2.3 Structure and bonding of carbon

    Cards (76)

    • Carbon can form covalent bonds because it has four valence electrons
    • How many protons does carbon have in its nucleus?
      6
    • Carbon can form covalent bonds with other carbon atoms to create large, complex molecules
    • What are the three types of subatomic particles in carbon's atomic structure?
      Protons, neutrons, electrons
    • What are the three types of covalent bonds that carbon can form?
      Single, double, triple
    • Carbon can only form single bonds with other atoms.
      False
    • Match the molecule with its bond order:
      Ethane (C-C) ↔️ Bond order = 1
      Ethene (C=C) ↔️ Bond order = 2
      Ethyne (C≡C) ↔️ Bond order = 3
    • Graphite is a good electrical conductor.

      True
    • Carbon nanotubes have a high strength-to-weight ratio.
    • Graphene is extremely thin and flexible.

      True
    • How many protons are in a carbon nucleus?
      6
    • What type of bonding occurs when atoms share electrons?
      Covalent bonding
    • Double bonds are stronger than single bonds.

      True
    • How do differences in bond order affect the properties of molecules?
      Physical and chemical properties
    • What is the structure of fullerenes?
      Spherical cage-like structures
    • What type of lattice does diamond have?
      Tetrahedral
    • What type of bonding is present in the 3D structure of diamond?
      Covalent
    • Carbon nanotubes have a high strength-to-weight ratio.

      True
    • Carbon has 6 protons in its nucleus.

      True
    • What does bond order refer to?
      Shared electron pairs
    • What are allotropes?
      Different structural forms
    • What causes the diverse properties of carbon allotropes?
      Different atomic arrangements
    • Match the carbon allotrope with its structure:
      Diamond ↔️ Tetrahedral lattice
      Graphite ↔️ Layered hexagonal sheets
      Fullerenes ↔️ Spherical cage-like structures
    • Fullerenes have spherical cage-like structures and are used in drug delivery.
    • Graphite has strong covalent bonds within layers and weak van der Waals forces between layers.
    • Carbon nanotubes are essentially rolled-up sheets of graphene.
      True
    • Carbon nanotubes are useful in nanomaterials and electronics due to their unique mechanical and electrical properties.

      True
    • Carbon's nucleus contains both protons and neutrons.

      True
    • Covalent bonds are strong and provide stability to carbon compounds.
      True
    • Match the subatomic particle with its properties:
      Protons ↔️ Positive charge, in nucleus
      Neutrons ↔️ No charge, in nucleus
      Electrons ↔️ Negative charge, in orbitals
    • Which type of covalent bond is the strongest: single, double, or triple?
      Triple bond
    • What are allotropes of carbon?
      Structural forms of carbon
    • Match the carbon allotrope with its properties:
      Diamond ↔️ Hardest, electrical insulator
      Graphite ↔️ Soft, electrical conductor
      Graphene ↔️ Thin, strong, flexible
      Fullerenes ↔️ Spherical, hollow cage-like
    • What is an allotrope?
      Different structural forms
    • Diamond is the hardest known natural material
    • Fullerenes have a hollow cage-like structure
    • Neutrons in the nucleus have a positive charge.
      False
    • Carbon can form single, double, or triple covalent bonds
    • Double bonds have a bond order of 2
    • Match the carbon allotrope with its key property and application:
      Diamond ↔️ Hardest, transparent, cutting tools
      Graphite ↔️ Soft, conductive, pencils
      Graphene ↔️ Extremely thin, electronics
      Fullerenes ↔️ Cage-like, drug delivery
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