An evacuated vessel weighs 50 g when empty, 144 g when filled with a liquid of density 0.47 g `mL^(-1)` and 50.5 g when filled with an ideal gas at 760 mm Hg at 300 K. The molar mass of the ideal gas is (Given R=0.082 L atm `K^(-1)mol^(-1)`)

An evacuated glass vessel weighs 50 g when empty, 144.0 g when filled with a liquid of density 0.47 gmLand 50.5 g when filled with an ideal gas at 760 mm Hg at 300 K. The molar mass of the ideal gas is ( Given R = 0.0821 L atm k^(-1) mol^(-1)

An evacuated glass vessel weighs 50g when empty, 148.0 g when filled with a liquid of density 0.98gml^(-1) and 50.5g when filled with an ideal gas at 760mm Hg at 300K . The molar mass of the ideal gas is ( Given R = 0.0821 L atm K^(-1) mol^(-1) )

An evacuated glass vessel weighs 50g when empty, 144 g when filled with liquid of density 0.47gmL^(-1) and 50.5 g when filled with an ideal gas at 760 mm Hg at 300 K. The molar mass of idea! gas is ? (R=00.0821Latm.K^(-1)mol^(-1)

An evacuated vessel weighs 50.0g when empty, 148g when filled with a liquid (d=0.98 g*mL^(-1) ) and 50.5g when filled with an ideal gas at 760 mm Hg at 300K. Determine molar mass of the gas.

An evacuated glass vessel weighs 50.0 g when empty, 148.0 g when filled with a liquid of density 0.98 g mL^(-1) , and 50.5 g when filled with an ideal gas at 760 mm Hg at 300 K . Determine the molar mass of the gas.

An evacuated glass vessel weighs 50.0 g when empty, 148.0 g when filled with a liquid of density 0.98 g mL^(-1) , and 50.5 g when filled with an ideal gas at 760 mm Hg at 300 K . Determine the molar mass of the gas.

An evacuated glass vessel weighs 50.0 g when empty, 148.0 g when filled with a liquid of density 0.98 g mL^(-1) , and 50.5 g when filled with an ideal gas at 760 mm Hg at 300 K . Determine the molar mass of the gas.

An evacuated vessel weighs 50.0g when empty, 148g when filled with a liquid (d=0.98 g*mL^(-1) ) & 50.5g when filled with an ideal gas at 760 mm Hg at 300K. Determine molar mass of the gas.