Chapter 9: Models of Chemical Bonding 1.Lewis Dot Symbols 2.Ionic Bonding 3.Metallic Bonding...
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Transcript of Chapter 9: Models of Chemical Bonding 1.Lewis Dot Symbols 2.Ionic Bonding 3.Metallic Bonding...
![Page 1: Chapter 9: Models of Chemical Bonding 1.Lewis Dot Symbols 2.Ionic Bonding 3.Metallic Bonding 4.Covalent Bonding 5.Polar Bonds 6.Electronegativity.](https://reader035.fdocuments.net/reader035/viewer/2022081420/56649dd05503460f94ac5cff/html5/thumbnails/1.jpg)
Chapter 9: Models of Chemical Bonding
1. Lewis Dot Symbols
2. Ionic Bonding
3. Metallic Bonding
4. Covalent Bonding
5. Polar Bonds
6. Electronegativity
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• Lewis symbols
::C and Na :Examples
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Practice
• Give Lewis dot symbols for:
magnesium
nitrogen
fluorine
argon
boron
Oxide ion
Sodium ion
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Types of Bonding and PropertiesIonic
Metallic
Covalent
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Ionic Bonding• Ionic compounds form
• The attraction
• Forming ions takes energy
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Metallic Bonding• Outer electrons
• Large numbers of metal atoms
• The electrons are ‘delocalized’
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Covalent Bonds
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Network Covalent Solids
http://www.hull.ac.uk/chemistry/intro_inorganic/images/diamond.jpg
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Polar Covalent Bonds
• When two identical atoms form a covalent bond
• When different kinds of atoms combine,
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(a)
(b)
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• Electronegativity
• In general, electronegativity increases
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http://www.chem.ufl.edu/~itl/2045/change/C9F16.GIF
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• The difference in electronegativity
• There is no sharp dividing line between ionic and covalent bonding:
• A bond is mostly ionic when
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• The degree of polarity, or ionic character, varies continuously with the electronegativity difference
Each atom in a bond has a partial charge of about +0.5 or –0.5 units when the electronegativity difference is 1.7.
Electronegativity diff. Type of bonding
>1.7 Mostly ionic
0.4-1.7 Polar covalent
<0.4 Mostly covalent
0 Nonpolar covalent
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Practice Questions• Identify the following bonds as
A. Mostly ionic
B. Polar Covalent
C. Mostly Covalent
D. Nonpolar Covalent
C-Cl
Re-H
Li-Cl
P-HSn-BrSr-O
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• Lewis symbols can be used to represent the covalent or electron pair bond
HH H H :
Formulas drawn with Lewis symbols are called Lewis formulas or Lewis structures
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• The term structural formula
• Many molecules obey the octet rule:
• The number of bonds an atom (second-row) forms is determined by:
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Number of Bonds
C Has 4 e- Needs 4 e- Forms 4 bonds
N
O
F
B
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• single bond
• Double and triple bonds
• The bond order
• A single bond has bond order of• a double bond a bond order of • a triple bond a bond order of • Bond length depends on bond order:
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Drawing Lewis Structures• The least electronegative atom is usually in the
middle. (Or the atom which can form the most bonds.)
• Count total number of valence electrons in molecule/ion.
• Place them around the atoms to satisfy the octet rule:
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Phosphorus Trichloride
Carbon Dioxide
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• Not all structures obey the octet rule
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Sulfur tetrafluoride
Bromine pentafluoride
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• The preferred Lewis structure is the one that best fits the experimental data
The structure of sulfuric acid in the vapor state. There are two different sulfur-oxygen bond lengths. The preferred Lewis structure needs different bond orders for these atoms.
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• Structure I
• Structure II
II Structure I Structure
HO
:O:
:O:
SOH HO
:O:
:O:
SOH||
||
|
|
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• formal charge
• The formal charge on an atom is calculated
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• Consider the sulfur atoms in the two structures for sulfuric acid:
Structure I: formal charge on S = Structure II: formal charge on S =
When several Lewis structures are possible,
II Structure I Structure
HO
:O:
:O:
SOH HO
:O:
:O:
SOH||
||
|
|
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Iodate ion
Nitrate ion
Formal charge on O = Formal charge on I =
Formal charge on O = Formal charge on I =
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• Some molecules and ions are not well represented by a single Lewis structure
• Consider the case of the formate ion, HCO2-
Experiment gives
These are called resonance structures
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Draw the resonance forms for nitrate.
Draw the resonance forms for dinitrogen monoxide.
Draw resonance forms for thiosulfate.