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

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

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

, 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

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

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

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

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Chemical Engineering Thermodynamics
For a constant volume process

dE = CvdT

dW = pdV

dE = CpdT

dQ = dE + pdV

dE = CvdT

dW = pdV

dE = CpdT

dQ = dE + pdV

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Chemical Engineering Thermodynamics
The free energy change for a chemical reaction is given by (where, K = equilibrium constant)

RT lnK

T lnK

-RT lnK

-R lnK

RT lnK

T lnK

-RT lnK

-R lnK

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Chemical Engineering Thermodynamics
Gibbs free energy at constant pressure and temperature under equilibrium conditions is

Maximum

∞

Minimum

Maximum

∞

Minimum

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Chemical Engineering Thermodynamics
A cylinder contains 640 gm of liquid oxygen. The volume occupied (in litres) by the oxygen, when it is released and brought to standard conditions (0°C, 760 mm Hg) will be __________ litres.

22.4

Data insufficient; can't be computed

448

224

22.4

Data insufficient; can't be computed

448

224

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Chemical Engineering Thermodynamics
During adiabatic expansion of gas

Temperature remains constant

None of these

Pressure is increased

Pressure remains constant

Temperature remains constant

None of these

Pressure is increased

Pressure remains constant

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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics Law of corresponding states says that

Chemical Engineering Thermodynamics For a constant volume process

Chemical Engineering Thermodynamics The free energy change for a chemical reaction is given by (where, K = equilibrium constant)

Chemical Engineering Thermodynamics Gibbs free energy at constant pressure and temperature under equilibrium conditions is

Chemical Engineering Thermodynamics A cylinder contains 640 gm of liquid oxygen. The volume occupied (in litres) by the oxygen, when it is released and brought to standard conditions (0°C, 760 mm Hg) will be __________ litres.

Chemical Engineering Thermodynamics During adiabatic expansion of gas

Chemical Engineering Thermodynamics
Law of corresponding states says that

Chemical Engineering Thermodynamics
For a constant volume process

Chemical Engineering Thermodynamics
The free energy change for a chemical reaction is given by (where, K = equilibrium constant)

Chemical Engineering Thermodynamics
Gibbs free energy at constant pressure and temperature under equilibrium conditions is

Chemical Engineering Thermodynamics
A cylinder contains 640 gm of liquid oxygen. The volume occupied (in litres) by the oxygen, when it is released and brought to standard conditions (0°C, 760 mm Hg) will be __________ litres.

Chemical Engineering Thermodynamics
During adiabatic expansion of gas