Pair Repulsion Theory Valence Shell Electron
Transcript of Pair Repulsion Theory Valence Shell Electron
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Valence Shell Electron Valence Shell Electron Pair Repulsion TheoryPair Repulsion Theory
Chapter 9 Part IChapter 9 Part I
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Lewis StructuresLewis Structures
1. Shows how the valence 1. Shows how the valence electrons are arranged. electrons are arranged.
2. Each dot for each valence 2. Each dot for each valence electron. electron.
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Lewis StructuresLewis Structures3. A stable compound has all 3. A stable compound has all
its atoms with a noble gas its atoms with a noble gas configuration. configuration.
4. Hydrogen follows the duet 4. Hydrogen follows the duet rule. (2 electrons)rule. (2 electrons)
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Lewis StructuresLewis Structures
5. The rest follow the octet 5. The rest follow the octet rule. (8 electrons)rule. (8 electrons)
6. The bonding pair is the one 6. The bonding pair is the one between the symbols. between the symbols.
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DRAWING LEWIS DRAWING LEWIS STRUCTURESSTRUCTURES
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How to Draw ThemHow to Draw Them
1. Sum the number of valence 1. Sum the number of valence electrons for each element; electrons for each element; the number of valence the number of valence electrons is equal to its electrons is equal to its (Roman) group number.(Roman) group number.
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How to Draw ThemHow to Draw Them 2. Determine which element is 2. Determine which element is
the central atom, usually the the central atom, usually the least electronegative.least electronegative.
*Fluorine would never be a *Fluorine would never be a central element*central element*
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How to Draw ThemHow to Draw Them 3. Use a pair of electrons to form 3. Use a pair of electrons to form
a bond between each pair of a bond between each pair of elements. elements.
4. Arrange the rest of the 4. Arrange the rest of the valence electrons to fulfill the valence electrons to fulfill the octet ruleoctet rule for each element.for each element.
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How to Draw ThemHow to Draw Them 5. If an element does not have 5. If an element does not have
an octet use a double or triple an octet use a double or triple bond.bond.
6. A line can be used instead of 6. A line can be used instead of dots to represent a pair of dots to represent a pair of electrons.electrons.
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Exceptions to the Octet Exceptions to the Octet RuleRule
1. Hydrogen and boron do not achieve an octet.2. Hydrogen accepts only 2 electrons.3. Boron accepts only 6 electrons4. Third row and larger elements can exceed the octet (examples: S & P)5. When we must exceed the octet, the extra electrons go on the central atom.
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How to Draw ThemHow to Draw ThemExamples:Examples:
CHCH44
C is the central atomC is the central atom
H is an exception to the H is an exception to the octet ruleoctet rule
8 valence electrons8 valence electrons
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How to Draw ThemHow to Draw Them
C
HH
HHH
HH
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How to Draw ThemHow to Draw ThemNHNH33
N is the central atomN is the central atom
8 valence electrons8 valence electrons
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How to Draw ThemHow to Draw Them
N
HH
HH
2 e left over2 e left over
Lone pairLone pair
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How to Draw ThemHow to Draw Them
CO2
C is central atomC is central atom
16 valence electrons16 valence electrons
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How to Draw ThemHow to Draw Them
CC OOOO
C does not have an octetC does not have an octet
Need 4 more valence electrons Need 4 more valence electrons since C does not have an octetsince C does not have an octet
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How to Draw ThemHow to Draw Them
CC OOOO
Form double bondForm double bond
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How to Draw ThemHow to Draw Them
CC OOOO
C still needs 2 electronsC still needs 2 electrons
Take 2 electrons from Take 2 electrons from other Oother O
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How to Draw ThemHow to Draw Them
CC OOOO
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Find the ErrorsFind the Errors •N has only 5
valence electrons•Si does not have
an octet.•H does not have a
duet.•N does not have
an octet.
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Exceptions to the Octet Exceptions to the Octet RuleRule
•Beryllium and nitrogen are also exceptions.
•Odd e` compounds: A few are stable (NO,NO2, & ClO2)
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ResonanceResonance-Refers to bonding in molecules or ions that can't -Refers to bonding in molecules or ions that can't be correctly represented by a single Lewis be correctly represented by a single Lewis structurestructure
-Hybrid structures are formed that are an -Hybrid structures are formed that are an average of all possible Lewis structuresaverage of all possible Lewis structures
Example: Ozone, OExample: Ozone, O33
O O O O O O O O O O O O
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VSEPRVSEPR-Lewis structures tell us how the atoms are connected to each other. -They don’t tell us anything about shape. -VSEPR: Predicts 3D geometry of molecules.-Valence shell - outside electrons.
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VSEPRVSEPR
-Electron Pair repulsion - electron pairs try to get as far away as possible. Goal is to minimize electron pair repulsions.
-Based on the number of pairs of valence electrons both bonded and lone pairs.
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VSEPRVSEPRRules
1. Draw the Lewis structure2. Count # of electrons on the central
atom (paired & lone)3. Multiple bonds count as one4. Using this # determine the
geometry and shape.
