In the following reaction, 3A (g)+B(g) h...

In the following reaction, `3A (g)+B(g) hArr 2C(g) +D(g)`, Initial moles of `B` is double at A . At equilibrium, moles of A and C are equal. Hence `%` dissociation is `:`

Similar Questions

Explore conceptually related problems

For the reaction A+3B hArr 2C+D initial mole of A is twice that of B . If at equilibrium moles of B and C are equal , then percent of B reacted is

A(g) + 3(g) hArr 4C(g) Initial concentration of A is equal to that of B. The equilibrium concentration of A and C are equal. K_(c) is equal to .

A+3B harr 2C+D For this hypothetical reaction, initial moles of A is twice that of B. If at equilibrium, moles of B and C are equal, the percent of B reacted is :

In the following reaction, `3A (g)+B(g) hArr 2C(g) +D(g)`, Initial moles of `B` is double at A . At equilibrium, moles of A and C are equal. Hence `%` dissociation is `:`

Similar Questions

Recommended Questions