The rate of forward reaction is two times that of reverse reaction at a given temperature and identical concentration. `K_(equilibrium)` is

The equilibrium constant in a reversible reaction at given temperature

The equilibrium constant in a reversible reaction at a given temperature which

If the rate constant of forward reaction is triple of rate constant of backward reaction under identical condition at equilibrium, then K_(eq) for the reaction is

For an equilibrium reaction involving gases, the forward reaction is first order while the reverse reaction is second order. The unit of K_(p) for forward equilibrium is

Which statement characterize a chemical system at equilibrium ? (P)the rate of the forward reaction is equal to the rate of the reverse reaction (Q)The concentrations of the reactants and products are equal.

At equilibrium rate of forward reaction becomes equal to rate of backward reaction.

At equilibrium rate of forward reaction is always equal to ……….

Read the following paragraph and answer the questions given below , Stable equilibrium is of various type . Mechanical equilibrium is achieved when all particles are at rest and total potential energy of the system is minimum . At any stage where particles are at rest but the system is not at stabel equilibrium as it can reduce its potential energy by reverting to another position, is called metastable equilibrium . Thermal equilibrium is result from the absence of temperature gradients in the system. chemical equilibrium is obtained when no further reaction occurs between reacting substances, i.e forward and reverse rates of reaction are equal. when steam with solid iron at high temperature Fe_3O_4(s) and hydrogen gas are produced . But the reaction never goes to completion. this is because as the products are formed the reaction proceeds in reverse direction and when rate of reverse reaction is equal to rate of forward reaction , the concentration of reactants and products become constant and equilibrium is reached. The primary objective of the passage is