In the reaction ,
`A(s) +B(g) + "heat" hArr 2C(s) + 2D(g) `
at equilibrium, pressure of B is doubled to re-establish the equilibrium. The factor, by which conc. Of D is changed, is

In a system. A(s)+B(g)+ Heat rarr 2C(s)+2D(g) equilibrium is established. The pressure of B vapour is doubled to re - stablish the equilibrium. The factor by which D is changed is :

For the hypothetical reaction, 2A(s)+B(g) hArr 3C(g) What is the equilibrium expression ?

A_((s)) + B_((g)) + "heat" hArr 2C_((s)) + 2D_((g)) . At equilibrium the pressure of 'B is doubled. By what factor the concentration of 'D' should change, to reattain the equilibrium

In the system, LaCI_(3(s)) + H_(2)O(g) + heat rarr LaCIO(s) + 2HCI(g) , equililbrium is established. More water vapour is added to restablish the equilibrium. The pressure of water vapour is doubled. The factor by which pressure of HCI is changed 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 :

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 :

In the equilibrium, AB(s) rarr A(g) + B(g) , if the equilibrium concentration of A is doubled, the equilibrium concentration of B would become