Pressure exerted by 12g of an ideal gas at `t^(@)C` in a vessel of volume VL is 1 atm. When the temperature is increased by `10^(@)C` at the same volume, the pressure increased by `10%`. Calculate the temperature 't' and volume V (molar mass of gas=120).

The pressure exerted by 12 g of an ideal gas at temperature t^(@)C in a vessel of volume V litre is 1 atm . When the temperature is increased by 10^(@)C at the same volume, the pressure increases by 10% . Calculate the temperature t and volume V . (Molecular weight of the gas is 120 ).

The pressure exerted by 12 g of an ideal gas at temperature t^(@)C in a vessel of volume V litre is 1 atm . When the temperature is increased by 10^(@)C at the same volume, the pressure increases by 10% . Calculate the temperature t and volume V . (Molecular weight of the gas is 120 ).

The pressure exerted by 12 g of an ideal gas at temperature t^(@)C in a vessel of volume V litre is 1 atm . When the temperature is increased by 10^(@)C at the same volume, the pressure increases by 10% . Calculate the temperature t and volume V . (Molecular weight of the gas is 120 ).

( a ) One mole of nitrogen gas at 0.8 atm takes 38 s to diffuse through a pinhole, whereas one mole of an unknown compound of xenon with fluorine at 1.6 atm takes 57 s to diffuse through the same hole. Calculate the molecular formula to the compound. ( b ) The pressure exerted by 12 g of an ideal gas at temperature t^(@)C in a vessel of volume V litre is 1 atm . When the temperature is increased by 10^(@)C at the same volume, the pressure increases by 10% . Calculate the temperature t and volume V . (Molecular weight of the gas is 120 .)

The pressure exerted by 12 g of an ideal gas at temperature t^@C in a vessel of volume V litre is one atm.when the temperature is increased by 10 degree at the same volume.the pressure increases by 10% calculate the temperature t and volume v.(molecular weight of the gas =120).