For the equilibrium system `2HX(g) hArr H_(2)(g)+X_(2)(g)` the equilibrium constant is `1.0xx 10^(-5)`. What is the equilibrium concentration of HX if the equilibrium concentrations of `H_(2)` and `X_(2)` are `1.2xx10^(-3) M` and `1.2 xx 10^(-4) M` respectively ?

For the equilibrium system 2HX(g) hArr H_(2)(g)+X_(2)(g) the equilibrium constant is 1.0xx10^(-5) . What is the concentration of HX if the equilibrium concentration of H_(2) and X_(2) are 1.2xx10^(-3) M, and 1.2xx10^(-4) M respectively?

For the equilibrium system 2HX(g) hArr H_(2)(g)+X_(2)(g) the equilibrium constant is 1.0xx10^(-5) . What is the concentration of HX if the equilibrium concentration of H_(2) and X_(2) are 1.2xx10^(-3) M, and 1.2xx10^(-4) M respectively?

For the equilibrium system : 2HCl(g)hArr H_(2)(g)+Cl_(2)(g) the equilibrium constant is 1.0xx10^(-5) . What is the concentration of HCl if the equilibrium concentration of H_(2) and Cl_(2) are 1.2xx10^(-3) M and 1.2xx10^(-4) M respectively ?

For the reaction, 2HCl_((g))hArrH_(2(g))+Cl_(2(g)) , the equilibrium constant is 1.0xx10^(-5) . What is the concentration of HCl if the equilibrium concentrations of H_(2) and Cl_(2) are 1.2xx10^(-8)M and 1.2xx10^(-9)M respectively?

The equilibrium constants for A_2 (g) hArr 2A(g) at 400 k and 600 k are 1xx 10^(-8) and 1 xx 10^(-2) respectively . The reaction is

The equilibrium constants for A_2 (g) hArr 2A(g) at 400 k and 600 k are 1xx 10^(-8) and 1 xx 10^(-2) respectively . The reaction is

For the equilibrium 2SO_(3(g))hArrSO_(2(g))+O_(2(g)) , the value of equilibrium constant is 4.8xx10^(-3) at 700^(@)C . At equilibrium, if the concentration of SO_(3) and SO_(2) are 0.60M and 0.15M respectively. Calculate the concentration of O_(2) in the equillibrium mixture.

For the equilibrium 2SO_(3(g))hArrSO_(2(g))+O_(2(g)) , the value of equilibrium constant is 4.8xx10^(-3) at 700^(@)C . At equilibrium, if the concentration of SO_(3) and SO_(2) are 0.60M and 0.15M respectively. Calculate the concentration of O_(2) in the equillibrium mixture.