Chapter 13 - Alkenes

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Created by
Harry Collins

Cards (11)

  • Properties of Alkenes:
    • Alkenes are unsaturated hydrocarbons
    • C(n)H(2n)
    • Alkenes can be branched, contain more than one double bond, or be cyclic
    • Alkenes with more than one double bond or are cyclic do not have the normal formula
  • Composition of C=C
    • One sigma bond, one pi bond
    • Formed from the sideways overlap of 2p atomic orbitals
    • The Pi electron density is concentrated above and below sigma bond
    • The Pi bond locks two carbon atoms in position, preventing rotation around the double bond
  • Stereoisomerism:
    • Stereoisomers have the same molecular and structural formula
    • But a different arrangement of atoms in space
  • Features of Stereoisomerism:
    • E/Z isomerism Occurs in compounds with a C=C double bond because restricted rotation
    • Two different atoms/ groups of atoms on each carbon of the C=C
  • Requirements for cis-trans isomerism:
    • C=C double bond
    • Each C must be attached to two different groups
    • One of attached groups on each C atom of the double bond must be the same
  • E/Z isomerism:
    • If groups on higher priority are on the same side of double bond, compound is Z isomer
    • If groups of higher priority are diagonally placed across the double bond, compound is E isomer
  • Reactions of Alkenes:
    • Alkenes are more reactive than Alkanes because of the pi bond
    • The pi electrons being on the outside of the double bond are more exposed than the electrons in the sigma bond
    • The pi bond breaks more readily so Alkenes undergo addition reactions
  • Electrophiles:
    • An atom (or group of) that is attracted to an electron rich centre and accepts an electron pair, usually a positive ion or molecule, containing an atom with a partial positive charge
  • Electrophillic addition:
    Ethene + Bromine —> Dibromoethane
  • Markownikoff’s Rule
    • When a hydrogen halide reacts with an unsymmetrical alkene, the hydrogen halide attaches itself to the C atom of the alkene with the greater number of hydrogens and smaller number of carbons.
  • Carbocations:
    • Classified by the number of Alkyl groups attached to the positive charged C atom
    • Alkyl groups donate and push electrons towards the positive charge of the Carbocation
    • The more alkyl groups attached to the positively charged C atom, the more charge is spread out and the more stable the carbocation is