The initial concentration of X and Y were 2 and 4 mole / L respectively . For the following equilibrium `X+2YhArrZ` which of the following relationship among equilibrium concentrations of x , y and z is not feasible ?

The initial molar concentration of the reactants A and B were 0.1 M and 0.2 M respectively in the following reaction A+B hArr 2C When equilibrium was attained the concentration of A in the reaction mixture was found to be 0.06M . Calculate the equilibrium constant.

For the reaction: N_(2)+3H_(2)hArr2NH_(3) If the initial concentration of N_(2) and H_(2) are a and b moles per litre and x moles per litre of ammonia is formed at equilibrium, what is the equilibrium concentration of hydrogen?

The equilibrium concentration of x, y and z are 4, 2 and 2 mol L^(-1) , respectively, at equilibrium of the reaction 2x+y hArr z . The value of K_(c) is ……………..

X, Y and Z react in the 1:1:1 stoichiometric ratio. The concentration of X, Y and Z we are found to vary with time as shown in the figure below: Which of the following equilibrium reaction represents the correct variation of concentration with time?

One mole of X and Y are allowed to react in a 2L container when equilinrium is reached the following reaction occurs 2X+YhArrZ . If the concentration of Z is 0.2M calculate the equilibrium constant for this reaction

For a reversible reaction: X+2Y rarr 2Z , the equilibrium concentrations of X, Y and Z are 0.32, 0.40 and 0.35 moles L^(-1) respectively at 25^(@)C . a. If unitially the system contained only X and Y and then reached the state of equilibrium, what were the initial concentrations of X and Y . b. If at the start only X and Z were present, what were the initial concentrations?