Thermodynamics for Chemical

A. Temperature
B. Pressure
C. Composition
D. All (A), B. and (C)

A. Isometric
B. Polytropic
C. Isentropic
D. Isobaric

A. Contracts
B. Expands
C. Has same volume
D. May contract or expand

A. Less
B. More
C. Same
D. More or less depending upon the extent of work done

A. Isothermal
B. Adiabatic
C. Both A. & B
D. Neither A. nor B

A. Virial co-efficients are universal constants
B. Virial co-efficients ‘B’ represents three body interactions
C. Virial co-efficients are function of temperature only
D. For some gases, Virial equations and ideal gas equations are the same

A. 0
B. 1
C. y = 1.44
D. 1.66

A. Air cycle
B. Carnot cycle
C. Ordinary vapor compression cycle
D. Vapor compression with a reversible expansion engine

A. Oxygen
B. Nitrogen
C. Air
D. Hydrogen

A. Latent heat of vaporisation
B. Chemical potential
C. Molal boiling point
D. Heat capacity