covalent bonding

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Created by
sanjana

Cards (17)

  • Particle model
    The three states of matter can be represented in the particle model
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  • Covalent bonding
    Atoms share pairs of electrons to form strong chemical bonds
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  • Covalent bond
    A covalent bond is formed between non-metals when they share electrons
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  • Number of electrons shared
    Depends on how many extra electrons an atom needs to make its outer shell full
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  • Particle model assumptions
    • There are spaces between the particles
    • All particles in a substance are spherical
    • The spheres are solid
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  • Energy needed to change state
    Depends on the forces between the particles, stronger forces mean higher melting/boiling point
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  • Covalent structures
    • Single bond each atom shares one pair of electrons
    • Double bond each atom shares two pairs of electrons
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  • Types of covalent structures
    • Giant covalent
    • Small molecules
    • Large molecules
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  • Giant covalent

    • Has billions of atoms, each one with a strong covalent bond to a number of others
    • Example: diamond
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  • Small molecules
    • Each molecule contains only a few atoms with strong covalent bonds between them
    • Held together by weak intermolecular forces
    • Example: water
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  • Large molecules
    • Many repeating units joined by covalent bonds to form a chain
    • Separate chains held together by stronger intermolecular forces than small molecules
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  • Polymers
    Examples of large molecules
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  • Graphite
    • Made of carbon atoms bonded in hexagonal rings in layers
    • Each carbon atom has one spare electron that is delocalised and can move through the structure
    • Layers can slide over each other so graphite is softer than diamond
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  • Delocalised electrons

    Free to move around the structure, allowing graphite to conduct electricity
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  • Fullerenes
    • Spheres of carbon atoms arranged in rings to form hollow shapes
    • Can be used as lubricants and for drug delivery
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  • Nanotubes
    • Carbon atoms arranged in cylindrical tubes
    • Have high tensile strength, useful in electronics
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  • Graphene
    Single layer of graphite, strong and can conduct electricity, used in composites and touch electronics
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