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Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11 PDF Download

Question 7.1: A liquid is in equilibrium with its vapour in a sealed container at a fixed temperature. The volume of the container is suddenly increased.

a) What is the initial effect of the change on vapour pressure?

b) How do rates of evaporation and condensation change initially?

c) What happens when equilibrium is restored finally and what will be the final vapour pressure?

ANSWER:  (a) If the volume of the container is suddenly increased, then the vapour pressure would decrease initially. This is because the amount of vapour remains the same, but the volume increases suddenly. As a result, the same amount of vapour is distributed in a larger volume.

(b) Since the temperature is constant, the rate of evaporation also remains constant. When the volume of the container is increased, the density of the vapour phase decreases. As a result, the rate of collisions of the vapour particles also decreases. Hence, the rate of condensation decreases initially.

(c) When equilibrium is restored finally, the rate of evaporation becomes equal to the rate of condensation. In this case, only the volume changes while the temperature remains constant. The vapour pressure depends on temperature and not on volume. Hence, the final vapour pressure will be equal to the original vapour pressure of the system.

 

Question 7.2: What is Kc for the following equilibrium when the equilibrium concentration of each substance is: [SO2]= 0.60 M, [O2] = 0.82 M and [SO3] = 1.90 M ?

ANSWER :  The equilibrium constant (Kc) for the give reaction is:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Hence, Kcfor the equilibrium is . 12.239 mol-1

 

Question 7.3: At a certain temperature and total pressure of 10Pa, iodine vapour contains 40% by volume of I atomsIonic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11  . Calculate Kp for the equilibrium.

ANSWER: 

Partial pressure of I atoms,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

ANSWER :

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.5: Find out the value of Kc for each of the following equilibria from the value of Kp:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

ANSWER :  The relation between Kp and Kc is given as:

Kp = Kc (RT)Δn

(a) Here, Δn = 3 – 2 = 1

R = 0.0831 barLmol–1K–1

T = 500 K

Kp = 1.8 × 10–2

Now,

Kp = Kc (RTΔn

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

(b) Here, Δn = 2 – 1 = 1

R = 0.0831 barLmol–1K–1

T = 1073 K

Kp= 167

Now,

Kp = Kc (RTΔn

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.6: For the following equilibrium, Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Both the forward and reverse reactions in the equilibrium are elementary bimolecular reactions. What is Kc, for the reverse reaction?

ANSWER : 

It is given that KC for the forward reaction is6.3 X1014.

Then, KC for the reverse reaction will be,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.7: Explain why pure liquids and solids can be ignored while writing the equilibrium constant expression?

ANSWER : 

For a pure substance (both solids and liquids),

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Now, the molecular mass and density (at a particular temperature) of a pure substance is always fixed and is accounted for in the equilibrium constant. Therefore, the values of pure substances are not mentioned in the equilibrium constant expression.

 

Question 7.8: Reaction between N2 and O2 takes place as follows:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

If a mixture of 0.482 mol of N2 and 0.933 mol of O2 is placed in a 10 L reaction vessel and allowed to form N2O at a temperature for which Kc = 2.0 × 10–37, determine the composition of equilibrium mixture.

ANSWER :  Let the concentration of N2O at equilibrium be x.

The given reaction is

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.9: Nitric oxide reacts with Br2 and gives nitrosyl bromide as per reaction given below:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

When 0.087 mol of NO and 0.0437 mol of Br2 are mixed in a closed container at constant temperature, 0.0518 mol of NOBr is obtained at equilibrium. Calculate equilibrium amount of NO and Br2.

ANSWER : 

The given reaction is:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Now, 2 mol of NOBr are formed from 2 mol of NO. Therefore, 0.0518 mol of NOBr are formed from 0.0518 mol of NO.

Again, 2 mol of NOBr are formed from 1 mol of Br.

Therefore, 0.0518 mol of NOBr are formed from 0.0518/2

 mol of Br, or

  0.0259 mol of NO.

