For `I_(2)(g) hArr 2I(g), K_(p)=1.79xx10^(-10)`. The partial pressure of `I_(2)=1.0` atm and `I=0.5xx10^(-6)` atm after `50 min`. Comment on the status of equilibrium process.

For 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g),K_(p)=3.4 . At an instant, the partial pressures of SO_(2), O_(2) and SO_(3) were found to be 0.41 atm, 0.16 atm and 0.57 atm respectively. Comment on the status of equilibrium process.

For the reaction, N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) the partial pressure of N_(2) and H_(2) are 0.80 and 0.40 atmosphere, respectively, at equilibrium. The total pressure of the system is 2.80 atm. What is K_(p) for the above reaction?

For the reaction A_(2)(g) + 2B_(2)hArr2C_(2)(g) the partial pressure of A_(2) and B_(2) at equilibrium are 0.80 atm and 0.40 atm respectively. The pressure of the system is 2.80 atm. The equilibrium constant K_(p) will be

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO is 5.0atm amd 10 atm, respectively, at equilibrium. The K_(p) of the reaction is

Consider the heterogeneous equilibrium CaCO_3(s) hArr CaO(s) +CO_2(g) k_p=4 xx 10^(-2) atm ……….(i) C(s) +CO_2(g) hArr 2CO(g) K_p=2.0 atm ………(ii) Calculate the partial pressure of CO(g) when CaCO_3 and C are mixed and allowed to attain equilibrium at the temperature for which the above two equilibria have been studied.

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO is 4.0atm amd 8.0 atm, respectively, at equilibrium. The K_(p) of the reaction is

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO both is 5.0 atm, respectively, at equilibrium. The K_(p) of the reaction is

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO is 2.0 and 4.0 atm, respectively, at equilibrium. The K_(p) of the reaction is

For the reaction, 2NO(g)+Cl_(2)(g)hArr 2NOCl(g) a reaction mixture containing NO(g) and Cl_(2)(g) at partial pressure of 0.373 atm and 0.310 atm at 300 K respectively, is taken. The total pressure of the system at equilibrium was found to be 0.544 atm at 300 K. The value of K_(C) for the reaction, 2NOCl(g)hArr 2NO(g)+Cl_(2)(g) at 300 K would be

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO both is 4.0 atm, respectively, at equilibrium. The K_(p) of the reaction is