The active mass of `64 g` of `HI` in a `2-L` flask would be

Calculate the active mass of 10 g hydrogen in a 10 - L vessel.

The value of K_(c) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) is 64 at 773K . If one "mole" of H_(2) , one mole of I_(2) , and three moles of HI are taken in a 1 L flask, find the concentrations of I_(2) and HI at equilibrium at 773 K .

Two flask X and Y have volume 1 L and 2 L respectively and each of them contain 1mole of same ideal gas. The temperature of the flask are so adjusted that average speed of molecules in X is twice as those in Y. The pressure in flask X would be:

The active mass of 7.0 g of nitrogen in a 2.0 L container would be

The molar concentration of 64 g of SO_(2) in a four litre flask would be

Active mass of 56g of N_2 contained in 2 ltr. flask is

Two flasks X and Y have capacity 1 L and 2 L respectively and each of them contains 1 mole of a gas. The temperature of the flasks are so adjusted that average speed of molecules in X is twice as those in Y. The pressure in flask X would be