Chemistry
Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Chapter 21, Problem 3RQ
Interpretation Introduction

Interpretation: The geometries and bond angle for the metal ion having coordination number 2 , 4 or 6 ; the correct formulas for given complex ions and their electronic configuration are to be stated.

Concept introduction: Coordination number is the number of nearest neighbors of the given metal ion. The geometry of a coordination complex depends on the number of ligands that are surrounding a metal ion.

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Answer to Problem 3RQ

Answer

When a metal ion has a coordination number of 2 , 4 or 6 , it has geometry as linear with a bond angle of 180°, tetrahedral with a bond angle of 109.5° or square planar with a bond angle of 90° and octahedral with a bond angle as 90° respectively.

  1. I. The formulas for the given complex ions are,

    a. The formula of the complex is [Ag(CN)2] and bond angle is 180°.

b. The formula of the complex is [Cu(H2O)4]+ and bond angle is 109.5°.

c. The formula of the complex is [Mn(C2O4)2]2 and bond angle is 90°.

d. The formula of the complex is [Pt(NH3)4]2+ and bond angle is 90°.

e. The formula of the complex is [Fe(EDTA)] and bond angle is 90°.

d. The formula of the complex is [CoCl6]2+ and bond angle is 90°.

f. The formula of the complex is [Cr(en)3]3+ and bond angle is 90°.

  1. II. The electronic configuration of metal ion in each of the complex ion is,
  2. a. The electronic configuration of Ag+ is [Kr]4d10.
  3. b. The electronic configuration of Cu+ is [Ar]3d10.
  4. c. The electronic configuration of Mn2+ is [Ar]3d54s1.
  5. d. The electronic configuration of Pt2+ is [Xe]4f145d8.
  6. e. The electronic configuration of Fe3+ is [Ar]3d5.
  7. f. The electronic configuration of Co2+ is [Ar]3d7.

Explanation of Solution

(I)

To determine: The geometry and associated bond angles when a metal ion has a coordination number of 2 , 4 or 6 .

When a metal ion has a coordination number of 2 , it means it is linear in geometry and has a bond angle of 180°. But, when the metal ion has coordination number of 4 it means it is surrounded by four neighbors and therefore the geometry is tetrahedral and the angle is 109.5° or it can be square planar where the bond angle is 90°. When a metal ion has a coordination number of 6 , it means it is surrounded by six neighbours and has geometry as octahedral and bond angle equal to 90°.

(II)

(a)

To determine: The correct formula for the linear Ag+ complex having CN ligands.

Linear geometry shows that Ag+ is surrounded by two ligands and therefore it has a coordination number of 2 . The formula of the complex is [Ag(CN)2] and bond angle is 180°.

(b)

To determine: The correct formula for tetrahedral Cu+ complex having H2O ligands.

Tetrahedral geometry shows that Cu+ is surrounded by four ligands and therefore it has a coordination number of 4. The formula of the complex is [Cu(H2O)4]+ and bond angle is 109.5°.

(c)

To determine: The correct formula for tetrahedral Mn2+ complex having Oxalate ligands.

Tetrahedral geometry shows that Mn2+ is surrounded by four ligands and therefore it has a coordination number of 4. The formula of the complex is [Mn(C2O4)2]2 and bond angle is 90°.

(d)

To determine: The correct formula for square planar Pt2+ complex having NH3 ligands.

Square planar geometry shows that Pt2+ is surrounded by four ligands and therefore it has a coordination number of 4. The formula of the complex is [Pt(NH3)4]2+ and bond angle is 90°.

(e)

To determine: The correct formula for octahedral Fe3+ complex ions having EDTA ligands.

An octahedral geometry shows that Fe3+ is surrounded by six ligands and therefore it has a coordination number of 6 . The formula of the complex is [Fe(EDTA)] and bond angle is 90°.

(f)

To determine: The correct formula for octahedral Co2+ complex ions having Cl ligands.

An octahedral geometry shows that Co2+ is surrounded by six ligands and therefore it has a coordination number of 6 . The formula of the complex is [CoCl6]2+ and bond angle is 90°.

(g)

To determine: The correct formula for octahedral Cr3+ complex ions having ethylene-diamine ligands.

Step: 7

An octahedral geometry shows that Cr3+ is surrounded by six ligands and therefore it has a coordination number of 6 . The formula of the complex is [Cr(en)3]3+ and bond angle is 90°.

(III)

(a)

To determine: The electronic configuration for the linear Ag+ complex having CN ligands.

The electronic configuration of Ag is [Kr]4d105s1. After removal of one electron it gets converted to Ag+ and electronic configuration therefore changes to [Kr]4d10.

(b)

To determine: The electronic configuration for tetrahedral Cu+ complex having H2O ligands.

The electronic configuration of Cu is [Ar]3d104s1. After removal of one electron it gets converted to Cu+ and electronic configuration therefore changes to [Ar]3d10.

(c)

To determine: The electronic configuration for tetrahedral Mn2+ complex having Oxalate ligands.

The electronic configuration of Mn is [Ar]3d54s2. After removal of two electrons, it gets converted to Mn2+ and electronic configuration therefore changes to [Ar]3d5.

(d)

To determine: The electronic configuration for square planar Pt2+ complex having NH3 ligands.

The electronic configuration of Pt is [Xe]4f145d96s1. After removal of two electrons, it gets converted to Pt2+ and electronic configuration therefore changes to [Xe]4f145d8.

(e)

To determine: The electronic configuration for octahedral Fe3+ complex ions having EDTA ligands.

The electronic configuration of Fe is [Ar]3d64s2. After removal of three electrons it gets converted to Fe3+ and electronic configuration therefore changes to [Ar]3d5.

(f)

To determine: The electronic configuration for octahedral Co2+ complex ions having Cl ligands.

The electronic configuration of Co is [Ar]3d74s2. After removal of two electrons it gets converted to Co2+ and electronic configuration therefore changes to [Ar]3d7.

(g)

To determine: The correct electronic configuration for octahedral Cr3+ complex ions having ethylene-diamine ligands.

The electronic configuration of Cr is [Ar]3d54s1. After removal of three electrons, it gets converted to Cr3+ and electronic configuration therefore changes to [Ar]3d3.

Conclusion

Conclusion

The coordination number and the availability of orbitals decide the geometry of the coordination compound and the removal of electron from a metal occurs from the shell that is far from the influence of nucleus that is the outermost shell.

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Chapter 21 Solutions

Chemistry

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