The piston shown in the figure is moved downwards such that the vapour volume is decreased by 246.3cc. How many grams of `H_(2)O` is condensed? (Assume aqueous tension at 27°C is 360 mm Hg).

If at 27°C and 740 mm Hg pressure, 360 ml of moist N_2 was collected then the volume occupied by dry nitrogen at 370 mm Hg pressure and at same temperature will be (Aqueous tension of water at 27°C is 620 mm Hg)

A cylinder containing nitrogen gas and some liquid water at a temperature of 25^(@)C . The total pressure in the cylinder is 600 mm. The piston is moved into the cylinder till the volume is halved keeping the temperature constant. If the aqueous tension at 25^(@)C is 23.8 mm, calculate the final total pressure in the cylinder.

0.157g of a certain gas collected over water occupies a volume of 135ml at 27°C and 750mm of Hg. Assuming ideal behaviour, the molecular weight of the gas is (aqueous tension at 27°C is 26.7 mm of Hg)

Initial volume of H_(2) gas saturated with water vapour is confined under a piston in a container is 10 litres as shown in the given figure. the container also contains some liquid water. The total pressure over liquid water is 80cm of Hg . If now the piston is removed such that volume of container is doubled, then final total pressure over liqid water in the container is P . The vapour pressure of water is 20cm of Hg and volume of liquid is negligible. Calculate P//10 .........

A vessel of uniform cross-section of length 500 cm as shown in figure is divided in two parts by a weightless and frictionless piston one part contains 5 moles of He(g) and other part 2 moles of H_(2)(g) and 4 moles of O_(2)(g) added at the same temperature and pressure in which reaction takes place finally vessel cooled to 300 K and 1 atm. What is the length of He compartment? (Assume volume of piston and vol. of H_(2)O(l) formed are negligible)

A mixture of an organic liquid A and water distilled under one atmospheric pressure at 99.2^(@)C . How many grams of steam will be condensed to obtain 1.0 g of liquid A in the distillate? (Vapour pressure of water 99.2^(@)C is 739 mm Hg . Molecular weight of A=123 )

A sample of O_(2) is collected over water at 22^(@)C and 748 torr pessure. The volume of the gas collected is 82.0 cm^(3) . How many grams of oxygen are present in the gas?. The vapour pressure of water at 22^(@)C is 19.8 torr.

A cylindrical diathemic chamber fitted with movable, massless & frictionless piston. Initially piston was at rest by the stop pin P as shown in figure. Compartment (A) is filled with 60g He gas & compartment (B) is filled with 96 g of O_(2) gas ast 27^(@)C . Assume ideal behaviour of gas, then calculate ratio (L_(1))/(L_(2)) , if stop pin is suddenly removed ? \

Assuming very dilute aqueous solution of urea, calculate the vapour pressure of solution ( in mm of Hg ) of 0.1 moles of urea in 180 grams of water at 25^(@)C in ( The vapour pressure of water at 25^(@)C is 24 mm Hg )

A mixture of H_(2)O vapour, CO_(2) and N_(2) was trapped in a glass apparatus with a volume of 0.731 mL . The pressure of the total mixture was 1.74 atm at 27^(@)C . The sample was transferred to a bulb in contact with dry ice (-75^(@)C) so that the H_(2)O vapour was frozen out. When the sample was returned to the measured volume, the pressure was 1.32 mm Hg . The sample was then transferred to a bulb in contact with liquid nitrogen (-95^(@)C) to freeze out the CO_(2) . On the measured volume, the pressure was 0.53 mm Hg . How many moles of each constituent there are in the mixture?