For a 'C'`M` concentrated solution of a weak electrolyte 'A_(x)B_(y) 'alpha' degree of dissociation) is

When a concentrated solution of an electrolyte is diluted

For the weak electrolyte , their degree of dissociation increase

For the given electrolyte A_(x)B_(y) . The degree of dissociation 'alpha' can be given as:

What should be the concentration of a weak electrolyte AB, When its degree of ionisation is increased twice.

For solution of weak electrolytic, the degree of ionization

What happens to conductance of solution of a weak electrolyte , when heated

Assertion(A) Lambda_(m) for weak electrolytes shows a sharp increase when the electrolytic solution is diluted. Reason(R) For weak electrolytes degree of dissociation increases with dilution of solution. (a) Both assertion and reason are true and the reason is the correct explanation of assertion. (b) Both assertion and reason are true and reason is not the correct explanation of assertion. (c) Assertion is true but the reason is false. (d) Both assertion and reason are false.

Why does the solution of a weak electrolyte not conduct much current?

If alpha is the degree of ionization, C the concentration of a weak electrolyte and K_(a) the acid ionization constant , then the correct relationship between alpha and C is

The dissociation of a weak electrolyte obeys the law of mass action. It was found by