For the physical equilibrium ice `hArr` water, the forward reaction is not favoured by

In the dissociation of CaCO_(3) in a closed vessel, the forward reaction is favoured by

In the equilibrium reaction A+BhArrC+D , the activation energy for the forward reaction is 25 kcals "mole"^(-1) and that of backward reaction is 15 kcals "mole"^(-1) . Which one of the following statements is correct?

For a physical equilibrium, H_(2) O (Ice) hArr H_(2) O (Water ) which of the following is the true statement:

The equilibrium constant (K_(C)) for the reaction HA +B hArr BH^(+) + A is 100. If the rate constant for the forward reaction is 10^(5) , rate constant for the reverse reaction is

Mass action ratio or reaction quotient Q for a reaction can be calculated using the law of mass action A(g)+B(g) harr C(g) + D(g) Q=([C][D])/([A][B]) . The value of Q decides whether the reaction is at equilibrium or not. At equilibrium, Q = K. For non equilibrium process, Q ne K . When Q gt K , reaction will favour backward direction and when Q lt K , it will favour forward direction. For the reaction : 2A + B harr 3C at 298 K, K_c = 49 A 3L vessel contains 2,1 and 3 moles of A, B and C respectively. The reaction at the same temperature:

Mass action ratio or reaction quotient Q for a reaction can be calculated using the law of mass action A(g)+B(g) harr C(g) + D(g) Q=([C][D])/([A][B]) . The value of Q decides whether the reaction is at equilibrium or not. At equilibrium, Q = K. For non equilibrium process, Q ne K . When Q gt K , reaction will favour backward direction and when Q lt K , it will favour forward direction. In a reaction mixture containing H_2 , N_2 and NH_3 at partial pressure of 2 atm, and 3 atm respectively, the value of K_p at 725 K is 4.28 xx 10^(-5) atm^(-2) . In which direction the net reaction will go ? N_(2(g)) + 3H_(2(g)) harr 2NH_(3(g))

As per Lechatlier's Principle any stress applied on the equilibrium state is minimised by shifting of equilibrium. Increase in volume of container shifts the equilibrium in forward direction in the case of ____