The critical temperatures of ammonia and carbon dioxide are 405.5K and 304.10 K respectively. On cooling, which of these gases will liquify first? Justify.

Critical temperatures of ammonia and carbon dioxide are 405.5 K and 304.1 K respectively. Which of these gases will liquify first when you start cooling from 500K to their critical temperature?

Critical temperatures of ammonia and CO_2 are 405.5K and 304K respectively. On cooling these gases from 500K, which gas will liquify first?

The critical temperature and pressure of CO_(2) gas are 304.2 K and 72.9 atm respectively. What is the radius of CO_(2) molecule assuming it to behave as vander Waal's gas

Explain the significance of critical temperature and critical pressure for CO_2 which is kept at 31.10^@C . A minimum pressure of 72.9 atm should be applied to liquify it.

.The air is a mixture of a number of gases. The major components are oxygen and.nitrogen with approximate proportion of '20 %' is to '79 %' by volume at '298 K'. The water is in equilibrium with air at a pressure of '10 ~atm'. At '298 K' if the Henry's law constants for oxygen and nitrogen at '298 K' are '3.30 xx 10^7 mm' and '6.51 xx' '10^7 mm' respectively, calculate the composition of these gases in water.

In Haber-Bosch process ammonia is manufacture by reacting H_2 and N_2 at 700 K and 200 atmosphere pressure. N_(2(g)) + 3H_(2(g)) harr 2NH_(3(g)) , DeltaH = -92 kJ The partial pressure of N_2 , H_2 and NH_3 are 2.09, 6.55 and 1.37 atm respectively. Calculate the value of K_P . And also explain the effect of increasing temperature on the value of K_P .

When enthalpy and entropy change of a reaction are -2.5 xx 10^(3) cal and 7.4 cal respectively. Predict that the reaction at 298 K is