Coordination Compounds MCQs With Answers – Part 2 (Class 12 Chemistry)
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Coordination Compounds MCQs with Answers – Part 2 (Class 12 Chemistry)

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111. An entity contains one bidentate \(\mathrm{en}\) ligand, one bidentate oxalato ligand, and two monodentate \(\mathrm{NH_3}\) ligands. Its coordination number and total number of ligand particles are respectively:
ⓐ. \(4\) and \(6\)
ⓑ. \(5\) and \(4\)
ⓒ. \(6\) and \(6\)
ⓓ. \(6\) and \(4\)
112. For \(\mathrm{[Cr(NH_3)_4Cl_2]Cl}\), the oxidation state of chromium, charge on the coordination entity, and coordination number are respectively:
ⓐ. \(+2\), \(1+\), and \(4\)
ⓑ. \(+3\), \(2+\), and \(6\)
ⓒ. \(+3\), \(1+\), and \(6\)
ⓓ. \(+1\), \(1+\), and \(5\)
113. Consider the following statements. Statement I: Coordination number counts directly bonded donor atoms. Statement II: Oxidation state is obtained by algebraic charge balance. Statement III: Coordination number must always equal the charge on the coordination entity. Statement IV: The number of ligand particles may be smaller than the coordination number. The valid statements are:
ⓐ. I and III only
ⓑ. I, II and IV only
ⓒ. II and III only
ⓓ. I, II, III and IV
114. A six-coordinate entity has the formula \(\mathrm{[M(dien)(NH_3)_x]^{q}}\), where \(\mathrm{dien}\) is tridentate and every \(\mathrm{NH_3}\) is monodentate. The value of \(x\) and the total number of ligand particles are:
ⓐ. \(x=2\) and \(3\) particles
ⓑ. \(x=6\) and \(7\) particles
ⓒ. \(x=1\) and \(4\) particles
ⓓ. \(x=3\) and \(4\) particles
115. Study the coordination-number assignments.
EntityAssigned coordination number
P. \(\mathrm{[Ag(NH_3)_2]^+}\)\(2\)
Q. \(\mathrm{[Co(en)_3]^{3+}}\)\(3\)
R. \(\mathrm{[NiCl_4]^{2-}}\)\(4\)
S. \(\mathrm{[M(EDTA)]^{n-}}\)\(6\), when \(\mathrm{EDTA^{4-}}\) is hexadentate
The inconsistent row is:
ⓐ. P
ⓑ. R
ⓒ. Q
ⓓ. S
116. Complex \(P\) contains six monodentate ligands, complex \(Q\) contains three bidentate ligands, and complex \(R\) contains two tridentate ligands. If all donor sites are coordinated, the three complexes:
ⓐ. ligand counts \(6\), \(3\), \(2\); coordination number \(6\) throughout
ⓑ. have coordination numbers \(6\), \(3\), and \(2\), respectively
ⓒ. have equal ligand counts but different coordination numbers
ⓓ. must have identical charges and oxidation states
117. A \(0.25\,\mathrm{mol}\) sample of \(\mathrm{[M(en)_3]^{n+}}\) contains how many moles of metal–nitrogen coordinate bonds, assuming each \(\mathrm{en}\) ligand is bidentate?
ⓐ. \(0.50\,\mathrm{mol}\)
ⓑ. \(0.75\,\mathrm{mol}\)
ⓒ. \(1.00\,\mathrm{mol}\)
ⓓ. \(1.50\,\mathrm{mol}\)
118. An octahedral entity contains two bidentate oxalato ligands and \(x\) monodentate aqua ligands. The value of \(x\) is:
ⓐ. \(2\)
ⓑ. \(1\)
ⓒ. \(4\)
ⓓ. \(6\)
119. Use the arrangement described below: four donor atoms surround a metal so that all four lie in one plane, adjacent donor positions are separated by \(90^\circ\), and opposite positions by \(180^\circ\). The geometry is:
ⓐ. tetrahedral arrangement
ⓑ. square planar
ⓒ. linear arrangement
ⓓ. octahedral arrangement
120. The different geometries of \(\mathrm{[NiCl_4]^{2-}}\) and \(\mathrm{[Ni(CN)_4]^{2-}}\), despite both having coordination number \(4\), are respectively:
ⓐ. square planar and tetrahedral
ⓑ. tetrahedral and square planar
ⓒ. linear and square planar
ⓓ. octahedral and tetrahedral
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