The equilibrium constant for the reaction `A_((g))+2B_((g)) rarr C_((g))` is ` 0.25 " dm"^(6) "mole"^(-2)`. In a volume of `5 "dm"^(3)`, what amount of A must be mixed with 4 moles of B to yield 1 mole of C at equilibrium.

The factor which changes equilibrium constant of the reaction A_(2)(g)+B_(2)(g) rarr 2AB(g) is

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 for the reaction A_(2)(g) +B_(2) hArr 2AB(g) at 373 K is 50. If one litre flask containing one mole of A_(2) is connected to a two flask containing two moles of B_(2) , how many moles of AB will be formed at 373 K?

The equilibrium constant of the reaction A_(2)(g)+B_(2)(g) hArr 2AB(g) at 100^(@)C is 50 . If a 1-L 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 ?

The equilibrium constant K_(c) for the reaction P_(4)(g)hArr 2P_(2)(g) is 1.4 at 400^(@)C. Suppose that 3 moles of P_(4)(g) and 2 moles of P_(2)(g) are mixed in 2 litre container at 400^(@)C. What is the value of reaction quotient (Q_(c)) ?

The equilibrium constant K_(c) for the reaction P_(4)(g) hArr 2P_(2)(g) is 1.4 at 400^(@)C . Suppose that 3 moles of P_(4)(g) and 2 moles of P_(2)(g) are mixed in 2 litre container at 400^(@)C . What is the value of reaction quotient (Q) ?

The equilibrium constant of the reaction A_(2)(g)+B_(2)(g)hArr2AB(g) at 100^(@)C is 50. If a one litre flask containing one mole of A_(2) is connected to a two litre flask containing two moles of B_(2) , how many moles of AB will be formed at 373 K ?