The D-and F-Block Elements MCQs With Answers – Part 2 (Class 12 Chemistry)
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The d-and f-Block Elements MCQs with Answers – Part 2 (Class 12 Chemistry)

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101. A data passage describes a transition series in which melting points rise toward the middle, one central element lies unexpectedly below neighbouring values, and the values fall strongly near the \(d^{10}\) end. This pattern shows that:
ⓐ. atomic mass alone determines the melting point throughout a transition series
ⓑ. a broad metallic-bonding trend is modified by configuration-dependent anomalies
ⓒ. the middle of every transition series must contain its lowest-melting element
ⓓ. a completely filled \(d\) subshell invariably strengthens metallic bonding
102. Transition metals generally have high densities because they commonly possess:
ⓐ. high atomic masses and compact atomic volumes
ⓑ. low atomic masses and very large atomic radii
ⓒ. loosely packed metallic lattices with large atomic volumes
ⓓ. a small number of occupied electron shells
103. Use the graph description below. The vertical axis represents density and the horizontal axis moves across much of a transition series. Curve P generally rises with small irregularities. Curve Q falls steadily to zero. Curve R remains exactly constant, while Curve S alternates between extremely high and negligible values. The most suitable curve is:
ⓐ. Curve R
ⓑ. Curve S
ⓒ. Curve Q
ⓓ. Curve P
104. Equal-mass samples of transition metals X and Y have densities \(7.2\,g\,cm^{-3}\) and \(9.0\,g\,cm^{-3}\), respectively. Together, the two samples occupy \(45.0\,cm^3\). The mass of each sample and the sample occupying the larger volume are:
ⓐ. \(144\,g\); sample X
ⓑ. \(180\,g\); sample Y
ⓒ. \(180\,g\); sample X
ⓓ. \(360\,g\); sample Y
105. Later \(5d\) transition metals can possess exceptionally high densities mainly because they combine:
ⓐ. large atomic masses and compact atomic sizes
ⓑ. small atomic masses with expanded electron clouds
ⓒ. loose metallic packing with enlarged atomic volumes
ⓓ. atomic volumes increasing faster than atomic masses
106. Metal P has relative atomic mass \(100\) and relative atomic volume \(20.0\), while metal Q has relative atomic mass \(120\) and relative atomic volume \(22.0\). Metal R has relative atomic mass \(150\) and the same relative density as Q. Using \[ \rho\propto\frac{\text{relative atomic mass}}{\text{relative atomic volume}}, \] the required relative atomic volume of R and the density order are:
ⓐ. \(25.0\); \(\rho_R\gt\rho_Q\gt\rho_P\)
ⓑ. \(27.5\); \(\rho_P\gt\rho_Q=\rho_R\)
ⓒ. \(27.5\); \(\rho_Q=\rho_R\gt\rho_P\)
ⓓ. \(33.0\); \(\rho_P=\rho_Q\gt\rho_R\)
107. Transition elements commonly exhibit variable oxidation states because:
ⓐ. only electrons belonging to the inner noble-gas core participate in bonding
ⓑ. the \((n-1)d\) subshell remains completely filled in all their compounds
ⓒ. the outer \(ns\) electrons are too strongly bound to be removed during oxidation
ⓓ. the \(ns\) and \((n-1)d\) electrons have similar energies and can both enter bonding
108. Assertion: Transition elements near the middle of a series generally show a wider range of oxidation states than elements near either end. Reason: Near the middle, a larger number of \(ns\) and \((n-1)d\) electrons can participate in bonding without the \(d\) subshell being initially empty or completely filled.
ⓐ. Both Assertion and Reason are true, and Reason explains Assertion
ⓑ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓒ. Assertion is true, but Reason is false
ⓓ. Assertion is false, but Reason is true
109. A metal atom has the valence configuration \((n-1)d^5ns^2\). Compared with an element having \((n-1)d^{10}ns^2\), the first metal is more likely to show several oxidation states because it:
ⓐ. contains no \((n-1)d\) valence electrons
ⓑ. has several \(d\) and \(s\) electrons available for bonding
ⓒ. must lose all seven valence electrons in every compound
ⓓ. possesses an inert \(d^5\) subshell under all conditions
110. A learner states, “Variable oxidation states arise only because transition metals can lose their outer \(ns\) electrons.” The best correction is:
ⓐ. the statement is incorrect because only noble-gas-core electrons are removed
ⓑ. the statement is correct because \(d\) electrons never take part in bonding
ⓒ. the statement is incomplete because \(d\) electrons may also be removed
ⓓ. the statement is correct only for elements near the middle of a series
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