The density of a gas at STP is 1.5 g/L. Its molecular weight is

The density of a gas is 2.5g/L at 127^@C and 1 atm. The molecular weight of the gas is

At 273°C and 380 torr pressure, the density of a gas is 1.25 kg//^(3) . So its density at STP in g// is

Two vessels separately contain two ideal gases A and B at the same temperature, the pressure of A being twice that of B. Under such conditions, the density of A is found to be 1.5 times the density of B. The ratio of molecular weight of A and B is

The ratio C_(P)/C_(V)=gamma for a gas. Its molecular weight is M. Its specific heat capacity at constant pressure is

The ratio (C_(p))/(C_(v)) for a gas. Its molecular weight is M. Its specific heat capacity at constant pressure is

A closed copper vessel contains water equal to half of its volume. When the temperature of the vessel is raised to 447°C, the pressure of the steam in the vessel is (treat stream as an ideal gas, R=8310 "JK"^(-1)//kg mole, density of water = 1000 "kgm"^(-5) molecular weight of water = 18 )

A closed copper vessel contains water equal to half of its volume. When the temperature of the vessel is raised to 447°C, the pressure of the steam in the vessel is (treat stream as an ideal gas, R=8310 "JK"^(-1)//kg mole, density of water = 1000 "kgm"^(-5) molecular weight of water = 18 )