2 mole of X and 1 mole of Y are allowed to react in a 2 litre container.when equilibrium is reached, the following reaction occurs
`2X(g)+Y(g) hArr Z(g)` at 300 K.
If the moles of Z at equilibrium is 0.5 then what is equilibrium constant `K_C`?

One mole of X and Y are allowed to react in a 2L container when equilinrium is reached the following reaction occurs 2X+YhArrZ . If the concentration of Z is 0.2M calculate the equilibrium constant for this reaction

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 ?

3 moles of A and 4 moles of B are mixed together and allowed to come into equilibrium according to the following reaction. 3A(g) + 4B(g) rarr 2C(g) + 3D(g) When equilibrium is reached, there is 1 mole of C. The equilibrium constant of the reaction is

At equilibrium of the reaction 2X(g)+Y(g) hArr X_(2)Y(g) the number of moles of X_(2)Y at equilibrium is affected by the

When 3 moles of A and 1 mole of B are mixed in 1 litre vessel, the following reaction takes place A_((g)) + B_((g))hArr2C_((g)). 1.5 moles of C are formed. The equilibrium constant for the reaction 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)

n mole of PCl_(3) and n mole of Cl_(2) are allowed to react at constant temperature T to have a total equilibrium pressure P , as : PCl_(3)(g)+Cl_(2)(g) hArr PCl_(5)(g) If y mole of PCl_(5) are formed at equilibrium , find K_(p) for the given reaction .