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Published byClyde Henry Modified over 6 years ago
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TOPIC: Molecular Geometry (Shapes of Molecules) Essential Question: How do you determine the different shapes of molecules?
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VSEPR Theory Electron groups around the central atom will be most stable when they are as far apart as possible – we call this valence shell electron pair repulsion theory because electrons are negatively charged, they should be most stable when they are separated as much as possible The resulting geometric arrangement will allow us to predict the shapes and bond angles in the molecule
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Electron-group repulsions and the five basic molecular shapes.
linear trigonal planar tetrahedral trigonal bipyramidal octahedral
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Electrons vs. Molecular Geometry
The geometry of electron pairs around a central atom is called the electron geometry. Lone pair electrons on a central atom will repel other pairs but will not be visible in the molecular geometry (no nuclei) If there are lone pairs on the central atom the electron geometry and the molecular geometry will differ.
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Two electron pairs on central atom
Examples: CS2, HCN, BeF2
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3 electron pairs on central atom All are in bonds
Trigonal Planar Shape Examples: SO3, BF3, NO3-, CO32-
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Four electron pairs on central atom All 4 in bonds
Examples: CH4, SiCl4, SO42-, ClO4-
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Trigonal Pyramidal Shape
4 Electron Pairs 3 bonded 1 un-bonded (lone pair) Trigonal Pyramidal Shape Examples: NH3, PF3, ClO3. H3O+ Bond angles are reduced from 109.5o to 107o due to extra repulsion by lone pair
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2 Un-bonded (lone pairs) BENT SHAPE
4 Electron Pairs 2 Bonded 2 Un-bonded (lone pairs) BENT SHAPE Examples: H2O, OF2, SCl2 Bond angles are reduced a little more due to repulsion To 104.5o
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The steps in determining a molecular shape
Molecular formula Lewis structure Electron-group arrangement (electron geometry) Bond angles Molecular geometry Count all e- pairs around central atom Note lone pairs and double bonds Consider bonding e- pairs only Step 1 Step 2 Step 3 Step 4
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