The ionic product of water is `10^(-14)`, The `H^(+)` ion concentration in 0.1 M NaOH solution is

The ionic product of water at 25^@C is 10^(-14) its ionic product at 90^@C will be

The H ion concentration of a solution is 4.75 xx 10^(-5) M. Then the OH ion concentration of the same solution is

The solubility product of Fe(OH)_3 is 1xx10^(-36) What is the minimum concentration of OH^- ions required to precipitate Fe(OH)_3 from a 0.001 M solution of FeCl_3 ?

The solubility product of BaSO_(4)" is " 1.5 xx 10^(-9) The precipitation in a 0.01 M Ba^(+2) solution will start , on adding H_(2)SO_(4) of concentration

The sodium salt of a certain weak monobasic organic acid is hydrolysed to an extent of 3% in its 0.1 M solution at 25^@C .Given that the ionic product of water is 10^(-14) at this temperature , what is the dissociation constant of the acid ?

The P^(H) of a solution is 3.602. Its H^(+) ion concentration is

The solubility product of a salt having general formula MX_(2) in water is 4xx10^(-12) . The concentration of M^(2+) ions in the aqueous solution of the salt is:

At certain temperature, dissociation constant of formic acid and acetic acid are 1.8xx10^(-4) and 1.8xx10^(-5) respectively. At what concentration of acetic solution, the H_3O^(+) ion concentration is same as that in 0.001 M formic acid solution

The osmotic pressure of a dilute solution of a compound XY in water is four times that of a solution of 0.01 M BaCl_(2) in water. Assuming complete dissociation of the given ionic compounds in water, the concentration of XY (in "mol" L^(-1) ) in solution is:

If ionic product of water is K_w=10^(-16) at 4^@C , then a solution with pH =7.5 at 4^@C will