The `N_(2)O_(4)//NO_(2(g))` equilibrium is endothermic as shown below:
`underset(Colourl es)(N_(2)O_(4(g)))hArrunderset(Dark brown)(2NO_(2(g)))`, (`DeltaH=+ve`)
The equilibrium is attained in a container having movable piston by taking `1 mol e` of `N_(2)O_(4(g))` at `50^(@)C` and `1 atm` pressure. At equilibrium, relative molecular mass of the mixture is `65.7`.
The equilibrium constant for the given reaction is:

The N_(2)O_(4)//NO_(2(g)) equilibrium is endothermic as shown below: underset(Colourl es)(N_(2)O_(4(g)))hArrunderset(Dark brown)(2NO_(2(g))) , ( DeltaH=+ve ) The equilibrium is attained in a container having movable piston by taking 1 mol e of N_(2)O_(4(g)) at 50^(@)C and 1 atm pressure. At equilibrium, relative molecular mass of the mixture is 65.7 . The degree of dissociation of N_(2)O_(4) at equilibrium is:

The N_(2)O_(4)//NO_(2(g)) equilibrium is endothermic as shown below: underset(Colourl es)(N_(2)O_(4(g)))hArrunderset(Dark brown)(2NO_(2(g))) , ( DeltaH=+ve ) The equilibrium is attained in a container having movable piston by taking 1 mol e of N_(2)O_(4(g)) at 50^(@)C and 1 atm pressure. At equilibrium, relative molecular mass of the mixture is 65.7 . If pressure on the mixture is increased, such that volume of mixture becomes half of I equilibrium, then:

For the reaction N_(2)O_(4)(g)hArr2NO_(2)(g) , the degree of dissociation at equilibrium is 0.2 at 1 atm pressure. The equilibrium constant K_(p) will be

For the reaction N_(2)O_(4)(g)hArr2NO_(2)(g) , the degree of dissociation at equilibrium is 0.2 at 1 atm pressure. The equilibrium constant K_(p) will be

For the reaction N_(2)O_(4)(g) hArr 2NO_(2)(g) the degree of dissociation at equilibrium is 0.2 at 1 atmospheric pressure. The equilibrium constant K_(p) will be

If the equilibrium constant for N_2(g) + O_2(g) iff 2NO(g) is K, the equilibrium constant for 1/2N_2(g) +1/2 O_2(g) iff NO(g) will be:

If equilibrium constant for N_2(g)+O_2(g)

Density of equilibrium mixture of N_(2)O_(4) and NO_(2) at 1 atm and 384 K is 1.84 g dm^(-3) . Calculate the equilibrium constant of the reaction. N_(2)O_(4)hArr2NO_(2)