One g-atom of cadmium (Cd) vapor is condensed
reversibly to liquid Cd at 1038 K and 1 atmosphere
(constant) pressure. The heat of vaporization of Cd
is 100,000 J.g-atom 1. Assuming that the Cd vapour
behaves like an ideal gas, calculate W, 9, AE,
AH, AS, AA, and AG for the condensation
process. Neglect the volume occupied by the liquid
Cd. (R = 0.082 lit.atm. mol!. K1 and 1 lit.atm. =
101.3 J).
Answers
One g-atom of cadmium (Cd) vapor is condensed
reversibly to liquid Cd at 1038 K and 1 atmosphere
(constant) pressure. The heat of vaporization of Cd
is 100,000 J.g-atom 1. Assuming that the Cd vapour
behaves like an ideal gas, calculate W, 9, AE,
AH, AS, AA, and AG for the condensation
process. Neglect the volume occupied by the liquid
Cd. (R = 0.082 lit.atm. mol!. K1 and 1 lit.atm. =
101.3 J).One g-atom of cadmium (Cd) vapor is condensed
reversibly to liquid Cd at 1038 K and 1 atmosphere
(constant) pressure. The heat of vaporization of Cd
is 100,000 J.g-atom 1. Assuming that the Cd vapour
behaves like an ideal gas, calculate W, 9, AE,
AH, AS, AA, and AG for the condensation
process. Neglect the volume occupied by the liquid
Cd. (R = 0.082 lit.atm. mol!. K1 and 1 lit.atm. =
101.3 J).One g-atom of cadmium (Cd) vapor is condensed
reversibly to liquid Cd at 1038 K and 1 atmosphere
(constant) pressure. The heat of vaporization of Cd
is 100,000 J.g-atom 1. Assuming that the Cd vapour
behaves like an ideal gas, calculate W, 9, AE,
AH, AS, AA, and AG for the condensation
process. Neglect the volume occupied by the liquid
Cd. (R = 0.082 lit.atm. mol!. K1 and 1 lit.atm. =
101.3 J).