In a gaseous system `A(g) +B(g) hArr C(g)` contained in a one litre flask, 1mole of an inert gas in pumped. Will there be any effect on the equilibria ?

The equilibrium A(g) +4B(g) hArr AB_4(g) is attained by mixing equal moles of A and B in a one litre vessel Then at equilibrium

X_2(g)+Y_2(g) hArr 2XY(g) reaction was studied at a certain temperature.In the beginning, 1 mole of X_2 was taken in a one litre flask and 2 moles of Y_2 was taken in another 2 litre flask and both these containers are connected so that equilibrium can e established.What s the equilibrium concentration of X_2 and Y_2 ? Given Equilibrium concentration of [XY]=0.6 moles/litre.

When 3.00 mole of A and 1.00 mole of B are mixed in a 1,00 litre vessel , the following reaction takes place A(g) +B(g) hArr 2C(g) the equilibrium mixture contains 0.5 mole of C. What is the value of equilibrium constant for the reaction ?

2.802 g of N_(2) gas is kept in one litre flask at 0^(@)C . Calculate the pressure exerted by the gas.

At a certain temperature , the equilibrium constant (K_(c)) is 4//9 for the reaction : CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) If we take 10 mole of each of the four gases in a one - litre container, what would be the equilibrium mole percent of H_(2)(g) ?

At a certain temperature the equilibrium constant K_(c) is 0.25 for the reaction A_(2)(g)+B_(2)(g) hArr C_(2)(g)+D_(2)(g) If we take 1 mole of each of the four gases in a 10 litre container, what would be equlibrium concentration of A_(2)(g) ?

For the reaction A_((s)) + 2B_((g)) ƒhArr 3C_((g)) . At constant pressure on addition of inert gas, the equilibrium state

A(g)+2B(s) hArr 2C(g) Initially 2 mole A (g), 4 mole of B(s) and 1 mole of an inert gas are present in a closed container. After equilibrium has established, total pressure of container becomes 9 atm.If A(g) is 50% consumed at equilibrium, then , calculate K_p for the :