The equilibrium constant `K_(c)` for the `SO_(2(g)) + NO_(2(g)) hArr SO_(3(g)) + NO_((g))` reaction is 16. if 1 mole of each of all the four gases is taken in `ldm^(3)` vessel, the equilibrium concentration of NO would be

At certain temperature K_(c) for the reactioni. SO_(2)(g)+NO_(2)(g)hArrSO_(3)(g)+NO(g) is 16. If initiallyone mole each of all the four gases are taken in one litre vessel, what are 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)) 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 equilibrium concentration of A_(2(g)) ?

The equilibrium constant for the reaction , H_(2) (g) + CO_(2) (g) hArr H_(2) O (g) + CO (g) is 16 at 1000^(@) C . If 1.0 mole of H_(2) and 1.0 mole of CO_(2) are placed in one litre flask , the final equilibrium concentration of CO at 1000^(@) C is

The equilibrium conatant for the reaction H_(2(g)) + I_(2(g)) hArr 2HI_((g)) is 2 at a certain temperature. The equilibrium concentrations of H_(2) and HI are 2 mole . lit^(-1) . What is the equilibrium concentration (in mole lit^(-1) ) of I_(2) ?

At a given temperature, Ke is 4 for the reaction H_(2(g)) + CO_(2(g)) hArr H_(2)O_((g)) + CO_((g)) . Initially 0.6 moles each of H_(2) and CO_(2) are taken in 1lit flask. The equilibrium concentration of H_(2) O_((g)) is

The equilibrium constant ( K_c ) for the following equilibrium 2So_(2(g)) + O_(2(g)) iff 2SO_(3(g)) at 563K is 100. at equilbrium, the number of moles of SO_3 in the 10 litre flask is twice the number of moles of SO_2 , then the numbers of moles of oxygen is

In the system A_((s)) hArr 2B_((g)) + 3C_((g)) . If the concentration of C at equilibrium is increased by a factor of 2. It will casuse the equilibrium concentration of B to change to:

The equilibrium constant of the reaction, SO_(2)(g) + 1/2 O_(2)(g) hArr 2SO_(3)(g) is 5 xx 10^(-2)atm . The equilibrium constant of the reaction, 2SO_(3)(g) hArr 2SO_(2)(g) + O_(2)(g)