Volume occupied by molecules of one mole gas at NTP, each having radius of `10^(-8)` cm is :

Number of mole of 1 m^3 gas at NTP are :

At 100^@C and 1 atm, if the density of liquid water is 1.0 g cm^(-3) , and that of water vapour is 0.0006 g cm^(-3) , then the volume occupied by water molecules in one litre of stream at that temperature is :

Calculate the number of molecules in one litre of gas at N.T.P. if mass of each molecule is 4.55xx10^(-25) kg and its R.M.S velocity at NTP is 350 m/s.

1 molar volume is the volume occupied by one mole of an ideal gas at S.T.P(1 atm pressure,0 degree celcius). Find the volume.R=8.31 J/mol/K. one litre = 10^(-3)m^3 .

The internal energy of one mole of a gas is:

What is the R.M.S. velocity of the molecules of a gas at N.T.P., if the density of gas at this temperature is 0.165 kg/m^3 ?

What is the R.M.S. velocity of the molecules of a gas at N.T.P., if the density of gas at this temperature is 0.165 kg/m^3 ?

Twenty per cent of the surface sites of a catalyst is occupied by nitrogen molecules. The density of surface sites is 6.023 xx 10^(14) g cm^(-3) . The total surface area is 1000 cm^2 . The catalyst is heated to 300 K and nitrogen is completely adsorbed into a pressure of 0.001 atm and volume of 2.46 cmo. Calculate the number of sites occupied by nitrogen molecules.

The mean free path of the molecules of a gas in a chamber at 30^@ is 2.6 xx10^(-5) m assuming that the collision diameter is 0.26 xx10^(-9) m calculate the pressure of gas and the no per unit volume of gas

Calculate the volume of oxygen at NTP will react with 1.0 g of calcium