Bonding, structure, and the properties of matter

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Created by
Nadine 😛🌷

Cards (58)

  • What are the three types of strong chemical bonds?
    Ionic, covalent, and metallic
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  • How do ionic bonds form?
    They form between oppositely charged ions.
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  • What characterizes covalent bonding?
    Atoms share pairs of electrons.
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  • What is the nature of metallic bonding?
    Atoms share delocalised electrons.
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  • In which types of compounds does ionic bonding occur?
    In compounds formed from metals combined with non-metals.
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  • What types of materials exhibit metallic bonding?
    Metallic elements and alloys.
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  • How can students explain chemical bonding?
    In terms of electrostatic forces and the transfer or sharing of electrons.
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  • What happens when a metal atom reacts with a non-metal atom?
    Electrons in the outer shell of the metal atom are transferred.
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  • What charge do metal atoms acquire when they lose electrons?
    They become positively charged ions.
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  • What charge do non-metal atoms acquire when they gain electrons?
    They become negatively charged ions.
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  • What electronic structure do ions produced by metals in Groups 1 and 2 and non-metals in Groups 6 and 7 have?
    The electronic structure of a noble gas (Group 0).
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  • How can the electron transfer during the formation of an ionic compound be represented?
    By a dot and cross diagram.
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  • What should students be able to draw for ionic compounds formed by metals in Groups 1 and 2 with non-metals in Groups 6 and 7?
    Dot and cross diagrams.
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  • How does the charge on the ions produced relate to the group number of the element?
    The charge corresponds to the group number in the periodic table.
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  • From which groups should students work out the charge on the ions of metals and non-metals?
    Metals in Groups 1 and 2, and non-metals in Groups 6 and 7.
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  • What is an ionic compound?
    A giant structure of ions.
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  • What holds ionic compounds together?
    Strong electrostatic forces of attraction between oppositely charged ions.
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  • How do the forces in an ionic lattice act?
    They act in all directions.
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  • What can students deduce from a diagram of a compound's structure?
    Whether a compound is ionic.
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  • What are the limitations of using dot and cross, ball and stick, and two and three-dimensional diagrams?
    They may not accurately represent a giant ionic structure.
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  • How can students work out the empirical formula of an ionic compound?
    From a given model or diagram showing the ions in the structure.
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  • What should students be familiar with regarding sodium chloride?
    The structure of sodium chloride.
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  • What happens when atoms share pairs of electrons?
    They form covalent bonds.
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  • What type of substances may consist of small molecules?
    Covalently bonded substances.
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  • What are some examples of substances with giant covalent structures?
    Diamond and silicon dioxide.
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  • How can covalent bonds in molecules and giant structures be represented?
    In various forms, including dot and cross diagrams.
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  • How can students represent polymers?
    In the form where n is a large number.
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  • What are the properties of metals in terms of their structure?
    They consist of giant structures of atoms arranged in a regular pattern.
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  • What happens to the electrons in the outer shell of metal atoms?
    They are delocalised and free to move through the whole structure.
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  • What gives rise to strong metallic bonds?
    The sharing of delocalised electrons.
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  • What are the three states of matter?
    Solid, liquid, and gas.
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  • What occurs at the melting point?
    Melting and freezing take place.
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  • What occurs at the boiling point?
    Boiling and condensing take place.
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  • How can particle theory explain changes of state?
    It helps to explain melting, boiling, freezing, and condensing.
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  • What does the amount of energy needed to change state depend on?
    The strength of the forces between the particles of the substance.
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  • How does the nature of the particles involved relate to bonding and structure?
    It depends on the type of bonding and the structure of the substance.
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  • What is the relationship between the strength of forces and melting/boiling points?
    The stronger the forces, the higher the melting and boiling points.
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  • What are the limitations of the simple model of states of matter?
    It does not account for forces and represents all particles as solid spheres.
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  • What should students be able to predict regarding states of substances?
    The states of substances at different temperatures given appropriate data.
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  • How can students explain the different temperatures at which changes of state occur?
    In terms of energy transfers and types of bonding.
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