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Buffer solution - Ionic Equilibrium | Physical Chemistry PDF Download

Buffer:

A solution that resists change in pH value upon addition of small amount of strong Acid or Base (less than 1%) is called Buffer solution.

Characteristics of Buffer Solution:

  • Constant pH range

  • Resist any change

  • Addition of small amount of acid, base dilution and temperature

Types of buffer solutions

(A)       Simple Buffer solution 

(B)       Mixed Buffer solution 

(A)       Simple buffer solution: A solution of weak Acid and weak base in water e.g. CH3COONH4, NH4CN.

Buffer action of simple buffer solution

Consider a simple buffer solution of CH3COONH4, since it is a salt which dissociate completely.

            CH3COONH4→ CH3COO + NH4+

If a strong acid such as HCl is added then

            HCl→H+ + Cl

The H+ ions from the added acid (HCl) combine with CH3COO ions of form CH3COOHwhich is a weak acid so will not further ionized.

Thus, there is a rise in H+ ion concentration and pH remains constant

CH3COO + H+Buffer solution - Ionic Equilibrium | Physical Chemistry CH3COOH (Weak acid)

(B)  Mixed Buffer solutions:

Acidic buffer solution:

An acidic buffer solution consists of solution of a weak acid and its alt with strong base. The best example is mixture of solution of acetic acid and its salt with strong base. (CH3COONa).

                        CH3COOH Buffer solution - Ionic Equilibrium | Physical Chemistry CH3COO + H+

                                C1                        -              -

At equation     C1 – C1α             C1α          C1α

                        CH3COOH → CH3COO + Na+

                                C2                     -             -

                                -                 C2            C2

New equilibrium

                        CH3COOH Buffer solution - Ionic Equilibrium | Physical Chemistry  CH3COO + H+

                        C- C1α1               C1α1          C1α1

                        Buffer solution - Ionic Equilibrium | Physical Chemistry

                        C1a1 + C2≈C2

                        1 - α≈ 1

                        Kα = C2α1

                      Buffer solution - Ionic Equilibrium | Physical Chemistry
                   pH = -log [H+]

                Buffer solution - Ionic Equilibrium | Physical Chemistry

                     

This equation is called Handerson equation.

Where C2 = Concentration of common ion

            C1 = Concentration of weak acid

Example: Find pH of solution contains 0.1 M (100 ml) CH3COOH and mixed with 0.1 M, 50 ml NaOH. Ka = 105.

Solution: Here, an acid and base is mixed. So, firstly acid – Base Reaction take place.

MIlimoles of CH3COOH = 10 mmol

Milimoles of NaOH = 5 mmol

CH3COOH + NaOH→ CH3COO Na+

      10                5       

   5/150              -                     5/150

Now, solution is having weak acid CH3COOH and it’s salt having common ion. So, this solution is buffer solution Þ Acidic Buffer

pH = pKa + log Buffer solution - Ionic Equilibrium | Physical Chemistry

pH = pKa + log Buffer solution - Ionic Equilibrium | Physical Chemistry

pH = 5

Basic Buffer Solution

A basic buffer solution consists of a mixture of a weak base and its salt with strong acid. The best known example is a mixture of NH4OH and NH4Cl.

NH4OH Buffer solution - Ionic Equilibrium | Physical Chemistry  NH4+ OH–                         (weakly ionised)

NH4Cl    → NH4+ + Cl                      (highly ionized)

When a fewe drops of Base (NaOH) are added, the OH ions from NaOH combine with NH4+ to form feebly ionized NH4OH thus there is no rise in the concentration of OH ions and hence the pH value Remains constant.

NH4+ + OH→ NH4OH

pH of basic buffer solution 

                                    NH4OH Buffer solution - Ionic Equilibrium | Physical Chemistry NH4+ + OH

                                        C1                     -           -

                                    C1 – C1aα      C1α      C1α

                                    NH4Cl   →  NH4+ + Cl

                                        C2            -          -

                                        -               C2           C2

At new equilibrium

                                    NH4OH Buffer solution - Ionic Equilibrium | Physical Chemistry  NH4+ + OH

                                    C1 – Cα1          C1α1    C1α1

          KbBuffer solution - Ionic Equilibrium | Physical Chemistry 

1 - α1≈ 1

C1α1 + C≈ C2

            K= C2α1

           Buffer solution - Ionic Equilibrium | Physical Chemistry

          [OH] = C1α1 = Buffer solution - Ionic Equilibrium | Physical Chemistry

 

Example: 0.1M, 100 ml NH4Cl reacts Buffer solution - Ionic Equilibrium | Physical Chemistry with 0.1M, 20 ml Ca(OH)2. Calculate the pH of solution if kb is 105.

