The Maxwell relation derived from the differential expression for the Helmholtz free energy (dA) is

Chemical Engineering Thermodynamics
The Maxwell relation derived from the differential expression for the Helmholtz free energy (dA) is

(∂S/∂P)T = -(∂V/∂T)P

(∂T/∂V)S = -(∂P/∂S)V

(∂V/∂S)P = (∂T/∂P)S

(∂S/∂V)T = (∂P/∂T)V

(∂S/∂P)T = -(∂V/∂T)P

(∂T/∂V)S = -(∂P/∂S)V

(∂V/∂S)P = (∂T/∂P)S

(∂S/∂V)T = (∂P/∂T)V

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Chemical Engineering Thermodynamics
Free energy changes for two reaction mechanism 'X' and 'Y are respectively - 15 and - 5 units. It implies that X is

Three times slower than Y

Three times faster than Y

Faster than Y

Slower than Y

Three times slower than Y

Three times faster than Y

Faster than Y

Slower than Y

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Chemical Engineering Thermodynamics
Which is not a refrigerant?

CCl₂F₂

SO₂

C₂H₄Cl₂

NH₃

CCl₂F₂

SO₂

C₂H₄Cl₂

NH₃

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Chemical Engineering Thermodynamics
Co-efficient of performance for a reversed Carnot cycle working between temperatures T₁ and T₂ (T₁ > T₂) is

T₁/(T₁ - T₂)

T₂/(T₁ - T₂)

(T₁ - T₂)/T₁

(T₁ - T₂)/T₂

T₁/(T₁ - T₂)

T₂/(T₁ - T₂)

(T₁ - T₂)/T₁

(T₁ - T₂)/T₂

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Chemical Engineering Thermodynamics
Efficiency of a Carnot engine working between temperatures T₁ and T₂ (T₁ < T₂) is

(T₂ - T₁)/T₁

(T₁ - T₂)/T₁

(T₂ - T₁)/T₂

(T₁ - T₂)/T₂

(T₂ - T₁)/T₁

(T₁ - T₂)/T₁

(T₂ - T₁)/T₂

(T₁ - T₂)/T₂

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Chemical Engineering Thermodynamics
Entropy of the system decreases, when

A gas expands spontaneously from high pressure to low pressure

Water is converted into ice

Snow melts into water

Both B & C

A gas expands spontaneously from high pressure to low pressure

Water is converted into ice

Snow melts into water

Both B & C

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Chemical Engineering Thermodynamics

Chemical Engineering Thermodynamics The Maxwell relation derived from the differential expression for the Helmholtz free energy (dA) is

Chemical Engineering Thermodynamics Free energy changes for two reaction mechanism 'X' and 'Y are respectively - 15 and - 5 units. It implies that X is

Chemical Engineering Thermodynamics Which is not a refrigerant?

Chemical Engineering Thermodynamics Co-efficient of performance for a reversed Carnot cycle working between temperatures T₁ and T₂ (T₁ > T₂) is

Chemical Engineering Thermodynamics Efficiency of a Carnot engine working between temperatures T₁ and T₂ (T₁ < T₂) is

Chemical Engineering Thermodynamics Entropy of the system decreases, when

Chemical Engineering Thermodynamics
The Maxwell relation derived from the differential expression for the Helmholtz free energy (dA) is

Chemical Engineering Thermodynamics
Free energy changes for two reaction mechanism 'X' and 'Y are respectively - 15 and - 5 units. It implies that X is

Chemical Engineering Thermodynamics
Which is not a refrigerant?

Chemical Engineering Thermodynamics
Co-efficient of performance for a reversed Carnot cycle working between temperatures T₁ and T₂ (T₁ > T₂) is

Chemical Engineering Thermodynamics
Efficiency of a Carnot engine working between temperatures T₁ and T₂ (T₁ < T₂) is

Chemical Engineering Thermodynamics
Entropy of the system decreases, when