A. 0
B. 0
D. A function of pressure
Thermodynamics for Chemical
Thermodynamics for Chemical
A. Matter
B. Energy
C. Neither matter nor energy
D. Both matter and energy
A. Solids
B. Liquids
C. Gases
D. All (A), B. & (C)
A. μi = (∂F/∂ni)T, P, ni
B. μi = (∂A/∂ni)T, P, ni
C. μi = (∂F/∂ni)T, P
D. μi = (∂A/∂ni)T, P
A. (T2 – T1)/T2
B. (T2 – T1)/T1
C. (T1 – T2)/T2
D. (T1 – T2)/T1
A. Phase rule variables are intensive properties
B. Heat and work are both state function
C. The work done by expansion of a gas in vacuum is zero
D. CP and CV are state function
A. The distribution law
B. Followed from Margules equation
C. A corollary of Henry’s law
D. None of these
A. T
B. T and P
C. T, P and Z
D. T and Z
A. Turbine
B. Heat engine
C. Reversed heat engine
D. None of these
A. F = E – TS
B. F = H – TS
C. F = H + TS
D. F = E + TS