The amount of NO and Br present initially is as follows:

[NO] = 0.087 mol [Br2] = 0.0437 mol

Therefore, the amount of NO present at equilibrium is:

[NO] = 0.087 – 0.0518

= 0.0352 mol

And, the amount of Br present at equilibrium is:

[Br2] = 0.0437 – 0.0259

= 0.0178 mol

Question 7.10: At 450 K, Kp= 2.0 × 1010/bar for the given reaction at equilibrium.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

What is Kc at this temperature?

ANSWER : 

For the given reaction,

Δn = 2 – 3 = – 1

T = 450 K

R = 0.0831 bar L bar K–1 mol–1

 = 2.0 × 1010 bar –1

We know that,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.11: A sample of HI(g) is placed in flask at a pressure of 0.2 atm. At equilibrium the partial pressure of HI(g) is 0.04 atm. What is Kp for the given equilibrium?

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

ANSWER : 

The initial concentration of HI is 0.2 atm. At equilibrium, it has a partial pressure of 0.04 atm. Therefore, a decrease in the pressure of HI is 0.2 – 0.04 = 0.16. The given reaction is

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Hence, the value of Kp for the given equilibrium is 4.0.

 

Question 7.12: A mixture of 1.57 mol of N2, 1.92 mol of H2 and 8.13 mol of NH3 is introduced into a 20 L reaction vessel at 500 K. At this temperature, the equilibrium constant, Kc for the reaction 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Is the reaction mixture at equilibrium? If not, what is the direction of the net reaction?

ANSWER : 

The given reaction is: Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11 

The given concentration of various species is

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Write the balanced chemical equation corresponding to this expression.

ANSWER : 

The balanced chemical equation corresponding to the given expression can be written as:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.14: One mole of H2O and one mole of CO are taken in 10 L vessel and heated to 725 K. At equilibrium 40% of water (by mass) reacts with CO according to the equation,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Therefore, the equilibrium constant for the reaction,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.15: At 700 K, equilibrium constant for the reaction

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

is 54.8. If 0.5 molL–1 of HI(g) is present at equilibrium at 700 K, what are the concentration of H2(g) and I2(g) assuming that we initially started with HI(g) and allowed it to reach equilibrium at 700 K?

ANSWER : 

It is given that equilibrium constant Kc for the reaction

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.16: What is the equilibrium concentration of each of the substances in the equilibrium when the initial concentration of ICl was 0.78 M?

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Hence, at equilibrium

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.17: Kp = 0.04 atm at 899 K for the equilibrium shown below. What is the equilibrium concentration of C2H6 when it is placed in a flask at 4.0 atm pressure and allowed to come to equilibrium?

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Hence, at equilibrium,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.18: Ethyl acetate is formed by the reaction between ethanol and acetic acid and the equilibrium is represented as:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

i) Write the concentration ratio (reaction quotient), Qc, for this reaction (note: water is not in excess and is not a solvent in this reaction)

(ii) At 293 K, if one starts with 1.00 mol of acetic acid and 0.18 mol of ethanol, there is 0.171 mol of ethyl acetate in the final equilibrium mixture. Calculate the equilibrium constant.

(iii) Starting with 0.5 mol of ethanol and 1.0 mol of acetic acid and maintaining it at 293 K, 0.214 mol of ethyl acetate is found after sometime. Has equilibrium been reached?

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.19: A sample of pure PCl5 was introduced into an evacuated vessel at 473 K. After equilibrium was attained, concentration of PCl5 was found to be 0.5 × 10–1 mol L–1. If value of Kcis 8.3 × 10–3, what are the concentrations of PCl3 and Cl2 at equilibrium?

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.20: One of the reactions that takes place in producing steel from iron ore is the reduction of iron (II) oxide by carbon monoxide to give iron metal and CO2.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Therefore, we can say that the pressure of CO will increase while the pressure of CO2 will decrease.

Now, let the increase in pressure of CO = decrease in pressure of CO2 be p.

