Calcuate the stress for one litre of perfeect gas, at a pressure of 72 cm of hg. When it is compressed isothermally to a volume of 900 cc.

One litre of a gas is maintained at pressure 72 cm of mercury. It is compressed isothermally so that its volume becomes 900 cm^3 . The values of stress and strain will be respectively

One litre of a gas, kept at a pressure of 75 cm. of mercury is compressed isothermally. If its volume becomes 750 cm^(3) , then the bulk stress is (g = 10m//s^(2), e_("mercury") = 13.6 g//c.c]

A perfect gas of volume 10 litre is compressed isothermally to a volume of 1 litre, the rms speed of the molecules will

Calculate the work done when one mole of a perfect gas is compressed adiabatically. The initial pressure and volume of the gas are 105 N//m^2 and 6 litres respectively. The final volume of the gas are 2 litre. Molar specific heat of the gas at constant volume is 3R//2 .

Calculate the work done when one mole of a perfect gas is compressed adiabatically. The initial pressure and volume of the gas are 10^5 N//m^2 and 6 litres respectively. The final volume of the gas are 2 litre. Molar specific heat of the gas at constant volume is 3R//2 .

Calculate the work done when one mole of a perfect gas is compressed adiabatically. The initial pressure and volume of the gas are 10^5 N//m^2 and 6 litres respectively. The final volume of the gas are 2 litre . Molar specific heat of the gas at constant volume is 3R//2 .

One litre of air at 76 cm of mercury is compressed to a pressure of 152 cm of mercury under isothermal conditions. What is the new volume ?

One mole of O_(2) gas having a volume equal to 22.4 litres at 0^(@)C and 1 atmospheric pressure is compressed isothermally so that its volume reduces to 11.2 litres. The work done in this process is