Calculate the percent dissociation of `H_(2)S(g)` if `0.1 mol` of `H_(2)S` is kept in `0.4 L` vessel at `1000 K`. For the reaction:
`2H_(2)S(g) hArr 2H_(2)(g)+S_2(g)`
The value of `K_(c )` is `1.0xx10^(-6)`

Calculate the percent dissociation of H_(2)S(g) if 0.1 mol of H_(2)S is kept in 0.4 L vessel at 1000 K . For the reaction: 2H_(2)S(g) hArr 2H_(2)(g)+S(g) The value of K_(c ) is 1.0xx10^(-6)

Calculate the precentage dissociation of H_(2)S(g) if 0.1 mol of H_(2)S is kept in a 0.5 L vessel at 1000 K . The value of K_(c ) for the reaction 2H_(2)ShArr2H_(2)(g)+S_(2)(g) is 1.0xx10^(-7).

What is % dissociation of H_(2)S if 1 "mole" of H_(2)S is introduced into a 1.10 L vessel at 1000 K ? K_(c) for the reaction 2H_(2)S(g) hArr 2H_(2)(g)+S_(2)(g) is 1xx10^(-6)

What is the unit of K_(p) for the reaction ? CS_(2)(g)+4H_(2)(g)hArrCH_(4)(g)+2H_(2)S(g)

Write the equilibrium constant of the reaction C(s)+H_(2)O(g)hArrCO(g)+H_(2)(g)

The value of K_(p) for the following reaction 2H_(2)S(g)hArr2H_(2)(g) + S_(2)(g) is 1.2xx10^(-2) at 10.6.5^(@)C . The value of K_(c) for this reaction is

If 0.2 mol of H_(2)(g) and 2.0 mol of S(s) are mixed in a 1.0 L vessel at 90^(@)C , the partial pressure of H_(2)S(g) formed according to the reaction H_(2)(g)+S(s)hArr H_(2)S(g),K_(p) at 363K=6.78xx10^(-2) would be

One "mole" of N_(2) is mixed with three moles of H_(2) in a 4L vessel. If 0.25% N_(2) is coverted into NH_(3) by the reaction N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) , calculate K_(c) . Also report K_(c) for 1/2 N_(2)(g)+3/2 H_(2)(g) hArr NH_(3)(g)

H_(2)S_((g)) intially at a pressure of 10 atm anda temperature of 800K, dissociates as 2H_(2)S_((g)) hArr 2H_(2) +S_(2(g)) At equilibrium, the partial pressure of S2 vapour is 0.02 atm. Thus, K_(p) is

K_(C) " for " H_(2) (g)+ 1//2 O_(2)(g) rArr H_(2) O (l)at 500 K is 2.4 xx 10^(47), K_(p) of the reaction is .