The first and second dissociation consta...

The first and second dissociation constants of an acid `H_(2)A` are `1.0xx10^(-5)` and `5.0xx10^(-10)` respectively. The overall dissociation constant of the acids wil be:

Text Solution

AI Generated Solution

To find the overall dissociation constant of the acid \( H_2A \), we need to consider its two dissociation steps and their respective constants. ### Step-by-Step Solution: 1. **Identify the Dissociation Steps:** - The first dissociation of the acid \( H_2A \) can be represented as: \[ H_2A \rightleftharpoons H^+ + HA^- ...

Topper's Solved these Questions

IONIC EQUILIBRIUM
RESONANCE ENGLISH|Exercise Exercise 1 part 1|14 Videos
IONIC EQUILIBRIUM
RESONANCE ENGLISH|Exercise Exercise 1 part 2 only one option correct type|25 Videos
IONIC EQUILIBRIUM
RESONANCE ENGLISH|Exercise Exercise -3 part -1|4 Videos
HYDROCARBON
RESONANCE ENGLISH|Exercise ORGANIC CHEMISTRY(Hydrocarbon)|50 Videos
IUPAC NOMENCLATURE & STRUCTURAL ISOMERISM
RESONANCE ENGLISH|Exercise Advanced Level Problems Part-5|2 Videos

Similar Questions

Explore conceptually related problems

The first and second dissociation constant of an acid H_2A are 1.0 xx 10 ^(-5) and 5.0 xx 10^(-10) respectively . The overall dissociation constant of the acid will be : 5.0 xx 10^(-5) 5.0 xx 10 ^(-15) 5.0 xx 10 ^(-15) 0.2 xx 10 ^(5)

The dissociation constants of two acids HA_(1) and HA_(2) are 3.0xx10^(-4) and 1.8xx10^(-5) respectively. The relative strengths of the acids will be approximately

The first and second dissociation constants of a weak diacidic base B(OH)_(2) are 1xx10^(-7) and 1.3xx10^(-14) respectively. Approximate pH of 0.1M solution of this base is

The dissociation constants for HCOOH " and " CH_(3)COOH " are " 2.1 xx 10^(-4) " and " 1.8 xx 10^(-5) respectively. Calculate the relative strengths of the acids .

The dissociation constants for acetic acid and HCN at 25^(@)C are 1.5xx10^(-5) and 4.5xx10^(-10) , respectively. The equilibrium constant for the equilibirum CN^(-) + CH_(3)COOHhArr HCN + CH_(3)COO^(-) would be

The value for Ka1, and Ka2, (dissociation constants) of oxalic acid are 5.1 xx 10^(-2) and 5.2xx10^(-5) respectively. Give the suitable reason for the large difference in these two values.

The dissociation constant of a weak acid HA and weak base BOH are 2 xx 10^(-5) and 5 xx 10^(-6) respectively. The equilibrium constant for the neutralization reaction of the two is (ignnore hydrolysis of resulting salt )

RESONANCE ENGLISH-IONIC EQUILIBRIUM-Exercise -3 part-2 JEE main

Species acting as both Bronsted acid and base is:
Text Solution
|
Which one of the following statements is not true?
Text Solution
|
When rain is accompained by a thunderstorm, the collected rain water w...
Text Solution
|
The conjugate base of H(2)PO(4)^(-) is :
Text Solution
|
The conjugate base of OH^(-) is:
Text Solution
|
Hydrogen ion concentration in mol/L in a solution of pH = 5.4 will be:
Text Solution
|
The first and second dissociation constants of an acid H(2)A are 1.0xx...
Text Solution
|
The pK(a) of a weak acid, HA, is 4.80. The pK(a) of a weak base, BOH, ...
Text Solution
|
Three reactions involving H(2)PO(4)^(-) are given below I. H(3)PO(4...
Text Solution
|
In aqueous solution the ionization constants for carbonic acid are K...
Text Solution
|
The pH of a 0.1 molar solution of the acid HQ is 3. The vale of the io...
Text Solution
|
How many litres of water must be added to 1 litre of an aqueous soluti...
Text Solution
|