Henry's law

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Chemical Engineering Thermodynamics
In case of a close thermodynamic system, there is __________ across the boundaries.

No heat and mass transfer

No mass transfer but heat transfer

Mass and energy transfer

None of these

No heat and mass transfer

No mass transfer but heat transfer

Mass and energy transfer

None of these

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Chemical Engineering Thermodynamics

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

Chemical Engineering Thermodynamics With increase in temperature, the internal energy of a substance

Chemical Engineering Thermodynamics Compressibility factor (i.e., the ratio of actual volume of gas to the volume predicted by ideal gas law) for all gases are

Chemical Engineering Thermodynamics 1m³ of an ideal gas at 500 K and 1000 kPa expands reversibly to 5 times its initial volume in an insulated container. If the specific heat capacity (at constant pressure) of the gas is 21 J/mole . K, the final temperature will be

Chemical Engineering Thermodynamics A solute distributes itself between two non-miscible solvents in contact with each other in such a way that, at a constant temperature, the ratio of its concentrations in two layers is constant, irrespective of its total amount". This is

Chemical Engineering Thermodynamics In case of a close thermodynamic system, there is __________ across the boundaries.

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

Chemical Engineering Thermodynamics
With increase in temperature, the internal energy of a substance

Chemical Engineering Thermodynamics
Compressibility factor (i.e., the ratio of actual volume of gas to the volume predicted by ideal gas law) for all gases are

Chemical Engineering Thermodynamics
1m³ of an ideal gas at 500 K and 1000 kPa expands reversibly to 5 times its initial volume in an insulated container. If the specific heat capacity (at constant pressure) of the gas is 21 J/mole . K, the final temperature will be

Chemical Engineering Thermodynamics
A solute distributes itself between two non-miscible solvents in contact with each other in such a way that, at a constant temperature, the ratio of its concentrations in two layers is constant, irrespective of its total amount". This is

Chemical Engineering Thermodynamics
In case of a close thermodynamic system, there is __________ across the boundaries.