Then, we can write,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Therefore, equilibrium partial of 

And, equilibrium partial pressure of 

 

Question 7.21: Equilibrium constant, Kc for the reaction

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

At a particular time, the analysis shows that composition of the reaction mixture is 3.0 mol L–1 N2, 2.0 mol L–1 H2 and 0.5 mol L–1 NH3. Is the reaction at equilibrium? If not in which direction does the reaction tend to proceed to reach equilibrium?

ANSWER :  The given reaction is:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.22: Bromine monochloride, BrCl decomposes into bromine and chlorine and reaches the equilibrium

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

for which Kc= 32 at 500 K. If initially pure BrCl is present at a concentration of 3.3 × 10–3 molL–1, what is its molar concentration in the mixture at equilibrium?

ANSWER :  Let the amount of bromine and chlorine formed at equilibrium be x. The given reaction is:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.23: At 1127 K and 1 atm pressure, a gaseous mixture of CO and CO2 in equilibrium with solid carbon has 90.55% CO by mass

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Calculate Kc for this reaction at the above temperature.

ANSWER:  Let the total mass of the gaseous mixture be 100 g.

Mass of CO = 90.55 g

And, mass of CO2 = (100 – 90.55) = 9.45 g

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

For the given reaction,

Δn = 2 – 1 = 1

We know that,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.24: Calculate a) ΔG°and b) the equilibrium constant for the formation of NO2 from NO and O2 at 298 K

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

where ΔfG° (NO2) = 52.0 kJ/mol

ΔfG° (NO) = 87.0 kJ/mol

ΔfG° (O2) = 0 kJ/mol

ANSWER : 

(a) For the given reaction,

ΔG° = ΔG°( Products) – ΔG°( Reactants)

ΔG° = 52.0 – {87.0 0}

= – 35.0 kJ mol–1

(b) We know that,

ΔG° = RT log Kc

ΔG° = 2.303 RT log Kc

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Hence, the equilibrium constant for the given reaction Kc is 1.36 × 106

 

Question 7.25: Does the number of moles of reaction products increase, decrease or remain same when each of the following equilibria is subjected to a decrease in pressure by increasing the volume?

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

ANSWER : 

 (a) The number of moles of reaction products will increase. According to Le Chatelier’s principle, if pressure is decreased, then the equilibrium shifts in the direction in which the number of moles of gases is more. In the given reaction, the number of moles of gaseous products is more than that of gaseous reactants. Thus, the reaction will proceed in the forward direction. As a result, the number of moles of reaction products will increase.

(b) The number of moles of reaction products will decrease.

Question 7.26: Which of the following reactions will get affected by increasing the pressure?

Also, mention whether change will cause the reaction to go into forward or backward direction.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

ANSWER : 

The reactions given in (i), (iii), (iv), (v), and (vi) will get affected by increasing the pressure.

The reaction given in (iv) will proceed in the forward direction because the number of moles of gaseous reactants is more than that of gaseous products.

The reactions given in (i), (iii), (v), and (vi) will shift in the backward direction because the number of moles of gaseous reactants is less than that of gaseous products.

 

Question 7.27: The equilibrium constant for the following reaction is 1.6 ×105 at 1024 K.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.28: Dihydrogen gas is obtained from natural gas by partial oxidation with steam as per following endothermic reaction:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

(a) Write as expression for Kp for the above reaction.

(b) How will the values of Kp and composition of equilibrium mixture be affected by

(i) Increasing the pressure              (ii) Increasing the temperature                   (iii) Using a catalyst?

ANSWER :   (a) For the given reaction,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

(b) (i) According to Le Chatelier’s principle, the equilibrium will shift in the backward direction.

(ii) According to Le Chatelier’s principle, as the reaction is endothermic, the equilibrium will shift in the forward direction.

(iii) The equilibrium of the reaction is not affected by the presence of a catalyst. A catalyst only increases the rate of a reaction. Thus, equilibrium will be attained quickly.

 

Question 7.29: Describe the effect of:

(a) Addition of H2                                                                      (b) Addition of CH3OH

(c) Removal of CO                                                   (d) Removal of CH3OH

on the equilibrium of the reaction :  Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

ANSWER :   (a) According to Le Chatelier’s principle, on addition of H2, the equilibrium of the given reaction will shift in the forward direction.

