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CHM 413 ADVANCED INORGANIC CHEMISTRY Spring 2004

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Includes the basic valence-shell electron pair repulsion. theory (VSEPR) through the valence bond to the ... The steric number, SN, is the number of positions ... – PowerPoint PPT presentation

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Title: CHM 413 ADVANCED INORGANIC CHEMISTRY Spring 2004


1
CHM 413 ADVANCED INORGANIC CHEMISTRYSpring 2004
  • CHAPTER 3
  • Simple Bonding Theory

2
Simple Bonding Theory
  • Includes the basic valence-shell electron pair
    repulsion
  • theory (VSEPR) through the valence bond to the
  • more advanced molecular theory (MO Theory)
  • Starting point Lewis electron-dot structures
  • - bonds are formed when two atoms share one or
  • more pairs of electrons
  • There are bonding pairs and lone pairs

3
  • Lewis structures are based on the octet rule
  • - this supposes that the most stable molecules
    are
  • formed when each atom acquires eight electrons in
    its
  • valence shell
  • Note in drawing Lewis structures only valence
  • electrons are used
  • Some atoms can also accommodate more than eight
    e-s
  • in their valence shell

4
  • Typically true for elements with n ? 3
  • - the elements are said to be hypervalent
  • Take a closer look at the Lewis structure for
    the CO32-
  • ion

Resonance hybrid ?
5
Formal Charges
  • Compounds that show resonance may not have
  • equal contribution from all structures
  • Calculating formal charges provide a useful way
    of
  • estimating contributions from resonance
    structures
  • The formal charge is not a real charge

6
  • Notes on formal charges
  • Sum of all FC charge on molecule or ion
  • Structures minimizing formal charges are most
    stable
  • Negative formal charges are likely to be found on
  • more electronegative atoms
  • 4. Like formal charges on adjacent atoms lead to
  • instability
  • 5. Big charge separation is unlikely

7
VSEPR Theory
  • Useful for predicting molecular shapes
  • Built on the primary assumption that electron
    pairs
  • repel each other and so occupy positions as far
    apart
  • as possible
  • A molecule typically described by AXmEn
  • - X atom or group of atoms E lone pair
  • The steric number, SN, is the number of
    positions
  • occupied by atoms or lone pairs around a central
    atom

8
  • The idealized geometry for AXn (n 1,2,3,4,6)
    is
  • that of the regular polyhedra with the same
  • number of vertices
  • AX3 trigonal planar AX4 tetrahedral
  • AX6 octahedral
  • For AX5 the geometry has two
  • types of vertices

trigonal bipyramidal
9
  • The presence of a lone pair has a profound
    effect
  • on molecular shape
  • Consider CH4, NH3, H2O

106.6 ?
104.5 ?
109.5 ?
Angular or bent
Trigonal pyramidal
Tetrahedral
10
  • The size of the central atom also has some
  • effect on bond angles
  • e.g. H2O gt H2S gt H2Se
  • Electronegativity is also another factor
    affecting
  • bond angles
  • e.g. OF2
  • Consider going from AX5 to AX4E (e.g. SF4)

11
Electronegativity
  • Electronegativity, ?, is an empirical measure
    of
  • the ability of an atom in a molecule to attract
    electrons
  • Consider two atoms A and B with different
  • electronegativities
  • DAB ½ (DAA DBB) D dissociation energy
  • This is not observed experimentally
  • DAB gt ½ (DAA DBB)
  • So ?AB DAB - ½ (DAA DBB)

12
  • Experimentally
  • ?A - ?B 0.102 ??AB
  • On this Pauling scale fluorine is the most
  • electronegative element with a value of 4.0
  • Other scales include the Allred-Rochow scale
  • ?AR 0.359 (Z/r2) 0.744
  • ? typically increases up a group and across a
    period

13
Polar Molecules
  • Polar bonds result when the two bonding atoms
  • have different electronegativities
  • The polarity of a bond can be defined in terms
    of its
  • dipole moment, ?
  • ? Q?r
  • where Q is difference in charge and r is the
  • separation of the charges

14
  • In general for a molecule with polar bonds to
  • be polar, the bonds must not be arranged
  • symmetrically
  • The polarity of molecules allow for very strong
  • interactions between such molecules
  • These interactions are called intermolecular
    forces
  • One of the strongest type of intermolecular
    forces is
  • the hydrogen bond

15
  • H-bonds are formed between molecules having
  • a hydrogen atom attached to a small highly
  • electronegative atom possessing a lone pair of
    electrons
  • H-bonds are very strong and have a significant
    impact
  • on the physical properties of substances that
    contain
  • them
  • London or dispersion forces are weak
    intermolecular
  • forces arising from polarization of molecules
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