Chemical bonds

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Created by
Neha

Cards (53)

  • What type of bond forms between non-metal elements?
    Covalent bonds
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  • What is a giant covalent structure?
    It is a structure where atoms are joined by covalent bonds over a large number of atoms.
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  • What is a covalent bond?
    A covalent bond is a shared pair of electrons between non-metal atoms.
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  • Why do covalent compounds have low melting and boiling points?
    They have weak intermolecular forces, requiring little energy to break them.
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  • What state are most covalent compounds at room temperature?
    They are gases or liquids.
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  • Why can't covalent compounds conduct electricity?
    They have no free-moving ions.
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  • What is a single covalent bond?
    It is one shared pair of electrons.
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  • What is a double covalent bond?
    It is two shared pairs of electrons.
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  • What is a triple covalent bond?
    It is three shared pairs of electrons.
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  • What is diamond in terms of its structure?
    Diamond is an allotrope of carbon where each carbon atom is bonded to four other carbon atoms.
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  • What is silicon dioxide made of?
    Silicon dioxide is made of silicon and oxygen with many strong covalent bonds.
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  • What are the properties of silicon dioxide?
    It has a high melting and boiling point due to strong covalent bonds.
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  • What is graphite in terms of its structure?
    Graphite is an allotrope of carbon where each carbon atom is connected to three other carbon atoms.
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  • How are the carbon atoms arranged in graphite?
    They are arranged in hexagonal layers with weak intermolecular forces between the layers.
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  • What is graphene?
    Graphene is a single sheet of graphite with strong covalent bonds between carbon atoms.
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  • What are the properties of graphene?
    Graphene can conduct electricity and is very lightweight.
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  • What are carbon nanotubes?
    Carbon nanotubes are rolled sheets of graphene that can conduct electricity.
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  • What happens when metals react with non-metals?
    Metals lose electrons to achieve a full outer shell while non-metals gain electrons.
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  • What do metals form when they lose electrons?
    Metals form cations.
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  • What do non-metals form when they gain electrons?
    Non-metals form anions.
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  • What is an ionic lattice?
    An ionic lattice is a regular crystal structure formed by oppositely charged ions.
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  • How are ions held together in an ionic lattice?
    They are held together by electromagnetic forces.
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  • What is the appearance of most ionic compounds?
    They are mostly white solids, but transition metals can be colorful.
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  • What is the solubility of ionic compounds in water?
    They are easily dissolved in water to form aqueous solutions.
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  • What are the melting and boiling points of ionic compounds?
    They have high melting and boiling points.
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  • What is metallic bonding?
    Metallic bonding occurs between metal atoms where they lose electrons and become positive ions surrounded by delocalised electrons.
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  • What are the properties of metals due to delocalised electrons?
    Metals are good conductors of electricity and heat.
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  • Why can metals be bent and shaped?
    The layers of atoms can slide over each other due to the arrangement of positive metal ions and delocalised electrons.
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  • What is an alloy?
    An alloy is a mixture of two or more different metals.
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  • Why are alloys harder than pure metals?
    Alloys have distorted layers due to different sized metal atoms, making it harder for layers to slide over each other.
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  • What are shape memory alloys?
    Shape memory alloys can return to their original shape after being deformed.
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  • Why do metals have high melting and boiling points?
    Because metallic bonds are strong and require a lot of energy to break.
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  • What happens to electrons in metallic bonding?
    The electrons become delocalised and are free to move.
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  • What is the structure of pure metals and alloys?
    They have a metallic bonding structure where positive metal ions are surrounded by delocalised electrons.
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  • What is the role of delocalised electrons in metals?
    Delocalised electrons allow metals to conduct electricity and heat.
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  • How do delocalised electrons contribute to the properties of metals?
    They carry charge and kinetic energy, allowing metals to conduct electricity and heat.
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  • What happens to the layers of atoms in alloys?
    The layers are distorted by different sized metal atoms, making it harder for them to slide over each other.
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  • What is the significance of delocalised electrons in the context of metallic bonding?
    Delocalised electrons allow for the conductivity and malleability of metals.
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  • What is the effect of temperature on the properties of metals?
    Metals have high melting and boiling points, requiring a lot of energy to change states.
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  • What is the relationship between metallic bonding and the physical properties of metals?
    The strong metallic bonds contribute to the high melting and boiling points of metals.
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