One mole of` X_(2)`is mixxed with one mole of `Y_(2)` in a flask of valume 1 litre . If at equilibrium 0.5 mole of `Y_(2)` are obtained. Then find out `K_(P)` for reaction `X_(2(g))+Y_(2(g))hArr2XY_(g)`

1 mol of of XY_(g) and 0.2 mol of Y_(g) are mixed in 1L vessel. At equilibrium 0.6 mol of Y _(g) is present .The value of K for the reaction :- XY(g) hArr X(g)+Y(g) is

One mole of N_(2) (g) is mixed with 2 moles of H_(2)(g) in a 4 litre vessel If 50% of N_(2) (g) is converted to NH_(3) (g) by the following reaction : N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) What will the value of K_(c) for the following equilibrium ? NH_(3)(g)hArr(1)/(2)N_(2)(g)+(3)/(2)H_(2)(g)

When 1 mole of H_(2(g)) is heated with one mole of I_(2(g)), it was found that 1.48 moles of HI_((g)) is formed at equilibrium. Its K_c is

One mole of nitrogen is mixed with three moles of hydrogen in a four litre container. If 0.25 per cent of nitrogen is converted to ammonia by the following reaction N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) , then calculate the equilibrium constant, K_(c) in concentration, units. What will be the value of K_(c) for the following equilibrium? 1/2 N_(2)(g)+3/2H_(2)(g)hArrNH_(3)(g)

Initially, 0.8 mole of PCl_(5) and 0.2 mol of PCl_(30 are mixed in one litre vessel. At equilibrium, 0.4 mol of PCl_(3) is present. The value of K_(c ) for the reaction PCl_(5)(g) hArr PCl_(3)(g)+Cl_(2)(g) would be

One "mole" of N_(2) is mixed with three moles of H_(2) in a 4L vessel. If 0.25% N_(2) is coverted into NH_(3) by the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) , calculate K_(c) . Also report K_(c) for 1/2 N_(2)(g)+3/2 H_(2)(g) hArr NH_(3)(g)

1 mole of 'A' 1.5 mole of 'B' and 2 mole of 'C' are taken in a vessel of volume one litre. At equilibrium concentration of C is 0.5 mole /L .Equilibrium constant for the reaction , A_((g))+B_((g) hArr C_((g)) is