Shapes of Molecules and Intermolecular Forces

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  • a solid line represents a bond in the plane of the paper
  • a solid wedge represents a bond coming out of the plane of the paper
  • a dotted wedge represents a bond going into the plane of the paper
  • a lone pair is slightly closer to the central atom which occupies more space than a bonded pair. this results in a lone pair repelling more strongly than a bonding pair.
  • electronegativity is the attraction of a bonded atom for the pair of electrons in a covalent bond.
  • paulings electronegativity values depend on the elements position in the periodic table. across the periodic table:

    nuclear charge increases
    atomic radius decreases
  • what are the most electronegative atoms?
    nitrogen, oxygen, fluorine and chlorine
  • what are the least electronegative atoms?
    group one metals, including lithium, sodium and potassium.
  • in a non polar bond, the bonded electron pair is shared equally between the bonded atoms.
  • a bond is non polar when
    the bonded atoms are the same
    the bonded atoms have the same or similar electronegativity
  • in molecules where the atoms come from the same element, the electron pair is shared equally and so is a pure covalent bond
  • in a polar bond, the bonded electron pair is shared unequally between the bonded atoms. a bond is polar when the bonded atoms have different electronegativity values, resulting in a polar covalent bond.
  • what is a dipole?
    a separation in opposite charges
  • the atom with the larger electronegativity value has the δ \delta-\ charge
  • a dipole in a polar covalent bond does not change and is called a permanent dipole dipole
  • london forces (induced dipole-dipole)

    exists between all molecules
    are only temporary
  • the more electrons in each molecule:
    the larger the instantaneous and induced dipoles
    the greater the induced dipole-dipole interactions
    the stronger the attractive forces between molecules
  • larger number of electrons mean larger induced dipoles. more energy is needed to overcome the intermolecular forces, increasing the boiling points
  • in a simple molecular lattice, weak intermolecular forces can be broken easily at low temperatures.
  • when a simple molecular structure is broken apart during melting, only the weak inter molecular forces break. covalent bonds are strong and do not break.
  • non polar simple molecular substances tend to be soluble in non polar solvents
  • why cant simple molecular structures conduct electricity?
    there are no moving charged particles that can move, so nothing can complete an electric circuit.
  • hydrogen bond a special type of permanent dipole-dipole interaction found between molecules containing
    an electronegative atom with a lone pair of electrons (NOF)
    a hydrogen atom attached to an electronegative atom
  • london forces
    when electrons in one atom move to one side spontaneously, causing neighbouring atoms electrons to repel, creating a dipole
  • what are the strongest IMF's
    hydrogen bonds
  • why is ice less dense than water?

    hydrogen bonds hold water molecules apart in an open lattice structure
    water molecules in ice are further apart
  • permanent dipoles
    between a carbon and group seven element. will occasionally have the delta negative/positive signs
  • sigma bond
    when a shared pair of electrons is directly shared along an internuclear axis
  • pure covalent
    electronegativity difference <0.4
  • polar covalent
    electronegativity difference between 0.4 and 1.8
  • ionic bond
    electronegativity difference >1.8