(b) On addition of CH3OH, the equilibrium will shift in the backward direction.

(c) On removing CO, the equilibrium will shift in the backward direction.

(d) On removing CH3OH, the equilibrium will shift in the forward direction.

 

Question 7.30: At 473 K, equilibrium constant Kc for decomposition of phosphorus pentachloride, PCl5 is 8.3 ×10-3. If decomposition is depicted as,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

(a) Write an expression for Kc for the reaction.

(b) What is the value of Kc for the reverse reaction at the same temperature?

(c) What would be the effect on Kc if (i) more PCl5 is added (ii) pressure is increased? (iii) The temperature is increased?

ANSWER : 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

c) (i) Kc would remain the same because in this case, the temperature remains the same.

(ii) Kc is constant at constant temperature. Thus, in this case, Kc would not change.

(iii) In an endothermic reaction, the value of Kc increases with an increase in temperature. Since the given reaction in an endothermic reaction, the value of Kc will increase if the temperature is increased.

 

Question 7.32: Predict which of the following reaction will have appreciable concentration of reactants and products:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.34: The reaction Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11 is at equilibrium at 1300 K in a 1L flask. It also contain 0.30 mol of CO, 0.10 mol of H2 and 0.02 mol of H2O and an unknown amount of CH4 in the flask. Determine the concentration of CH4 in the mixture. The equilibrium constant, Kc for the reaction at the given temperature is 3.90.

ANSWER : 

Let the concentration of methane at equilibrium be x.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.35: What is meant by the conjugate acid-base pair? Find the conjugate acid/base for the following species:

 

ANSWER :  A conjugate acid-base pair is a pair that differs only by one proton.

The conjugate acid-base for the given species is mentioned in the table below.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.36: Which of the followings are Lewis acids? H2O, BF3, H , and 

ANSWER :  Lewis acids are those acids which can accept a pair of electrons. For example, BF3, H , and  are Lewis acids.

 

Question 7.37: What will be the conjugate bases for the Brönsted acids: HF, H2SO4 and HCO3?

ANSWER :  The table below lists the conjugate bases for the given Bronsted acids.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.38: Write the conjugate acids for the following Brönsted bases: NH2, NH3 and HCOO.

ANSWER :  The table below lists the conjugate acids for the given Bronsted bases.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.39: The species: H2O, , and NH3 can act both as Brönsted acids and bases. For each case give the corresponding conjugate acid and base.

ANSWER :  The table below lists the conjugate acids and conjugate bases for the given species

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.40: Classify the following species into Lewis acids and Lewis bases and show how these act as Lewis acid/base: (a) OH (b) F (c) H  (d) BCl3.

ANSWER :   (a) OH is a Lewis base since it can donate its lone pair of electrons.

(b) F is a Lewis base since it can donate a pair of electrons.

(c) H  is a Lewis acid since it can accept a pair of electrons.

(d) BCl3 is a Lewis acid since it can accept a pair of electrons.

Question 7.41: The concentration of hydrogen ion in a sample of soft drink is 3.8 × 10–3 M. what is its pH?

ANSWER :  Given,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.42:The pH of a sample of vinegar is 3.76. Calculate the concentration of hydrogen ion in it.

ANSWER: Given,

pH = 3.76

It is known that,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Hence, the concentration of hydrogen ion in the given sample of vinegar is 1.74 × 10–4 M.

 

Question 7.43: The ionization constant of HF, HCOOH and HCN at 298K are 6.8 × 10–4, 1.8 × 104  and 4.8 × 10–9 respectively. Calculate the ionization constants of the corresponding conjugate base.

ANSWER:  It is known that,

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Given,

Ka of HF = 6.8 × 10–4

Hence, Kb of its conjugate base F

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.44: The ionization constant of phenol is 1.0×10–10. What is the concentration of phenolate ion in 0.05M solution of phenol? What will be its degree of ionization if the solution is also 0.01M in sodium phenolate?

