At `20^(@)C,0.258mol" "A(g) and 0.592` mol B(g) are mixed in a closed vessel of 5L capacity to conduct the following reaction: `A(g)+2B(g)hArr C(g)`. If 0.035 mol C(g) remains in the equilibrium mixture, then determine the partial pressure of each constituent at equilibrium.

Consider the reaction, A(g)+2B(g)hArr 2D(g)+3E(g)+ heat and state how the following changes at equilibrium will affect the yield of the product. D(g)- pressure is increased at constant temperature.

B(g)+C(g)hArrA(g) . At constant temperature, mixture of 1 mol A(g), 2 mol B(g) and 3 mol C(g) are left to stand in a closed vessel of 1 L capacity. The equilibrium mixture is found to contain B(g) of 0.175 molar concentrations (mol*L^(-1)) . Find the value of equilibrium constant at that temperature.

In a closed vessel of 1 dm^(3) capacity, 1 mol N_(2)(g) and 2 mol H_(2)(g) interact to produce 0.8 mol NH_(3)(g) in the equilibrium mixture. What is the concentration of H_(2)(g) in the equilibrium mixture?

At 986^(@)C , 3 mol of H_(2)O(g) and 1 mol of CO(g) react with each other according to the reaction, CO(g)+H_(2)O(g)hArr CO_(2)(g)+H_(2)(g) . At equilibrium, the total pressure of the reaction mixture is found to be 2.0 atm. If K_(c)=0.63 (at 986^(@)C ), then at equilibrium find (1) the number of moles of H_(2)(g) , (2) the partial pressure of each of the gases.

At 400^(@)C,H_(2)(g) and I_(2)(g) are allowed to react in a closed vessel of 5 L capacity to produce H(g). At equilibrium, the mixture in the flask is found to consist of 0.6 mol H_(2)(g),0.6" mol "I_(2)(g) annd 3.5 mol HI(g) . Determine the value of K_(c) of the reaction.

Consider the reaction, A(g)+2B(g)hArr 2D(g)+3E(g)+ heat and state how the following changes at equilibrium will affect the yield of the product. D(g)- temperature is increased.

Write the expression for the equilibrium constant, K_(c) for each of the following reactions: 2NOCl(g)hArr2NO(g)+Cl_(2)(g) .

For the reaction : A(g)+B(g)hArr C(g)+D(g) , two moles of each A and B were taken into a flask which of following relation between the concentration terms is true when the system attains equilibrium

The reaction, 2NOCl(g)hArr2NO(g)+Cl_2(g),/_\H>0 is in equilibrium. Which of the following changes at equilibrium will decrease the yield of NO(g)-