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 ……………..

The equilibrium constant for the reaction, H_(2)(g) + I_(2)(g) hArr 2HI(g) is 64 at a certain temperature. The equilibrium concentrations of H_(2) and HI are 2 mol//L and 16 mol//L respectively. What is the equilibrium concentration ( "in "mol//L ) of I_(2) ?

The equilibrium concentration of X , Y and YX_2 are 4,2,2 respectively for the equilibrium 2X+Y hArr YX_2 The equilibrium constant K_c is :

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?

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?

For a reaction X+Y = 2Z , 1.0 mo of X 1.5 mol of Y and 0.5 mol of Z where taken in a 1L vessel and allowed to react . At equilibrium , the concentration of Z was 1.0 mol L^(-1) . The equilibrium constant of the reaction is _____ (x)/(15) . The value of x is _____.

For a reaction X+Y = 2Z , 1.0 mo of X 1.5 mol of Y and 0.5 mol of Z where taken in a 1L vessel and allowed to react . At equilibrium , the concentration of Z was 1.0 mol L^(-1) . The equilibrium constant of the reaction is _____ (x)/(15) . The value of x is _____.

For the reaction A+2Brarr3C , the rate in terms of change in concentration of A, B and C are x, y and z "mol .L "^(-1).s^(-1) , respectively, Establish a relation between x , y and z .

For A+B hArr C , the equilibrium concentration of A and B at a temperature are 15 mol L^(-1) . When volume is doubled the reaction has equilibrium concentration of A as 10 mol L^(-1) , calculate a. K_(c)

For A+B hArr C , the equilibrium concentration of A and B at a temperature are 15 mol L^(-1) . When volume is doubled the reaction has equilibrium concentration of A as 10 mol L^(-1) , calculate a. K_(c) b. Concentration of C in original equilibrium.