Assertion : The additions of an inert gas at constant volume to a system at equilibrium does not affect the state of equilibrium
Reason: The inert gas does not react with any of the reactants or products.

By adding inert gas at a constant volume, which of the following equilibrium will not be affected?

Addition of inert gas to system at equilibrium changes only K_(p) not K_(c) .

In which of the following reactions, increase in the pressure at constant temperature does not affect the moles at equilibrium?

Addition of inert gas to system N_(2)(g) + 3H_(2)(g) at equillibrium at constant volume. Then

Assertion : The equilibrium constant for the reverse reaction is equal to the inverse of the equilibrium constant for the forward reaction . Reason : The value of equilibrium constant is independent of initial concentrations of the reactants and products.

Addition of inert gas at constant pressure in equlibrium 2SO_2(g)+O_2(g) hArr 2SO_3(g) , will

Introduction of inert gas (at the same temperature) will affect the equilibrium if :

What will happen if an inert gas is added at constant volume to the system 2Hl (g) hArr (g) + I_2 (g) ?

In which of following reactions, increase in the volume at constant temperature does not affect the number of moles of at equilibrium?

Assertion (A) : Adding inert gas to dissociation equilibrium of N_(2)O_(4) at constant pressure and temperature increases the dissociation. Reason (R) : molar concentration of the reactants and products decreases.