In the following reaction started only w...

In the following reaction started only with `A_(B), 2A_(B)(g) hArr3A_(2)(g)+A_(4)(g)` mole fraction of `A_(2)` is found to `0.36` at a total pressure of `100 atm` at equilibrium. The mole fraction of `A_(B)(g)` at equlibrium is `:`

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In the following reaction started only with A_(B), 2A_(B)(g) hArr3A_(2)(g)+A_(4)(g) mole fraction of A_(2) is found to 0.36 at a total pressure of 100 atm at equilibrium. The mole fraction of A_(8)(g) at equlibrium is :

In the following reaction started only with A_(8), 2A_(8)(g) hArr3A_(2)(g)+A_(4)(g) mole fraction of A_(2) is found to 0.36 at a total pressure of 100 atm at equilibrium. The mole fraction of A_(8)(g) at equlibrium is :

In a reaction A_(2)(g)+4B_(2)(g) hArr 2AB_(4)(g), DeltaH lt 0 . The formation of AB_(4) is not favoured by

For the reaction A_((g)) hArr B_((g)) + C_((g))

The gascous reaction A_((g)) + B_((g)) hArr 2C_((g)) + D_((g)) + q kJ is most favoured at :

The gaseous reaction A_((g)) + B_((g)) hArr 2C_((g)) + D_((g)) + q kJ is most favoured at :

8 mol of gas AB_(3) are introduced into a 1.0 dm^(3) vessel. It dissociates as 2AB_(3)(g) hArr A_(2)(g)+3B_(2)(g) At equilibrium, 2 mol of A_(2) is found to be present. The equilibrium constant for the reaction is

In the following reaction started only with `A_(B), 2A_(B)(g) hArr3A_(2)(g)+A_(4)(g)` mole fraction of `A_(2)` is found to `0.36` at a total pressure of `100 atm` at equilibrium. The mole fraction of `A_(B)(g)` at equlibrium is `:`

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