Given the reaction` b//w` 3 gases represented `X_(2),Y_(2),Z_(2) ` to give the compound `XYZ_(g)`
`X_(2(g))+Y_(2(g))+Z_(2(g)) hArr 2_(g)`
At equilibrium `conc^(n)`
of `X_(2)=3M,Y_(2)=6M,Z_(2)`=9M
`XYZ=6M`
If the reaction take place in a sealed vessel at `527^(@)C`, then the value of `K_(C)` will be :-

Given the reaction between 3 gases represented X_(2),Y_(2),Z_(2) to give the compound XYZ_((g)) X_(2(g))+Y_(2(g))+Z_(2(g))hArr 2XYZ_((g)) At equilibrium concentration of X_(2)=3M, Y_(2)=6M, Z_(2)=9MXYZ=6M If the reaction takes place in a sealed vessel at 527^(@)C , then the value of K_(C) will be :

Given the reaction between 2 gases represented by A_(2) and B_(2) to given the compound AB(g). A_(2)(g) + B_(2)(g)hArr 2AB(g) At equilibrium, the concentrtation of A_(2) = 3.0xx10^(-3) M of B_(2) = 4.2xx10^(-3) M of AB = 2.8xx10^(-3) M If the reaction takes place in a sealed vessel at 527^(@)C . then the value of K_(c) will be

The valve of K_(c) at 900 K temp for following reaction is 5 N_(2(g))+O_(2(g)) hArr 2NO_((g)) if equilibrium conc^(n) of N_(2) and O_(2) is 0.5M then value of K_(p) is :-

The K_c for given reaction will be A_2 (g) +2B (g) hArr C(g) +2D(s)

At 527^@ C the reaction : NH_3(g) hArr 1/2 N_2(g) "has" K_c=4 What is K_p for the reaction : N_2(g)+3H_2(g) hArr 2NH_3(g) ?

At equilibrium of the reaction 2X(g)+Y(g) hArr X_(2)Y(g) the number of moles of X_(2)Y at equilibrium is affected by the