Equilibrium MCQs | Again 100 Questions | Class 11 Chemistry
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Equilibrium MCQs with Answers – Part 3 (Class 11 Chemistry)

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201. A reversible reaction has \(K=10^{-3}\) at a certain temperature. The sign of \(\Delta G^\circ\) for the written reaction is
ⓐ. negative
ⓑ. positive
ⓒ. unrelated to \(K\)
ⓓ. always zero
202. At \(298\,\text{K}\), a reaction has \(K=10\). Using \(R=8.314\,\text{J mol}^{-1}\text{K}^{-1}\) and \(\ln 10=2.303\), \(\Delta G^\circ\) is closest to
ⓐ. \(-24.8\,\text{kJ mol}^{-1}\)
ⓑ. \(+24.8\,\text{kJ mol}^{-1}\)
ⓒ. \(-5.71\,\text{kJ mol}^{-1}\)
ⓓ. \(+5.71\,\text{kJ mol}^{-1}\)
203. Consider the following statements about \(K\) and \(\Delta G^\circ\): I. A larger \(K\) generally corresponds to a more negative \(\Delta G^\circ\). II. If \(K\lt1\), then \(\Delta G^\circ\) is positive for the written reaction. III. At equilibrium, \(\Delta G=0\), but \(\Delta G^\circ\) need not be zero.
ⓐ. I and II only
ⓑ. I and III only
ⓒ. II and III only
ⓓ. I, II and III
204. A claim says, “At equilibrium, \(\Delta G^\circ\) must be zero because the reaction has no net change.” The better interpretation is that
ⓐ. \(\Delta G=0\) at equilibrium
ⓑ. \(K\) must always be equal to \(0\) at equilibrium
ⓒ. \(\Delta G\) and \(\Delta G^\circ\) are always identical
ⓓ. \(\Delta G^\circ=0\) for every reversible reaction
205. Le Chatelier principle is used to predict how an equilibrium system responds when
ⓐ. conditions are disturbed
ⓑ. all reacting particles stop moving permanently
ⓒ. the balanced equation is ignored
ⓓ. the equilibrium constant is removed from the reaction
206. At fixed temperature, adding more reactant to a reversible reaction mixture usually causes the system to
ⓐ. make reactant and product concentrations equal
ⓑ. shift toward consuming the added reactant
ⓒ. change the value of \(K\) immediately
ⓓ. stop both forward and reverse reactions
207. A product is removed from the equilibrium mixture \(\mathrm{A(g)+B(g)\rightleftharpoons C(g)}\) at constant temperature. The immediate response is best described as
ⓐ. no change because product concentration is irrelevant
ⓑ. a change in \(K_c\) without any shift
ⓒ. a shift toward reactants
ⓓ. a shift toward products
208. At fixed temperature, a concentration change affects \(Q\) immediately, while \(K\)
ⓐ. changes only if the container is open
ⓑ. becomes zero until equilibrium returns
ⓒ. \(K\) remains constant at fixed temperature
ⓓ. changes in the same direction as \(Q\)
209. For \(\mathrm{A(g)+B(g)\rightleftharpoons C(g)}\), an equilibrium mixture has \(K_c=4.0\), \([\mathrm{A}]=0.50\,\text{M}\), \([\mathrm{B}]=0.50\,\text{M}\), and \([\mathrm{C}]=1.00\,\text{M}\). Extra \(\mathrm{A}\) is added suddenly so that \([\mathrm{A}]\) becomes \(1.00\,\text{M}\) before any shift occurs. The initial shift is
ⓐ. reverse
ⓑ. no net shift
ⓒ. forward
ⓓ. impossible to decide without changing \(K_c\)
210. For \(\mathrm{A(g)\rightleftharpoons B(g)}\), a mixture is at equilibrium with \(K_c=3.0\). Some \(\mathrm{B}\) is removed suddenly. The system then shifts forward because
ⓐ. \(K_c\) becomes zero
ⓑ. \(Q_c\) becomes smaller than \(K_c\)
ⓒ. \(K_c\) becomes smaller than \(Q_c\)
ⓓ. \(Q_c\) becomes larger than \(K_c\)
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