`AB_(3)(g)`is dissociates as `AB_(3)(g)hArrAB_(@)(g)+(1)/(2)B_(@)(g)`
When the initial pressure of `AB_(3)` is800 torr and the pressure developed at equilibrium is 900 torr , what fraction of AB_(3)(g)` is dissociated?

For the dissociation reaction N_(2)O_($) (g)hArr 2NO_(2)(g) , the degree of dissociation (alpha) interms of K_(p) and total equilibrium pressure P is:

NH_(4)HS(s)hArrNH_(3)(g)+H_(2)S(g) The equilibrium pressure at 25^(@)C is 0.660 atm . What is K_(p) for the reaction?

What is the effect of increasing pressure on the equilibrium ? 2SO_(2) (g) + O_(2)(g) hArr 2SO_(3)(g)

COCl_(2) gas dissociates according to the equation, COCl_(2)hArrCO(g)+Cl_(2)(g) . When heated to 700 K the density of the gas mixture at 1.16 atm and at equilibrium is 1.16 g//litre The degree of dissociation of COCl_(2) at 700K is :

At certain temperature compound AB_(2)(g) dissociates accoring to the reacation 2AB_(2)(g) hArr2AB (g)+B_(2)(g) With degree of dissociation alpha Which is small compared with unity, the expression of K_(p) in terms of alpha and initial pressure P is :

In the equilibrium 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) , the partial pressure of SO_(2),O_(2) and SO_(3) are 0.662,0.10 and 0.331 atm respectively . What should be the partial pressure of Oxygen so that the equilibrium concentrations of SO_(3) are equal ?

Calculate partial pressure of B at equilibrium in the following equilibrium A(s) iff B(g) +2C(g), " " K_(P)=32 atm^(3) .

Using Le-Chatelier's principle predict the effect of increasing the pressure on following equilibrium : N_(2)(g) + 3H_(2)(g) hArr 2NH_(3)(g) + Heat

Determinre the value of equilibrium constant (K_(C)) for the reaction A_(2)(g)+B_(2)(g)hArr2AB(g) if 10 moles of A_(2) ,15 moles of B_(2) and 5 moles of AB are placed in a 2 litre vessel and allowed to come to equilibrium . The final concentration of AB is 7.5 M:

For the reaction N_(2)(g) + 3H_(2)(g) hArr 2NH_(3)(g) , what is the effect of the temperature and pressure to get more yield of ammonia ?