Bonding

Created by

Lauren Chritmas

Cards (31)

Ionic bonding 
Charged ions held together by strong electrostatic attractions
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Ionic bonding 
Oppositely charged ions form to get a full shell of electrons
Sodium gives up an electron to chlorine
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Ionic charges 
Group 1 forms +1
Group 2 forms +2
Group 3 rarely form ionic bonds, they are covalent
Group 5 forms 3-
Group 6 forms 2-
Group 7 forms 1-
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Molecular ions 
Hydroxide (OH-)
Nitrate (NO3-)
Ammonium (NH4+)
Sulfate (SO4 2-)
Carbonate (CO3 2-)
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Determining ionic compound formula
1. Swap charges between ions
2. Drop charges to get subscripts
3. Simplify
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Ionic compounds 
Have giant ionic structures
Dissolve well in polar water
Conduct electricity when molten or dissolved
Have high melting points
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Covalent bonding 
Sharing of electrons between atoms to achieve full shells
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Types of covalent bonds
Single
Double
Triple
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Dative covalent (coordinate) bonds 
One atom donates a pair of electrons to another atom
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Giant covalent structures 
Graphite - layers with delocalized electrons, can conduct electricity
Diamond - tightly packed, cannot conduct electricity
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Molecular shape 
Determined by number of bond pairs and lone pairs of electrons
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Molecular shapes with no lone pairs
Linear (2 bond pairs)
Trigonal planar (3 bond pairs)
Tetrahedral (4 bond pairs)
Trigonal bipyramidal (5 bond pairs)
Octahedral (6 bond pairs)
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Molecular shapes with lone pairs
Pyramidal (3 bond pairs, 1 lone pair)
Bent (2 bond pairs, 2 lone pairs)
Trigonal planar (3 bond pairs, 2 lone pairs)
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Octahedral 
Molecular shape with 6 bond pairs or lone pairs arranged in an octahedral geometry
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Pyramidal 
Molecular shape with 3 bond pairs and 1 lone pair
Example: ammonia
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Bent/Nonlinear 
Molecular shape with 2 bond pairs and 2 lone pairs
Bond angle shrinks from 107 to 104.5 degrees
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Trigonal planar 
Molecular shape with 3 bond pairs and 2 lone pairs
Bond angle remains at 120 degrees
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Tetrahedral 
Molecular shape with 4 bond pairs and 2 lone pairs
Bond angle remains at 90 degrees
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Electronegativity 
Ability of an atom to attract electrons towards itself in a covalent bond
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The further up and right in the periodic table, the more electronegative the element (excluding noble gases)
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Polar bond 
Covalent bond where atoms have a difference in electronegativity, resulting in an uneven distribution of electrons
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Polar molecules 
Water
Hydrogen chloride
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Nonpolar molecules 
Chlorine
Hydrocarbons
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Intermolecular forces 
Weak forces between molecules, not within covalent bonds
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Van der Waals forces
Weakest intermolecular force, induced dipole-dipole interactions
Larger molecules have stronger van der Waals forces
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Dipole-dipole forces 
Stronger than van der Waals, exist between permanent dipoles
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Hydrogen bonding 
Strongest intermolecular force, occurs between hydrogen and highly electronegative elements (N, O, F)
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Ice expands when cooled due to hydrogen bonding pushing molecules apart
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Metallic bonding 
Giant lattice of positive metal ions with delocalized electrons, responsible for high melting points and conductivity
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Particle model states 
Solid: tightly packed, regular arrangement, high density, vibrate on spot
Liquid: tightly packed, random arrangement, high density, move freely and slide over each other
Gas: very spaced out, random arrangement, low density, move freely
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Bond types 
Giant covalent: solids, don't conduct, high melting points
Simple molecular: liquids/gases, may conduct if polar, low melting/boiling points
Giant ionic: solids, conduct if dissolved/molten, high melting points
Metallic: solids/liquids conduct, high melting points
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