Assign symmetry operations (Inorganic Chemistry) to the following molecules 1

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Assign symmetry operations (Inorganic Chemistry) to the following molecules 1. Binder Clip 2. I3- (including lone pairs) 3. PCl3F2 (isomers) 4. SF4 5. [PtCl3NH3]- (ignore Hs on N) square planar NH3 bonded through N Please explain how to do this.

The Correct Answer and Explanation is:

To assign symmetry operations to molecules in Inorganic Chemistry, follow these steps:

  1. Determine the molecular geometry. Use VSEPR theory or known geometry for the molecule.
  2. Visualize symmetry elements: These include:
    • Identity (E): present in all molecules.
    • Rotation axis (Cn): rotation by 360°/n gives an indistinguishable structure.
    • Mirror planes (σ): reflection symmetry.
    • Center of inversion (i).
    • Improper rotation (Sn): rotation followed by reflection through a plane perpendicular to the axis.

Now let’s apply these to the given molecules:

1. Binder Clip
Though not a molecule, it has a well-defined geometry.

  • Geometry: resembles a distorted triangular prism with metal arms.
  • Symmetry:
    • E
    • A C2 axis through the clip’s center (perpendicular to the flat triangular base)
    • σv plane through the arms
    • Point group: C2v

2. I₃⁻ (triiodide ion)

  • Linear molecule with lone pairs on the terminal I atoms
  • Symmetry operations:
    • E
    • C∞ axis (infinite-fold rotation)
    • ∞ σv planes (vertical)
    • i (inversion center at central I)
    • S∞ (improper axis)
    • Point group: D∞h

3. PCl₃F₂

  • Trigonal bipyramidal geometry
  • Isomers:
    • Axial F atoms:
      • E, C3, 3 σv
      • Point group: D3h
    • Equatorial F atoms:
      • Lower symmetry
      • Only E and one σv
      • Point group: Cs

4. SF₄

  • Seesaw shape (AX₄E)
  • Geometry lacks symmetry due to lone pair
  • Symmetry elements:
    • E
    • C2 axis (through S and lone pair)
    • One σv plane (contains C2 and equatorial F atoms)
    • Point group: C2v

5. [PtCl₃NH₃]⁻ (square planar)

  • Geometry: square planar around Pt
  • NH₃ occupies one position; Cl atoms the rest
  • Symmetry:
    • E
    • One σv through NH₃ and opposite Cl
    • No C2 due to different ligand
    • Point group: Cs

Summary:
Symmetry assignment involves identifying geometry, visualizing elements like rotation axes and mirror planes, and matching these to known point groups. This helps understand molecular vibrations, spectroscopy, and reactivity.

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