One mole of ethanol is treated with one mole of ethanoic acid at `25^(@)C`. Half of the acid changes into ester at equilibrium. The equilibrium constant for the reaction will be

One mole of pure ethyl alcohol was treated with one mole of pure acetic acid at 25^(@)C One -third of the acid changes into ester at equilibrium . The equilibrium constant for the reaction will be:

4 moles of A are mixed with 4 moles of B. At equilibrium for the raction A+BhArrC+D , 2 moles of C and D are formed. The equilibrium constant for the reaction will be

5 mole of X are mixed with 3 moles of Y. At equilibrium for the reaction, X + Y rarr Z 2 moles of Z are formed. The equilibrium constant for the reaction will be

One mole of H_2. two moles of I_2 and three moles of Hl injected in a one litre flask . What will be the concentrations of H_2, I_2 and Hl at equilibrium at 490 ^(@) C . The equilibrium constant for the reaction at 490 ^(@) C is 45. 9

A+B rarr C+D Initially moles of A and B are equal. At equilibrium, moles of C are three times of A. The equilibrium constant of the reaction will be

The ester , ethyl acetate is formed by the reaction of ethanol and acetic acid and the equilibrium is represented as : CH_(3) COOH(l) +C_(2)H_(5)OH(l)hArr CH_(3)COOC_(2)H_(5)(l) +H_(2)O(l) (i) Write the concentration ratio (concentration quotient) Q for this reaction. Note that water is not in excess and is not a solvent in this reaction. (ii) At 293 K, if one starts with 1.000 mol of acetic acid 0.180 mol of ethanol, there is 0.171 mol of ethyl acetate in the final equilibrium mixture . Calculate the equilibrium constant. (iii) Starting with 0.50 mol of ethanol and 1.000 mol of acetic acid and maintaining it at 293 K, 0.214 mol of ethyl acetate is found after some time. Has equilibrium been reached?

Dissociation constant of a weak acid is 10^(-6) . What is the value of equilibrium constant for its reaction with strong base

1.0 mole of ethyl alcohol and 1.0 mole of acetic acid are mixed. At equilibrium, 0.666 mole of ester is formed. The value of equilibrium constant is

One mole of A_((g)) is heated to 300^(@) C in a closed one litre vessel till the following equilibrium is reached. A_((g)) hArr B_((g) . The equilibrium constant of the reaction at 300^(@) C is 4. What is the conc. of B ("in. mole. lit"^(-1)) at equilibrium ?

1 mole of 'A' 1.5 mole of 'B' and 2 mole of 'C' are taken in a vessel of volume one litre. At equilibrium concentration of C is 0.5 mole /L .Equilibrium constant for the reaction , A_((g))+B_((g) hArr C_((g)) is