Solution :     2 NH4Cl + Ca(OH)2→ 2 NH4OH + CaCl2

Milimoles        0.1 × 100                  0.1 × 20             

                        10                              2

                        6                                -                  4

Concentration 6                                                   4

                        120                                            120

Now, solution is having weak base (NH4OH) and its salt NH4Cl which is having ion. Hence this solution acts as buffer

            pOH = pKb +Buffer solution - Ionic Equilibrium | Physical Chemistry

            pOH = 5.17

            pH = 8.83

Example: 0.1 M, 100 ml NH4OH is titrated with 0.1 M, H2SO4 solution. Calculate the pH if kb = 105

  1. Nothing is added

  2. 25 ml, H2SO4 is added

  3. 0.1 M, 20 ml NaOH is mixed in resulting solution for made in part b.

  4. Find the pH if 0.1M, 10 ml H2SO4 is added in part b. 

Solution

a)         NH4OH Buffer solution - Ionic Equilibrium | Physical Chemistry NH4+ OH

            C1 – C1α       C1α C1α

            Kb = Buffer solution - Ionic Equilibrium | Physical Chemistry

After neglection

                        kb = C1α2

                        α = 102

                        pH = 11

b)         When an acid H2SO4 is added with NH4OH (a Base) then acid-Base Reaction takes place.

                        2 NH4OH + H2SO4→ (NH4)2SO4

milimole               10               2.5                –

                               5               –                2.5

            pOH = 5 + logBuffer solution - Ionic Equilibrium | Physical Chemistry

            pH = 14 – pOH

            pH = 9

c)         In part b we are having a weak base and its salt when NaOH is added it will React with (NH4)2SO4.

                        (NH4)2SO4 + 2 NaOH→ 2 NH4OH + Na2SO4

                             2.5                  2

Milimoles            1.5                   -                   2

Concentration             1.5/145                -                   2/145

Now, the solution is having weak base and it’s salt, hence Buffer

For (NH4)2SO4→ 2 NH4+ + SO4

Hence, pOH = 5 +   Buffer solution - Ionic Equilibrium | Physical Chemistry  

pH = 4.632

In part b, when H2SO4 is added it will react with NH4OH.

2NH4OH + H2SO4→ (NH4)2 SO4 + H2O

      5                1

      3                –                  1

Total milimoles of (NH4)2 SO4 = 7

Total milimoles of NH4OH = 3

pOH = 5 + Buffer solution - Ionic Equilibrium | Physical Chemistry

pH = 8.63

Buffer Capacity or Buffer Index:

It is the measure of power to resist change in pH of Buffer Solution.

It is defined as the number of moles of acid or Base require by one litre of a Buffer solution for changing its pH by one unit.

Buffer Capacity = Buffer solution - Ionic Equilibrium | Physical Chemistry

Buffer Range:

A solution can act as buffer solution only if ratio of concentration of salt to base or acid is from 1 to 10.

Buffer solution - Ionic Equilibrium | Physical Chemistry 

pH = pKa + 1

pH = pKa – 1

So, pH range is pKa+ 1

The document Buffer solution - Ionic Equilibrium | Physical Chemistry is a part of the Chemistry Course Physical Chemistry.
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FAQs on Buffer solution - Ionic Equilibrium - Physical Chemistry

1. What is a buffer solution?
Ans. A buffer solution is a solution that resists changes in pH when small amounts of acid or base are added to it. It consists of a weak acid and its conjugate base, or a weak base and its conjugate acid, which can react with the added acid or base to minimize the change in pH.
2. How does a buffer solution work?
Ans. A buffer solution works by utilizing the principle of Le Chatelier's principle. When an acid or base is added to a buffer solution, it reacts with the weak acid or base in the buffer to form its conjugate base or acid, respectively. This reaction helps to maintain the pH of the solution by minimizing the change caused by the addition of the acid or base.
3. What is the importance of buffer solutions in chemistry?
Ans. Buffer solutions are important in chemistry as they play a crucial role in maintaining the pH of a solution. They are widely used in various chemical and biological applications, such as in biochemical reactions, enzymatic assays, and pharmaceutical formulations. Buffer solutions help to stabilize the pH and prevent drastic changes that can affect the efficiency and accuracy of these processes.
4. How do you prepare a buffer solution?
Ans. To prepare a buffer solution, a weak acid or base and its conjugate salt are mixed in specific proportions. The concentration of the weak acid or base and its conjugate salt depends on the desired pH of the buffer solution. The pH can be calculated using the Henderson-Hasselbalch equation, which relates the pH, pKa (acid dissociation constant), and the concentrations of the acid and its conjugate base.
5. Can buffer solutions be used in biological systems?
Ans. Yes, buffer solutions are commonly used in biological systems. They help to maintain the pH within a narrow range, which is crucial for the proper functioning of enzymes and other biological molecules. Buffer solutions are used in various biological experiments, cell culture media, and diagnostic tests to ensure that the pH remains stable and suitable for the biological processes being studied or conducted.
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