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CHEMICAL BONDING

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... 1) are least electronegative, halogens (group 7) are most electronegative; ... O is more electronegative than H water is polar molecule, more negative near O ... – PowerPoint PPT presentation

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Title: CHEMICAL BONDING


1
CHEMICAL BONDING
  • Why bond?
  • Atoms try to acquire particularly stable electron
    configuration (i.e the configuration maximizing
    binding energy) for their outer electrons ?
    form ions or molecules.
  • Most stable configuration for outer electrons is
    noble gas configuration (octet structure)
    ns2np6
  • strategies to achieve more stable configuration
  • give away electrons
  • accept electrons
  • share electrons
  • chemical bond is formed when it is energetically
    favorable, i.e., when the energy of the bonded
    atoms is less than the energies of the separated
    atoms.
  • Quantities which play a role in chemical bonding
  • ionization energy (the energy required to remove
    an electron from a neutral atom)
  • electron affinity (the energy change when a
    neutral atom attracts an electron to become a
    negative ion)
  • electronegativity (the ability of an atom in a
    molecule to draw bonding electrons to itself)
  • types of bonds
  • ionic bond
  • covalent bond
  • metallic bond

2
IONIC BOND
  • atoms achieve noble gas configuration by giving
    up or accepting electrons (usually electron
    transfer from metal to non-metal) ? formation of
    ion
  • chemical bond is formed due to electrostatic
    attraction between two oppositely charged ions
  • bond is strong, but becomes quickly weak when ion
    is displaced ? materials usually brittle (e.g.
    glass, rock, egg shells,..)
  • compounds formed by ionic bond e.g. NaCl,
    CaCl2,..
  • examples of ions with noble gas configuration

3
METALLIC BOND
  • metals have low ionization energy ? atoms give up
    outer (valence) electron, to be shared by all
  • metallic lattice positive ions at fixed
    positions, in sea or gas of mobile electrons
  • electron gas has pressure due to Pauli
    principle
  • electrons mobile ? good thermal and electrical
    conductivity
  • positive ions not free to move, but can vibrate
  • electron not tied down in particular bond ? can
    absorb and re-emit light over wide frequency
    range ? good reflector
  • bond is elastic since attraction due to mobile
    electrons bond holds even if ions displaced ?
    metals are malleable
  • ability of the electrons to spread between the
    cations and neutralize their charges ? metal ions
    ions can pack closely together closeness of the
    packing of the atoms ? high densities of metals.
  • In some sense, piece of metal is like an
    extremely large molecule

4
Covalent Bond
  • COVALENT BOND
  • well-defined cluster of neighboring atoms share
    electrons - form molecule
  • state with shared electrons has lower energy than
    individual atoms
  • valence electrons outer electrons
  • group number number of valence electrons
  • valence of element number of electron pairs
    shared to complete octet of electrons
  • examples H2 , O2 , N2
  • in H2, H atoms share one electron pair
  • n O2, O atoms share two electron pairs
  • in N2, N atoms share three electron pairs
  • single H, O, N (in statu nascendi) are much
    more reactive than pair
  • Carbon
  • Carbon's outer electron configuration is4s2 4p2
    ? it needs 4 electrons to complete octet ?
    shares 4 pairs of electrons
  • e.g. methane (swamp gas)
  • possibility of 4 covalent bonds ? large variety
    of possible compounds with C ? organic chemistry

5
Polar bonds
  • POLAR BONDS
  • Electron pairs shared between two different atoms
    not necessarily shared equally - sharing ratio
    depends on electronegativity
  • electronegativity ability of atom to attract
    an electron to itself
  • electronegativity increases from left to right
    (i.e. grows with group number) in every row of
    the periodic table
  • alkali metals (group 1) are least
    electronegative, halogens (group 7) are most
    electronegative
  • non-polar bond bond in which electrons are
    shared equally
  • polar covalent bond bond in which one of the
    atoms exerts greater attraction for the electrons
    than the other (has larger electronegativity)
  • if difference in electronegativity is large
    enough, bond becomes ionic bond
  • GEOMETRY OF BONDS
  • electron-pair repulsion rule (EPRR)
  • Electron pairs surrounding an atom (be they
    shared or un-shared with other atom) repel each
    other and are directed to be as far apart as
    possible. (example water molecule)

6
INTER-MOLECULAR FORCES
  • electric dipole forces polar molecules exert
    electric dipole forces on each other
  • e.g. water molecule H() attracted to (-)
    partner of other molecule (oxygen of other water
    molecule, or solute constituent) ? hydrogen
    bond
  • hydrogen bond is reason for water to be liquid at
    normal temperatures (note e.g. CO2 , CH4 are
    gases!)
  • Van der Waals forces
  • fluctuations, shifts of charges within covalent
    molecule ? temporary dipole moment ?
    electrostatic dipole forces
  • charge unbalances small ? forces weak (Van der
    Waals binding energies are ? 10-2eV )
  • most liquids held together by VdW forces,
  • cohesion, surface tension

7
Water
  • water molecule
  • oxygen in water has 4 electron pairs, 2 shared
    and 2 unshared
  • EPRR e-pairs point to corners of tetrahedron,
    with O atom in center of tetrahedron,
  • H atoms sit at two of the corners of the
    tetrahedron ?
    constituents of water form triangle angle
    between the two lines from O to H is 105o
    (109o predicted from this model)
  • Mickey Mouse shape of water molecule
  • O is more electronegative than H ? water is polar
    molecule, more negative near O atom, more
    positive near H atoms.
  • polarity of water molecule ? good solvent

8
  • Water and Ice

9
  • Why ice is less dense than liquid water
  • water is most dense as a liquid and least dense
    as a gas solid water (ice) is less dense than
    liquid water, but more dense than a gas
  • water vapor (gaseous water) is made up of
    individual water molecules that are not hydrogen
    bonded to other water molecules
  • cooling, pressure ? hydrogen bonds form ? liquid
    but in liquid, hydrogen bonds keep forming and
    breaking up on average every water molecule in
    3.4 H-bonds
  • at 4oC, water molecules as tightly packed as
    they will go
  • below 4oC , more and more stable hydrogen bonds
    form, eventually reaching 4 per molecule the
    hydrogen bonds push the water molecules further
    apart, making it less dense? ice floats on water

10
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