ionic/covalent structures

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Created by
amelija

Cards (21)

  • what are the 3 types of bond?

    metallic, ionic, covalent
  • what happens to electrons when an ionic bond is formed?
    transferred
  • what type of elements will form ionic bonds?
    metals and non metals
  • what is the charge of the ions formed from elements in groups 1,2,6 and 7?
    +1, +2, -2, -1
  • describe the structure and bonding in an ionic compound
    giant ionic lattice, strong ionic bonds between oppositely charged ions
  • explain why ionic compounds have high melting/boiling points
    a lot of energy is needed to break many strong ionic bonds between oppositely charged ions
  • explain why ionic compounds conduct electricity when molten or dissolved

    ions are free to move and carry charge
  • what happens to electrons when a covalent bond is formed?
    shared
  • describe the structure of diamond
    giant covalent structure made of carbon atoms bonded to four other carbon atoms by covalent bonds
  • what type of elements will form covalent bonds?
    non metals
  • explain why diamond doesn't conduct electricity
    no delocalised electrons to carry charge
  • explain why diamond and silicon dioxide have high melting points
    a lot of energy is needed to break the strong covalent bonds between atoms
  • describe the structure of graphite
    giant covalent structure made of carbon atoms each bonded to 3 other carbon atoms to form hexagonal rings in layers, weak forces between layer, delocalised electrons
  • explain why graphite conducts electricity
    delocalised electrons carry a charge through the structure
  • explain why graphite can act as a lubricant
    layers are able to slide over each other easily
  • explain why small molecules have low melting points
    weak intermolecular forces require little energy to overcome
  • what is a polymer?
    lots of monomers that have joined together in a chain to form a large molecule
  • why do larger molecules (like polymers) have higher melting points?
    the bigger the molecule, the stronger the intermolecular forces, the more energy required to break the,
  • what is graphene?
    a single layer of graphite
  • what is a fullerene?
    a single layer of grapheme folded in a specific shape (sphere, tube etc.)
  • what are nanotubes and what are they used for?
    cylindrical fullerenes used for electronic, nanotechnology and drug delivery