V moles of `N_(2)` gas at S.T.P. conditions occupy a volume of 10 litres, then the volume of '2x' moles of `CH_(4)` at 273°Cand 1.5 atm is

'X’ moles of N_2 gas at S.T.P. conditions occupy a volume of 10 litres, then the volume of ‘2x’ moles of CH_4 at 273^@C and 1.5 atm is

Calculate the volume occupied by 2 moles of NO_(2) at STP.

A sample of an ideal gas has a volume of 0.5 litres at 27^@C and 750mm pressure. The number of moles of gas are

6g of hydrogen at 1.5 atm and 273^@C occupies a volume of

If one mole of a gas A (mol.wt-40) occupies a volume of 201itres, under the same conditions of temperature and pressure the volume occupied by 2 moles of gas B (mol.wt=80) is

The volume of 10 moles of an ideal gas at 27^@C and latm pressure is 1 lit. What is the volume of 20 moles of same gas at same pressure and temperature?

A mole of any substance contains 6.023xx10^(23) particles. The particles may be atom, molecule ions, electron, proton or neutron. One mole of atom is equal to 1 gm -atom which is equal to atomic weight of atom. 1 gm molecule of any gas is 1 mole of gas whose volume is 22.4 litre at N.T.P. The volume of 3.011xx10^(23) atoms of hydrogen gas at N.T.P. is

One mole of an ideal gas expands at a constant temperature of 300 K from an initial volume of 10 litres to a final volume of 20 litres. The work done in expanding the gas is (R=8.31J/mole-K)