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Equilibrium

Multiple Choice Questions

131.

The low solubility of LiF and that of CsI in water are respectively due to which of the following properties of the alkali metal ions?

Higher hydration enthalpy of Li, higher lattice enthalpy of Cs⁺
Smaller hydration enthalpy of Li, higher lattice enthalpy of Cs⁺
Smaller lattice enthalpy of Li, higher hydration enthalpy of Cs⁺
Higher lattice enthalpy of Li, smaller hydration enthalpy of Cs⁺

132.

The relative strength of trichlorides of boron group to accept a pair of electron is given by

GaCl₃ > AlCl₃ > BCl₃
AlCl₃ > BCl₃ > GaCl₃
AlCl₃ > GaCl₃ > BCl₃
BCl₃ > AlCl₃ > GaCl₃

133.

If the ionic product of M (OH)₂ is 5 × 10^-10, then the molar solubility of M(OH)₂ in 0.1 M NaOH is

5 × 10^-12 M
5 × 10^-8 M
5 × 10^-10 M
5 × 10^-9 M

134.
Equilibrium constants are given for the following two equilibria.
(i) A₂ (g) + B₂ (g) $⇌$ 2AB (g); K = 2 × 10^-4 L mol^-1
(ii) 2AB (g) + C₂ (g) $⇌$ 2ABC (g); K = 2 × 10^-2 L mol^-1
Calculate the equilibrium constant for the following equilibrium.
ABC (g) $⇌$ $\frac{1}{2}$ A₂ (g) + $\frac{1}{2}$ B₂ (g) + $\frac{1}{2}$ C₂ (g)

500 mol^1/2 L^-1/2

500 mol^1/2 L^1/2

4 × 10^-6 mol^1/2 L^1/2

200 mol^1/2 L^-1/2

500 mol^1/2 L^-1/2

A₂ (g) + B₂ (g) $⇌$ 2AB (g)

K₁ = 2 × 10^-4 L/mol

K₁ = $\frac{[{AB}^{2}]}{[A_{2}] [B_{2}]}$ ...(i)

2AB (g) + C₂(g) $⇌$ 2ABC (g)

K₂ = 2 × 10^-2L/mol

So, $K_{2} = \frac{{[ABC]}^{2}}{{[AB]}^{2} [C_{2}]}$ ...(ii)

ABC $⇌$ $\frac{1}{2}$ A₂ (g) + $\frac{1}{2}$ B₂ (g) + $\frac{1}{2}$ C₂ (g)

So, $K_{3} = \frac{{[A_{2}]}^{1 / 2} {[B_{2}]}^{1 / 2} {[C_{2}]}^{1 / 2}}{[ABC]}$ ...(iii)

Equation (i) and (ii) are added, reversed and divided by 2 then we get equation (iii).

Therefore, K₃ = $\frac{1}{\sqrt{K_{1} \times K_{2}}}$

= $\frac{1}{\sqrt{2 \times 10^{- 4} \times 2 \times 10^{- 2}}}$

= $\frac{1000}{2}$

= 500 mol^1/2 L^-1/2

135.

The equilibrium constant for the equilibrium PCl₅ (g) $⇌$ PCl₃ (g) + Cl₂ (g) at a particular temperature is 2 × 10^-2 mol L^-1. The number of moles of PCl₅ that must be taken in a one litre flask at the same temperature to obtain a concentration of 0.20 mole of chlorine at equilibrium is

136.

The correct increasing order of the acid strength of benzoic acid (I), 4-nitrobenzoic acid (II), 3,4-dinitrobenzoic acid (III) and 4-methoxybenzoic acid (IV) is

I < II < III < IV
II < I < IV < III
IV < I < II < III
IV < II < I < III

137.

Choose the correct order of decreasing basic strength of the following compounds in aqueous solution

(i) C₆H₅NH₂

(ii) C₂H₅NH₂

(iii) NH₃

(iv) (CH₃)₂NH

(i) > (ii) > (iii) > (iv)
(iv) > (ii) > (iii) > (i)
(ii) > (i) > (iii) > (iv)
(iv) > (iii) > (ii) > (i)

138.

The salt of an alkali metal gives violet colour in the flame test. Its aqueous solution gives a white precipitate with barium chloride in hydrochloric acid medium. The salt is

K₂SO₄
KCl
Na₂SO₄
K₂CO₃

139.

The values of limiting ionic conductance of H⁺ and HCOO^- ions are respectively 347 and 53S cm² mol^-1, the dissociation constant of methanoic acid at 298 K is

2.5 × 10^-4
2 × 10^-5
2.5 × 10^-5
1.5 × 10^-4

140.

In a closed cylinder of capacity 24.6 L, the following reaction occurs at 27°C.

A₂ (s) $⇌$ B₂ (s) + 2C (g)

At equilibrium, 1 gm of B₂ (s) (molar mass = 50 g mol^-1) is present. The equilibrium constant K_p for the equilibrium in atm² unit is

(R = 0.082 L atm K^-1 mol^-1)

1.6 × 10^-2
1.6 × 10^-5
1.6 × 10^-3
1.6 × 10^-4