At constant temperature in a reaction, `N_(2)+O_(2)hArr2NO` equilibrium is established after the formation of 40% NO. The value of `k_(c)` will be

A system at equlibrium is given below. N_(2)O_(4)hArr2NO_(2)(g) write any two conditions which favour the formation of NO_(2) gas .

2 mols of SO_(2) gas and 1 mol of O_(2) gas are placed in a sealed vessel and heated. The reaction proceeds at constant temperature and when equilibrium is reached, 80%^ of the SO_(2) had changed into SO_(3) . If the initial pressure in the vessel has 30 bar, the equilibrium pressure is

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. 2NO_2 harr 2NO + O_2

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. NO + 1/2O_2 harr NO_2

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. More O_2 is added to the equilibrium.

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. 4NO + 2O_2 harrr 4NO_2