ANSWER:  Ionization of phenol:

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Now, let ∝ be the degree of ionization of phenol in the presence of 0.01 M C6H5ONa.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.45: The first ionization constant of H2­­S is 9.1 × 10–8. Calculate the concentration of HS ion in its 0.1 M solution. How will this concentration be affected if the solution is 0.1 M in HCl also? If the second dissociation constant of H2S is 1.2 × 10–13, calculate the concentration of S2– under both conditions.

ANSWER:   (i) To calculate the concentration of HS ion:

Case I (in the absence of HCl):

Let the concentration of HS be x M.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.46: The ionization constant of acetic acid is 1.74 × 10–5. Calculate the degree of dissociation of acetic acid in its 0.05 M solution. Calculate the concentration of acetate ion in the solution and its pH.

ANSWER :  Method 1

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

pH = 3.03

Hence, the concentration of acetate ion in the solution is 0.00093 M and its Ph is 3.03.

Question 7.47: It has been found that the pH of a 0.01M solution of an organic acid is 4.15. Calculate the concentration of the anion, the ionization constant of the acid and its pKa.

ANSWER :  Let the organic acid be HA.

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.49: Calculate the pH of the following solutions:

a) 2 g of TlOH dissolved in water to give 2 litre of solution.

b) 0.3 g of Ca(OH)2 dissolved in water to give 500 mL of solution.

c) 0.3 g of NaOH dissolved in water to give 200 mL of solution.

d) 1mL of 13.6 M HCl is diluted with water to give 1 litre of solution.

ANSWER:   (a) For 2g of TlOH dissolved in water to give 2 L of solution

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

 

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

Question 7.50: The degree of ionization of a 0.1M bromoacetic acid solution is 0.132. Calculate the pH of the solution and the pKa of bromoacetic acid.

ANSWER :  Degree of ionization, α = 0.132

Concentration, c = 0.1 M

Thus, the concentration of H3O  = c.α

= 0.1 × 0.132

= 0.0132

Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry | Additional Study Material for Class 11

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FAQs on Ionic Equilibrium, NCERT Solutions, Class 11, Chemistry - Additional Study Material for Class 11

1. What is ionic equilibrium?
Ans. Ionic equilibrium refers to a state in which the rate of forward and backward reactions involving ions is equal. It occurs when an ionic compound dissolves in a solvent and the ions present in the compound dissociate into separate entities. The concentration of ions in the solution reaches a steady-state, resulting in an equilibrium.
2. How is ionic equilibrium different from chemical equilibrium?
Ans. Ionic equilibrium specifically refers to the equilibrium involving ions in a solution, whereas chemical equilibrium refers to the equilibrium between reactants and products in a chemical reaction. Ionic equilibrium focuses on the dissociation of ionic compounds and the concentration of ions in a solution, while chemical equilibrium deals with the balance between the concentrations of reactants and products.
3. What factors affect ionic equilibrium?
Ans. Several factors can affect ionic equilibrium. These include temperature, concentration of ions in the solution, nature and strength of the solvent, and the presence of any common ions. Changes in any of these factors can disrupt the equilibrium and shift the reaction towards the forward or backward direction.
4. How does temperature affect ionic equilibrium?
Ans. Temperature has a significant effect on ionic equilibrium. In general, an increase in temperature favors the endothermic reaction (reaction absorbs heat) and can shift the equilibrium towards the products. On the other hand, a decrease in temperature favors the exothermic reaction (reaction releases heat) and can shift the equilibrium towards the reactants.
5. What is the importance of ionic equilibrium in chemical reactions?
Ans. Ionic equilibrium is crucial in understanding and predicting the behavior of chemical reactions. It helps in determining the extent of ionization or dissociation of ionic compounds, calculating the concentration of ions in a solution, and predicting the solubility of salts. Additionally, it provides insights into the pH of solutions, acid-base reactions, and the formation of precipitates. Overall, a deep understanding of ionic equilibrium is essential for studying various aspects of chemical reactions.
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