The specific heats of a gas are 0.125 and `0.075` cal/g Calculate the atomicity and molecular weight of gas Identify the gas .

The density of a gas is 1.964 g/ dm^(-3) at 273 K and 76 cm Hg. Calculate the molecular weight of the gas.

The specific heat at constant volume and constant pressure for a gas are 0.075 and 0.125 cal/g respectively. The molecular weight and atomicity of the gas is

The specific heat of gas is found to be 0.075 calories at constant volume and its formula weight is 40. The atomicity of the gas would be

The specific heat of gas is found to be 0.075 calories at constant volume and its formula weight is 40. The atomicity of the gas would be

1.878 g of MBr_(X) when heated in a stream of HCl gas was completely converted to chloride MCl_(X) which weighted 1.0 g The specific heat of metal is 0.14 cal g^(-1) . Calculate the molecular weight of the metal bromide.

1.878 g of MBr_(X) when heated in a stream of HCl gas was comletely converted to chloride MCl_(X) which weighted 1.0 g The specific heat of metal is 0.14 cal g^(-1) . Calculate the molemular weight of the metal bromide.

1.878 g of MBr_(X) when heated in a stream of HCl gas was comletely converted to chloride MCl_(X) which weighted 1.0 g The specific heat of metal is 0.14 cal g^(-1) . Calculate the molemular weight of the metal bromide.

The specific heat at constant volume for a gas is 0.075 cal/g and at constant pressure it is 0.125 cal/g. Calculate, (i) the molecular weight of gas, (ii). Atomicity of gas.