The equilibrium constant `(K_(c))` of the reaction `A_(2)(g) + B_(2)(g) rarr 2AB(g)` is 50. If 1 mol of `A_(2)` and 2 mol of `B_(2)` are mixed, the amount of AB at equilibrium would be

The equilibrium constant K_(p) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) changes if:

Determinre the value of equilibrium constant (K_(C)) for the reaction A_(2)(g)+B_(2)(g)hArr2AB(g) if 10 moles of A_(2) ,15 moles of B_(2) and 5 moles of AB are placed in a 2 litre vessel and allowed to come to equilibrium . The final concentration of AB is 7.5 M:

The equilibrium constant of the reaction A_(2)(g)+B_(2)(g) hArr 2AB(g) at 100^(@)C is 50 . If a 1L flask containing 1 mol of A_(2) is connected to a 2 L flask containing 2 mol of B_(2) , how many moles of AB will be formed at 373 K ?

At 448^(@)C , the equilibrium constant (K_(c)) for the reaction H_(2)(g)+I_(2)(g) hArr 2HI(g) is 50.5 . Predict the direction in which the reaction will proceed to reach equilibrium at 448^(@)C , if we start with 2.0xx10^(-2) mol of HI, 1.0xx10^(-2) mol of H_(2) and 3.0xx10^(-2) mol of I_(2) in a 2.0 L container.

At a certain temperature, equilibrium constant (K_(c)) is 16 for the reaction: SO_(2)(g)+NO_(2)(g) hArr SO_(3)(g)+NO(g) If we take 1 mol of each of the four gases in a 1L container, what would be the equilibrium concentrations of NO and NO_(2) ?

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

Calculate the equilibrium constant (K_(c)) for the reaction given below , if at equilibrium, mixture contains 5.0 mole of A_(2) ,3 mole of B_(2) and 2 mole of AB_(2) at 8.21 atm and 300K A_(2)(g)+2B_(2)(g)hArr2AB_(2)(g)+Heat

A mixture of 1.57 mol of N_(2), 1.92 mol of H_(2) and 8.13 mol of NH_(3) is introduced into a 20 L reaction vessel at 500 K . At this temperature, the equilibrium constant K_(c ) for the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) is 1.7xx10^(2) . Is the reaction mixture at equilibrium? If not, what is the direction of the net reaction?

A mixture of 1.57 mol of N_(2), 1.92 mol of H_(2) and 8.13 mol of NH_(3) is introduced into a 20 L reaction vessel at 500 K . At this temperature, the equilibrium constant K_(c ) for the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) is 1.7xx10^(2) . Is the reaction mixture at equilibrium? If not, what is the direction of the net reaction?