Equilibrium MCQs | Next 100 Questions | Class 11 Chemistry
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Equilibrium MCQs with Answers – Part 2 (Class 11 Chemistry)

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101. The equilibrium \(\mathrm{Fe^{3+}(aq)+SCN^-(aq)\rightleftharpoons FeSCN^{2+}(aq)}\) has \(K_c\) equal to
ⓐ. \(\frac{[\mathrm{Fe^{3+}}]+[\mathrm{SCN^-}]}{[\mathrm{FeSCN^{2+}}]}\)
ⓑ. \([\mathrm{FeSCN^{2+}}][\mathrm{Fe^{3+}}][\mathrm{SCN^-}]\)
ⓒ. \(\frac{[\mathrm{FeSCN^{2+}}]}{[\mathrm{Fe^{3+}}][\mathrm{SCN^-}]}\)
ⓓ. \(\frac{[\mathrm{Fe^{3+}}][\mathrm{SCN^-}]}{[\mathrm{FeSCN^{2+}}]}\)
102. A \(K_c\) expression for \(\mathrm{2A(aq)+B(aq)\rightleftharpoons3C(aq)}\) is being checked. The exponent on \([\mathrm{C}]\) must be \(3\) because
ⓐ. aqueous species always receive exponent \(3\)
ⓑ. \(\mathrm{C}\) is a product with coefficient \(3\)
ⓒ. \(\mathrm{C}\) is the third letter in the equation
ⓓ. there are three different species in the reaction
103. For a fixed balanced reaction, the value of \(K_c\) changes when
ⓐ. the temperature is changed
ⓑ. the same equilibrium mixture is placed in a darker room
ⓒ. the initial concentration is changed at the same temperature
ⓓ. a catalyst is added at the same temperature
104. A data record gives two equilibrium mixtures for the same reaction \(\mathrm{A(g)\rightleftharpoons B(g)}\) at the same temperature.
Mixture\([\mathrm{A}]\)\([\mathrm{B}]\)
P\(0.20\,\text{M}\)\(0.60\,\text{M}\)
Q\(0.40\,\text{M}\)\(1.20\,\text{M}\)
The best conclusion is that
ⓐ. only mixture Q can be at equilibrium
ⓑ. neither can be at equilibrium because \([\mathrm{A}]\neq[\mathrm{B}]\)
ⓒ. only mixture P can be at equilibrium
ⓓ. both give the same \(K_c\) ratio
105. A value of \(K_c\) much greater than \(1\) for a reversible reaction usually indicates that, at equilibrium,
ⓐ. products are favoured over reactants
ⓑ. reactants and products must have equal concentrations
ⓒ. the forward reaction has stopped completely
ⓓ. the reaction is impossible in the reverse direction
106. For a reaction with \(K_c\ll1\), the safest conclusion about the equilibrium mixture is that
ⓐ. it contains no products at all
ⓑ. it is reactant-favoured
ⓒ. it is not a reversible reaction
ⓓ. it must have equal forward and reverse concentrations
107. For \(\mathrm{A(g)\rightleftharpoons B(g)}\), \(K_c=4.0\) at a certain temperature. If \([\mathrm{A}]=0.25\,\text{M}\) at equilibrium, the equilibrium concentration of \(\mathrm{B}\) is
ⓐ. \(4.25\,\text{M}\)
ⓑ. \(0.25\,\text{M}\)
ⓒ. \(1.0\,\text{M}\)
ⓓ. \(0.0625\,\text{M}\)
108. The unit of \(K_c\) for \(\mathrm{N_2(g)+3H_2(g)\rightleftharpoons2NH_3(g)}\), when concentration is reported in \(\text{mol L}^{-1}\), is
ⓐ. \(\text{mol}^2\text{L}^{-2}\)
ⓑ. no unit because every \(K_c\) is unitless
ⓒ. \(\text{mol L}^{-1}\)
ⓓ. \(\text{L}^2\text{mol}^{-2}\)
109. The unit of \(K_c\) becomes absent in the concentration-unit method for a reaction such as
ⓐ. \(\mathrm{2SO_2(g)+O_2(g)\rightleftharpoons2SO_3(g)}\)
ⓑ. \(\mathrm{N_2(g)+3H_2(g)\rightleftharpoons2NH_3(g)}\)
ⓒ. \(\mathrm{H_2(g)+I_2(g)\rightleftharpoons2HI(g)}\)
ⓓ. \(\mathrm{PCl_5(g)\rightleftharpoons PCl_3(g)+Cl_2(g)}\)
110. A table gives possible meanings of \(K_c\) for the same reaction at fixed temperature.
CaseClaim about \(K_c\)
PIt is calculated from equilibrium concentrations.
QIt changes whenever a catalyst is added.
RIts magnitude helps judge whether products or reactants are favoured.
SIt is written without using the balanced equation.
The two acceptable claims are
ⓐ. R and S
ⓑ. P and R
ⓒ. P and Q
ⓓ. Q and S
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