Topic 2 - Bonding, structure, properties

Created by

Paula

Cards (31)

What is ionic bonding?
Electrostatic attraction between positive and negative ions
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How strong is the attraction in ionic bonding?
It is a relatively strong attraction
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How are ionic compounds held together?
Held together in a giant lattice
Regular structure extending in all directions
Electrostatic attraction between positive and negative ions
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What are the properties of ionic substances?
High melting and boiling points
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Why do ionic substances not conduct electricity when solid?
Because ions are in fixed positions
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When do ionic substances conduct electricity?
When molten or dissolved in water
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Give an example of a positive ion.
Na+
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Give an example of a negative ion.
Cl−
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What is important when working out a formula of an ionic compound?
Positive and negative charges must balance
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How are ionic compounds formed?
Through the reaction of a metal with a non-metal
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What happens during electron transfer in ionic bonding?
Metal gives away outer shell electrons
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What does Mg become in ionic bonding?
Mg2+
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What does O become in ionic bonding?
O2−
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What is a covalent bond?
A shared pair of electrons between two atoms
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Describe the structure and properties of simple molecular covalent substances.
Do not conduct electricity (no ions)
Small molecules
Weak intermolecular forces
Low melting and boiling points
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How do intermolecular forces change with molecule size?
They increase with mass/size of the molecule
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What are polymers?
Very large molecules linked by covalent bonds
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What are thermosoftening polymers?
Polymers that melt/soften when heated
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What are giant covalent substances? Give examples.
Solids with atoms covalently bonded in a giant lattice
High melting/boiling points due to strong covalent bonds
Mostly do not conduct electricity
Examples: Diamond, graphite, silicon dioxide
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Describe the properties of allotropes of carbon.
Diamond: Hard, high melting point, does not conduct
Graphite: Soft, high melting point, conducts electricity
Fullerenes: Hollow molecules, based on hexagonal rings
Nanotubes: Cylindrical, high tensile strength, conducts electricity
Graphene: Single layer of graphite
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What is metallic bonding?
Attraction between delocalised electrons and metal ions
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Describe properties of metals.
High melting/boiling points
Good conductors of heat and electricity
Malleable and soft
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What are alloys? Why are they harder than pure metals?
Alloys: Mixtures of metals with other elements
Harder due to different atom sizes distorting layers
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What are the limitations of the simple model?
No forces between spheres; atoms are not solid spheres
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What does the amount of energy needed to change state depend on?
Strength of forces between particles
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A pure substance will melt or boil at what temperature?
A fixed temperature
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What are the three states of matter?
Solid, liquid, and gas
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What is nanoscience?
Science studying particles 1 - 100nm in size
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State the uses of nanoparticles.
Medicine (drug delivery systems)
Electronics
Deodorants
Sun creams (better skin coverage)
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What are fine and coarse particles?
Fine particles: 100-2500 nm diameter
Coarse particles: 2500-10000 nm diameter
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Why do nanoparticles have different properties than bulk materials?
High surface area to volume ratio
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