When a person breaths, his lungs can hold up to 5.5 Litre of air at body temperature `37^(@)C` and atmospheric pressure `("1 atm = 101 kPa")`. This Air contains `21%` oxygen. Calculate the number of oxygen molecules in the lungs.

(i) Find the adiabatic exponent gamma for mixture of mu_1 moles of monoatomic gas and mu_2 moles of a diatomic gas at normal temperature. (ii) An oxygen molecule is travelling in air at 300 K and 1 atm , and the diameter of oxygen molecule is 1.2xx10^(-10) m . Calculate the mean free path of oxygen molecule.

Air is pumped into an automobile tyre's tube up to pressure pf 200kPa in the morning when the air temperature is 20^(@)C. During the day the temperature rises to 40^(@)C and the tube expand by 2%. Calculate the pressure of the air in the tube at this temperature.

2.00 mole of a monatomic ideal gas (U=1.5nRT) is enclosed in an adiabatic, fixed , vertical cylinder fitted with a smooth, light adiabatic piston. The piston is connected to a vertical spring of spring constant 200 N m^(-1) as shown in .the area of cross section of the cylinder is 20.0 cm^(2) . initially, the spring is at its natural length and the temperature of the gas is 300K at its natural length. the atmosphere pressure is 100 kPa. the gas is heated slowly for some time by means of an electric heater so as to move the position up through 10 cm. find (a) the work done by the gas (b) the final temperature of the gas and (c ) the heat supplied by the heater.

The Henry's Law constant for oxygen dissolved in water is 4.34 xx 10 ^(4)atm ( mol /L) at 25^(@) C . If the partial pressure of oxygen in air is 0.2 atm under ordinary atmospheric condition calculate the concentration (in mol/litre ) of dissolved oxygen in water equilibrium with air at 25^(@) C

A tank contains a mixture of 52.5g of oxygen and 65.1 g of CO_(2) at 300 K the total pressure in the tanks is 9.21 atm. Calculate the partial pressure (in atm). Of each gas in the mixture.