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LINEARLINEARLone Pairs: 0 Bonding Pairs: 2Lone Pairs: 0 Bonding Pairs: 2
Angle: 180Angle: 180ºº
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Trigonal PlanarTrigonal PlanarBonding Pairs: 3 Lone Pairs: 0Bonding Pairs: 3 Lone Pairs: 0
Angle: 120Angle: 120ºº
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Trigonal PlanarTrigonal PlanarBonding Pairs: 2 Lone Pairs: 1Bonding Pairs: 2 Lone Pairs: 1
Angle: 120Angle: 120º º Shape: Bent Shape: Bent
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TetrahedralTetrahedralBonding Pairs: 4 Lone Pairs: 0Bonding Pairs: 4 Lone Pairs: 0
Angle: 109Angle: 109ºº
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TetrahedralTetrahedralBonding Pairs: 3 Lone Pairs: 1
Angle: 109º Shape: Trigonal Pyramidal
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TetrahedralTetrahedralBonding Pairs: 2 Lone Pairs: 2
Angle: 109º Shape: Bent
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Trigonal BiPyramidalTrigonal BiPyramidalBonding Pairs: 5 Lone Pairs: 0
Angle: 120º ,90º
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Trigonal BiPyramidalTrigonal BiPyramidalBonding Pairs: 4 Lone Pairs: 1Bonding Pairs: 4 Lone Pairs: 1
Angle: 120Angle: 120º º ,90,90º º Shape: SeesawShape: Seesaw
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Trigonal BiPyramidalTrigonal BiPyramidalBonding Pairs: 3 Lone Pairs: 2Bonding Pairs: 3 Lone Pairs: 2
Angle: 120Angle: 120º º ,90,90º º Shape: T-ShapedShape: T-Shaped
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Trigonal BiPyramidalTrigonal BiPyramidalBonding Pairs: 2 Lone Pairs: 3Bonding Pairs: 2 Lone Pairs: 3
Angle: 120Angle: 120º º ,90,90º º Shape: LinearShape: Linear
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OctahedralOctahedralBonding Pairs: 6 Lone Pairs: 0Bonding Pairs: 6 Lone Pairs: 0
Angle: 90Angle: 90º º
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OctahedralOctahedralBonding Pairs: 5 Lone Pairs: 1Bonding Pairs: 5 Lone Pairs: 1
Angle: 90Angle: 90º º Shape: Square PyramidalShape: Square Pyramidal
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OctahedralOctahedralBonding Pairs: 4 Lone Pairs: 2Bonding Pairs: 4 Lone Pairs: 2
Angle: 90Angle: 90º º Shape: Square PlanarShape: Square Planar
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VSEPR ExamplesVSEPR Examples
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VSEPRVSEPR
CC
HH
HHHH
HHCHCH44
Structural FormulaStructural Formula
4 bonding 4 bonding electronselectrons
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VSEPRVSEPRUse chartUse chart
4 bonding 0 lone around 4 bonding 0 lone around central elementcentral element
Geometry: tetrahedralGeometry: tetrahedral
Shape: tetrahedralShape: tetrahedral
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VSEPRVSEPR Examples: Examples:
XeF XeF44
IF IF55--
OF OF22
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VSEPRVSEPR
XeXe
FF
FFFF
FF
2 pairs of electrons left over2 pairs of electrons left over
Place extra on XePlace extra on Xe
Geometry: Geometry: OctahedralOctahedral
Shape: Square Shape: Square PlanarPlanar
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VSEPRVSEPR
II
FF
FFFF
FF
1 pair left overPlace on IPlace on I
FF
Geometry: Geometry: OctahedralOctahedral
Shape: Square Shape: Square PyramidalPyramidal
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VSEPRVSEPR
OO FFFF
Geometry: tetrahedralGeometry: tetrahedral Shape: bentShape: bent
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Bond PolarityBond Polarity
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Polar BondsPolar Bonds 1. When the atoms in a bond 1. When the atoms in a bond
are the same, the electrons are the same, the electrons are shared equally.are shared equally.
This is a nonpolar covalent This is a nonpolar covalent bond.bond.
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Polar BondsPolar Bonds 2. When two different atoms 2. When two different atoms
are connected, the electrons are connected, the electrons may not be shared equally.may not be shared equally.
This is a polar covalent bond. This is a polar covalent bond.
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Polar BondsPolar Bonds 3. Use electronegativity to 3. Use electronegativity to
determine which type of bond.determine which type of bond.
The bigger the electronegativity The bigger the electronegativity difference the more polar the difference the more polar the bond. bond.
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Polar BondsPolar Bonds0.0 - 0.5 Covalent nonpolar0.0 - 0.5 Covalent nonpolar
0.5 - 1.0 Covalent moderately 0.5 - 1.0 Covalent moderately polarpolar
1.0 -2.0 Covalent polar1.0 -2.0 Covalent polar
>2.0 Ionic>2.0 Ionic
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How to Show a Polar BondHow to Show a Polar Bond
1. Isn’t a whole charge just 1. Isn’t a whole charge just
a partial charge a partial charge
2. 2. + means a partially positive + means a partially positive chargecharge
- means a partially negative - means a partially negative chargecharge
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How to Show a Polar BondHow to Show a Polar Bond
The Cl pulls harder on the electrons
HH ClCl + -
The electrons spend more The electrons spend more time near the Cl time near the Cl
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Determining PolarityDetermining Polarity 1. If composed of one kind of 1. If composed of one kind of
atom it’s nonpolaratom it’s nonpolar
2. Determined by shape of the 2. Determined by shape of the moleculemolecule
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Determining PolarityDetermining Polarity
3. Symmetrical: nonpolar A. Trigonal Planar
B. Tetrahedral
C. Trigonal Bipyramidal D. Octahedral E. Square Planar
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Determining PolarityDetermining Polarity4. Unsymmetrical: Polar A. Bent
B. Trigonal Pyramidal C. T-shaped D. Square Pyramidal