If 16 g of `H_(2)` and 56 g of `N_(2)` are present in a 2 liter vessel at STP then the total number of molecules in the vessel will be

4.4 g of CO_(2) and 2.24 "litre" of H_(2) at STP are mixed in a container. The total number of molecules present in the container will be:

16gm of oxygen (O_(2)) and 3gm of hydrogen (H_(2)) are present in a vessel at 0^(@)C and 760mm of Hg pressure.Volume of the vessel is

1 gram H_(2) and 8g O_(2) were taken in a 10 liter vessel at 300 K. The partial pressure exerted by O_(2) will be

A vessel contains 14 g of H_(2) and 96g of O_(2) at STP Calculate (a) The volume of vessel (b) the pressure in the vessel when chemical reaction is induced in the vessel by passing electric spark till one of the gas is consumed The temperature brought back to 273 K Neglect the volume of water formed .

A 19.6 g of a given gaseous sample contains 2.8 g of molecules (d = 0.75 g L^(-1)) , 11.2 g of molecules (d = 3 g L^(-1)) and 5.6 g of molecules (d = 1.5 g L^(-1)) . All density measurements are made at STP . Calculate the total number of molecules (N) present in the given sample. Report your answer in 10^(23) N Assume Avogardro's number as 6 xx 10^(23) .

Three closed vessels A, B and C are at the same temperature T and contain gases which obey the Maxwellian distribution of velocities. Vessel A contains only O_(2), B only N_(2) and C a mixture of equal quantities of O_(2) and N_(2) . If the average speed of the O_(2) molecules in vessel A is V_(1) , that of the N_(2) molecules in vessel B is V_(2) , the average speed of the O_(2) molecules in vessel C is (where M is the mass of an oxygen molecules)