Density of ideal gas at 2 atm and 600K is 2g/L. Calculate relative density of this with respect to Ne(g) under similar conditions : (given : `R=1/12 atm L/mol.K`)

Density of ideal gas at 2.46 atm and 300 K is 0.8 g//L Hence g-molar mass of gas is : [R = 0.082 "L-atm/mol-K"]

The density of a gas at 1.5 atm is 1.52 g L^(-1) . Calculate the rms speed of the molecules of the gas.

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

The density of a gas is 2g/L at 1 atm and 27^@C . The density of the same gas at 2 atm and 127^@C is

Density of an ideal gas at 298K and 1.0atm is found to be 1.25kgm^(-3) .Density of the gas at 1.5 atm and at 298K is :

PCl_(5) vapour decomposes on heating according to the reaction : PCl_5 (g) hArr PCl_(3) (g) + Cl_(2)(g) The density of a sample of a partially dissociated PCl_(5) at 1.0 atm and 500 K was found 4.8 g/L . Calculate the degree of dissociation and DeltaG^(@) for the reaction at 500 K (Given R=0.082 L atm K^(-1)mol^(-1) ) , R=8.314 JK^(-1) mol^(-1) , In x=2.3031 log_(10)x )

The density of gas was found to be 2.92 g L^(-1) at 27° C and 2.0 atm . Calculate the molar mass of the gas.