Two containers, X and Y at 300K and 350K with water vapour pressures 22 mm and 40 mm respectively are connected, initially closed with a valve. If the valves opened,

Two liquids A and B with vapour pressures 400mm Hg and 600mm Hg respectively formed a binary ideal liquid mixure shown in the following diagram . (Temepature =constant) If the mole fraction of 'A' in the vapour phase is 0.5 , What is the optimum pressure , above which the vapour phase can start condensig back into liquid.

Two liquids A and B with vapour pressures 400mm Hg and 600mm Hg respectively formed a binary ideal liquid mixure shown in the following diagram . (Temepature =constant) What is true in case of the guven mixture

Two liquids A and B with vapour pressures 400mm Hg and 600mm Hg respectively formed a binary ideal liquid mixure shown in the following diagram . (Temepature =constant) Which of the following curves correctly represents the above said mixture with varied composition . (v.P=vapour pressure T_(b) =boiling point)

Two closed vessel A and B of equal volume containing air at pressure P_(1) and temperature T_(1) are connected to each other through a naroow open tube. If th temperature of one is now maintained at T_(1) and other at T_(2) (wehre T_(1) gt T_(2) ) then that what will be the final pressure ?

A sample of air contains Nitrogen, Oxygen and saturated with water vapour under a total pressure of 640 mm. If the vapour pressure of water at that temperature is 40 mm and the molecular ratio of N_(2): O_(2) is 3:1, the partial pressure of Nitrogen in the sample is

The vapour pressure of water at 20^@C is 17.54mm Hg. then the vapour pressure of the water in the apparatus shown after the piston is lowered, decreasing the volume of the gas above the liquid to one half of its initial volume (temp. constant) is

Two rigid adiabatic vessels A and B which initially, contain two gases at different temperature are connected by pipe line with value of negligible volume. The vessel 'A' contain 2 moles Ne gas (C_(p.m) = (5)/(2)R) at 300K, vessel 'B' contain 3 moles of SO_(2) gas (C_(p.m) = 4R) at 400K. The volume of A & B vessel is 4 and 6 litre respectively. The final total pressure (in atm) when value is opened and 12 Kcal heat supplied through it to vessels. [Use: R= 2 cal/mol, K and R= 0.08L. atm/mol K as per desire]