The ratio of dissociaiton constant of tw...

The ratio of dissociaiton constant of two weak acids `HA` and `HB` is `4:1` .AT what initial molar concentration ratio of two acid solution,the two will have same `pH` in separate solutions.Assume negligible association of both acids in their solutions.

A

`2:1`

B

`1:2`

C

`4:1`

D

`1:4`

Text Solution

Verified by Experts

`K_(a)=([H^(+)][A^(-)])/([HA])=([H^(+)]^(2))/([HA])( :.[H^(+)]=[A^(-)])`
and `K_(b)=([H^(+)][B^(-)])/([HB])=([H^(+)])^(2)/([HB])( :.[H^(+)]=[B^(+)])` Also `H^(+)` are same `:.(K_(a))/(K_(b))=([HB])/([HA])=(4)/(1) ([HA])/([HB])=(1)/(4)`

Promotional Banner

Promotional Banner

Topper's Solved these Questions

IONIC EQUILIBRIUM
RESONANCE|Exercise Exercise 2 part I only one correct type|10 Videos
IONIC EQUILIBRIUM
RESONANCE|Exercise Part -II Single and double value integer type|8 Videos
IONIC EQUILIBRIUM
RESONANCE|Exercise Exercise -1|17 Videos
HYDROCARBON
RESONANCE|Exercise ORGANIC CHEMISTRY(Hydrocarbon)|50 Videos
IUPAC NOMENCLATURE & STRUCTURAL ISOMERISM
RESONANCE|Exercise Advanced Level Problems Part-5|2 Videos

Similar Questions

Explore conceptually related problems

The ratio of dissociation constant of two weak acids HA and HB is 4. At what molar concentration ratio, the two acids will have same pH ?

The dissociation constant of a weak acid HA is 4.9 xx 10^(-8) . Calculate for a decimolar solution of acid:. OH^(-) concentration

The dissociation constant of a weak acid HA is 4.9 xx 10^(-8) . Calculate for a decimolar solution of acid:. % of ionisation

The dissociation constant of weak acid HA is 1 xx 10^(-5) . Its concentration is 0.1 M . pH of that solution is

A weak acid HA has K_(a) = 10^(-6) . What would be the molar ratio of this acid and its salt with strong base so that pH of the buffer solution is 5 ?

In a mixture of weak acid and its salt, the ratio of concentration of salt to acid is increased ten fold. The pH of the solution

RESONANCE-IONIC EQUILIBRIUM-Part -II (only one option correct type)

Upon mixing equal volume of a strong acid solution (HA) and a strong b...
Text Solution
|
Which of the following solutions will have pH close to 1.0 ?
Text Solution
|
The ratio of dissociaiton constant of two weak acids HA and HB is 4:1 ...
Text Solution
|
At 25^(@)C K(b) for BOH=1.0xx10^(-12).0.01M solution of BOH has [OH^(-...
Text Solution
|
K(a) for formic acid and acetic acid are 2.1xx10^(-4) and 1.1xx10^(-5)...
Text Solution
|
K(a) for monobasic acid ,whose 0.1M solution has pH of 4.5 is :
Text Solution
|
For 10^(-4) M BOH (weak base) ,K(b)=5xx10^(-5)):
Text Solution
|
For, H(3)PO(4)+H(2)OhArrH(3)O^(+)+H(2)PO(4)^(-), K(a(1)) H(2)PO(4)+H...
Text Solution
|
In a 0.2M aqueous solution of Ethylene diamine (H(2)NCH(2)CH(2)NH(2)):...
Text Solution
|
The dissociation constant of acetic acid at a given temperature is 1.6...
Text Solution
|
In above question concentration of Triethyl ammonium ion [C(6)NH(16)]^...
Text Solution
|
Consider an aqueous solution 0.1 M each in HOCN, HCOOH, (COOH)2 and H3...
Text Solution
|
What are [H^(o+)], [A^(Theta), and [B^(Theta)] in a solution that is 0...
Text Solution
|
pH of solution obtained by mixing equal volumes of 0.1M Triethyl amine...
Text Solution
|
In a solution containing 0.1M HCl & 0.1M H(3)PO(4) (having dissociatio...
Text Solution
|
For a solution obtained by mixing equal volumes of 0.02M KOH solution ...
Text Solution
|
A pair of salts are given in a solution each is 0.1 M in concentration...
Text Solution
|
Aqueous solution of NH(4)Cl is …… in nature due to behaviour of….ion i...
Text Solution
|
The pH of a solution obtained by mixing 100mL of 0.3M CH(3)COOH with ...
Text Solution
|
The sodium salt of a certain weak monobasic organic acid is hydrolysed...
Text Solution
|