A jar contains a gas and a few drops of water at `TK` The pressure in the jar is `830 mm` of Hg The temperature of the jar is reduced by `1%` The vapour pressure of water at two temperatures are 300 and 25 mm of Hg Calculate the new pressure in the jar .

A jar contains a gas and a few drops of water at TK The pressure in the jar is 830 mm of Hg The temperature of the jar is reduced by 1% The vapour pressure of water at two temperatures are 30 and 25 mm og Hg Calculate the new pressure in the jar .

A jar contains a gas and a few drops of water at absolute temperture T_(1). The pressure in the jar is 830mmof mercuryand 25mmof mercury. The temperature of the jar is reduced by 1%. The saturation vapour pressures of water at the two temperatures are 30mm of murcury and 25mm of mercury. Calculate the new pressue in the jar.

The vapour pressure of water in at 20^(@)C is 12mm of Hg on a particular day the sturation vapour pressure of water at 20^(@)C is 17.5 mm of Hg Calculate relative humidity .

A barometer accelerating downwards reads 76 cm of Hg. What will be the possible air pressure inside the jar?

Two liquids A and B form an ideal solution. At 300 K, the vapour pressure of a solution containing 1 mole of A and 3 moles of B is 550 mm of Hg. At the same temperature, if one mole of B is added to this solution, the vapour pressure of the solution increases by 10 mm of Hg. Determine the vapour pressure of A and B in their pure states

The vapour pressure of water is 17.54mm Hg at 293 K. Calculate vapour pressure of 0.5 molal solution of a solute in it.

At 300 K , the vapour pressure of an ideal solution containing one mole of A and 3 mole of B is 550 mm of Hg . At the same temperature, if one mole of B is added to this solution, the vapour pressure of solution increases by 10 mm of Hg . Calculate the V.P. of A and B in their pure state.