A. TR/(T2 – TR) × (T1 – T2)/T1
B. TR/(T2 – TR) × T1/(T1 – T2)
C. TR/(T1 – TR) × (T1 – T2)/T1
D. None of these
Thermodynamics for Chemical
Thermodynamics for Chemical
A. 2
B. 0
C. 1
D. 3
A. States that n1dμ1 + n2dμ2 + ….njdμj = 0, for a system of definite composition at constant
temperature and pressure
B. Applies only to binary systems
C. Finds no application in gas-liquid equilibria involved in distillation
D. None of these
A. Molar concentration
B. Quantity (i.e. number of moles)
C. Both A. and B
D. Neither A. nor B
A. Zero
B. Positive
C. Negative
D. Indeterminate
A. Specific volume
B. Temperature
C. Mass
D. Pressure
A. Low temperature
B. High pressure
C. Both A. and B
D. Neither A. nor B
A. Extensive property
B. Intensive property
C. Force which drives the chemical system to equilibrium
D. Both B. and C
A. Path
B. Point
C. State
D. None of these
A. Carnot
B. Air
C. Absorption
D. vapour-ejection
