Oxygen gas having a volume of 1200 cm at `40.0^@ C` and `1.01 xx 10^5 ` Pa expands until its temperature is 493 k and its pressure is 1.06 x 109 Pa. Find (a) the number of moles of oxygen present and (b) the final volume of the sample.

Oxygen is filled in a closed metal jar of volume 1.0xx10^(-3)m^(3) at a pressure of 1.5xx10^(5)Pa. and temperature 400K.The jar has a small leak in it. The atmospheric pressure is 1.0xx10^(5) Pa and the atmospheric temperature is 300K. Find the mass of the gas that leaks out by time the pressure and the temperature inside the jar equlise with the surrounding.

A 3000 cm^(3) tank contains oxygen at 20^(@)C and the gauge pressure is 2.5 xx 10^(6) Pa . Find the mass of the oxygen in the tank. Take 1 atm = 10^(5) Pa .

If the temperature of a gas is increased by 1K at constant pressure its volume increase by 0.0035 of the initial volume. The temperature of the gas is

Suppose that 30 g of highly compressed air (C=0.177 cal//g. C^@) is confined to a cylinder by a piston. Its volume is 2400 cm^3 its pressure is 10xx10^5 Pa, and its temperature is 35^@C . The air is expanded adiabatically until its volume is 24,000 cm^3 . During the process, 4100 J of work is done by the air. What is its final temperature ?

The volume of a gas at 27^(@)C is 1 litre. At what temperature, will its volume be 1.5 litres if the pressure remains constant ?

A sample of gas at 20^(@)C occupies a volume of 2 L at a pressure of 0.867xx10^(5)Pa . Calculate its volume at 100 kPa atmospheric pressure.

A certain ideal gas has a temperature 300 K and a pressure 5.0 xx 10^4 Pa. The molecules have a mean free path of 4.0 xx 10^(-7) m. If the temperature is raised to 350 K and the pressure is reduced to 1.0 xx 10^4 Pa the mean free path is then

When 100J of heat is given to an ideal gas it expands from 200cm^(3) to 400cm^(3) at a constant pressure of 3 xx 10^(5) Pa . Calculate (a) the change in internal energy of the gas (b) the number of moles in the gas if the initial temperature is 400K , (c ) the molar heat capacity C_(p) at constant pressure and (d) the molar heat capacity C_(v) at constant volume. [R = (25)/(3)J//mol-K]

A gas at 27°C and pressure 30 atm is allowed to expand to 1 atm pressure and volume 15 times larger. The final temperature of the gas is

A container contains 1 mole of a gas at 1 atm pressure and 27° C, while its volume is 24.6 litres. If its pressure is 10 atm and temperature 327° C, then new volume is