For the reaction `2BrCl hArr Br_(2)(g) + Cl_(2)(g) K_(c)" is " 32 " at " 500 K`. If initially pure BrCl is present at a concentration of `3.30 xx 10^(-3)`, M, what is its molar concentration in the mixture at equilibrium?

Bromine monochloride, (BrCl) decomposes into bromine and chlorine and reaches the equilibrium. 2BrCl_((g))hArrBr_(2(g))+Cl_(2(g)) For which K_(c)=32 at 500 K . If initially pure BrCl is present at a concentration of 3.30xx10^(-3) mol litre^(-1) , what is its molar concentration in the mixture at equilibrium?

For the reaction: NOCl(g) hArr 2NO(g) +Cl_(2)(g), K_(c) at 427^(@)C is 3xx10^(6) L mol^(-1) . The value of K_(p) is

The equilibrium constant K_c for the reaction H_2(g)+I_2(g)hArr 2HI(g) is 54.3 at 400^@C . If the initial concentrations of H_2 , I_2 and HI are 0.00623M , 0.00414M , and 0.0224M , respectively, calculate the concentrations of these species at equilibrium.

The value of K_(c) " for the reaction , " 3 O_(2) (g) hArr 2 O_(3) (g) , "is " 2*0 xx 10^(-50) " at " 25^(@)C. " If the equilibrium concentration of " O_(2) " in air at " 25^(@)C " is " 1*6 xx 10^(-2), " What is the concentration of " O_(3) ?

At 500 K, the equilibrium costant for the reaction H_(2(g))+I_(2(g))hArr2HI_((g))" is "24.8" If "(1)/(2)mol//L of HI is present at equilibrium, what are the concentrations of H_(2)andI_(2) , assuming that we started by taking HI and reached the equilibrium at 500 K ?

The value of K_(c ) for the reaction 3O_(2)(g) hArr 2O_(3)(g) is 2.0xx10^(-50) at 25^(@)C . If the equilibrium aoncentration of O_(2) in air at 25^(@)C is 1.6xx10^(-2) , what is the concentration of O_(3) ?