Law of corresponding states says that

Chemical Engineering Thermodynamics
Law of corresponding states says that

The surface of separation (i. e. the meniscus) between liquid and vapour phase disappears at the critical temperature

The molar heat of energy of gas at constant volume should be nearly constant (about 3 calories)

No gas can be liquified above the critical temperature, howsoever high the pressure may be

, two different gases behave similarly, if their reduced properties (i.e. P, V and T) are same

The surface of separation (i. e. the meniscus) between liquid and vapour phase disappears at the critical temperature

The molar heat of energy of gas at constant volume should be nearly constant (about 3 calories)

No gas can be liquified above the critical temperature, howsoever high the pressure may be

, two different gases behave similarly, if their reduced properties (i.e. P, V and T) are same

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Chemical Engineering Thermodynamics
Equation which relates pressure, volume and temperature of a gas is called the

None of these

Ideal gas equation

Gibbs Duhem equation

Equation of state

None of these

Ideal gas equation

Gibbs Duhem equation

Equation of state

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Chemical Engineering Thermodynamics
If atmospheric temperature and dew point are nearly equal, then the relative humidity is

Almost 100%

50%

Unpredictable

Zero

Almost 100%

50%

Unpredictable

Zero

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Chemical Engineering Thermodynamics
Co-efficient of Performance (COP) of a refrigerator is the ratio of the

Higher to lower temperature

Lower to higher temperature

Work required to refrigeration obtained

Refrigeration obtained to the work required

Higher to lower temperature

Lower to higher temperature

Work required to refrigeration obtained

Refrigeration obtained to the work required

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Chemical Engineering Thermodynamics
Requisites of a reversible process is that the

Friction in the system should be absent

None of these

System and surroundings temperature be equal

System and surroundings pressure be equal

Friction in the system should be absent

None of these

System and surroundings temperature be equal

System and surroundings pressure be equal

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Chemical Engineering Thermodynamics
__________ functions are exemplified by heat and work.

None of these

Path

State

Point

None of these

Path

State

Point

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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics Law of corresponding states says that

Chemical Engineering Thermodynamics Equation which relates pressure, volume and temperature of a gas is called the

Chemical Engineering Thermodynamics If atmospheric temperature and dew point are nearly equal, then the relative humidity is

Chemical Engineering Thermodynamics Co-efficient of Performance (COP) of a refrigerator is the ratio of the

Chemical Engineering Thermodynamics Requisites of a reversible process is that the

Chemical Engineering Thermodynamics __________ functions are exemplified by heat and work.

Chemical Engineering Thermodynamics
Law of corresponding states says that

Chemical Engineering Thermodynamics
Equation which relates pressure, volume and temperature of a gas is called the

Chemical Engineering Thermodynamics
If atmospheric temperature and dew point are nearly equal, then the relative humidity is

Chemical Engineering Thermodynamics
Co-efficient of Performance (COP) of a refrigerator is the ratio of the

Chemical Engineering Thermodynamics
Requisites of a reversible process is that the

Chemical Engineering Thermodynamics
__________ functions are exemplified by heat and work.