If the pressure of a given mass of gas is reduced to half and temperature is doubled simultaneously, the volume will be
(1) Same as before
(2) Twice as before
(3) Four time as before
(4) One fourth as before
The critical volume of a gas is . The radius of the molecule will be , in cm
1.
2.
3.
4.
32 gm of oxygen and 3 gm of hydrogen are mixed and kept in a vessel to 760 mm pressure and 0ºC. The total volume occupied by the mixture will be nearly
(1) 22.4 lit.
(2) 33.6 lit
(3) 56 lit
(4) 44.8 lit
A closed vessel contains equal number of nitrogen and oxygen molecules at pressure of P mm. If nitrogen is removed from the system, then the pressure will be
(1)
(2)
(3)
(4)
Two vessels of capacities 3 litres and 4 litres are separately filled with a gas. The pressures are respectively 202 kPa and 101 kPa. The two vessels are connected. The gas pressure will be now, at constant temperature.
(1) 151.5 kPa
(2) 144 kPa
(3) 303 kPa
(4) 175 kPa
2 gms of hydrogen diffuses from a container in 10 minutes. How many gms of oxygen would diffuse through the same time under similar conditions?
1. 0.5 gm
2. 4 gm
3. 6 gm
4. 8 gm
The temperature of a sample of gas is raised from 127ºC to 527ºC. The average kinetic energy of the gas
(1) Does not changes
(2) Is doubled
(3) Is halved
(4) Cannot be calculated
A helium atom is two times heavier than a hydrogen molecule at 298 K, the average kinetic energy of helium is
(1) Two times that of hydrogen molecules
(2) Same as that of hydrogen molecules
(3) Four times that of hydrogen molecules
(4) Half that of hydrogen molecules
Two flasks A and B of equal volume containing and HCl gases, are connected by a narrow tube of negligible volume. The two gases were prevented from mixing by stopper fitted in connecting tube. For further detail of experiment refer to the given figure. What will be final pressure in each flask when passage connecting two tubes are opened. Assume ideal gas behaviour of and gas and the reaction.
(1) 40 mm Hg
(2) 60 mm Hg
(3) 20 mm Hg
(4) 10 mm Hg
The ratio of average molecular kinetic energy of to that of , both at 300 K is
(1) 1 : 1
(2) 7 : 2
(3) 176 : 1
(4) 2 : 7