Dissociation constants of `CH_(3)COOH and NH_(4)OH` in aqueous solution are `10^(-5)`. If pH of a `CH_(3)COOH` solution is 3, What will be the pH of `NH_(4)OH` ?

Dissociation constant of CH_(3)COOH and NH_(4)OH in squeous solution are 10^(-5) if pH of a CH_(3)COOH solution is 3, what will be the pH of NH_(4)OH ?

Dissociation constants of CH_(3)COOH and NH_(4)OH are 1.8xx10^(5) each at 25^(@)C . The equilibrium constant for the reaction of CH_(3)COOH and NH_(4)OH will be -

Aqueous solution containing 30 gm CH_(3)COOH are:

The dissociation constants of both NH_(4)OH and CH_(3)COOH are 2.0 xx 10^(-5) . What is the degree of hydrolysis of ammonium acetate?

How is CH_(3)OH converted into CH_(3)COOH ?

Assertion : The pH of NH_(4)Cl solution in water is less than 7 and pH of CH_(3)COONa solution is more than 7. Reason : NH_(4)Cl is a salt of weak NH_(4)OH and strong acid HCl whereas CH_(3)COONa is salt of a weak acid CH_(3)COOH and strong base NaOH.(a)If both assertion and reason are true and reason is the correct explanation of assertion. (b)If both assertion and reason are true but reason is not the correct explanation of assertion. (c)If assertion is true but reason is false. (d)If both assertion and reason are false

The ionisation constant of methylamine (CH_3 NH_2) " is " 4.4 xx 10 ^(-5) . Calculate the pH of its 0.2 M solutions.

The pH of a buffer solution prepared by adding 10 mL of 0.1 M CH_(3) COOH and 20 mL 0.1 M sodium acetate will be ( given : pK_(a) of CH_(3)COOH = 4.74 )