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Molecular Geometry and Hybrid Orbitals

+. Molecular Geometry and Hybrid Orbitals. H-C-H bond angle 90 o. Molecular Geometry. Why Should I Care About Molecular Geometry?. Molecular geometry (shape) influences... Physical properties :. Pentane (bp 36 o C). 2,2-Dimethylpropane (bp 10 o C). (CH 3 ) 2 C=CH 2 + Br -.

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Molecular Geometry and Hybrid Orbitals

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  1. + Molecular Geometry and Hybrid Orbitals H-C-H bond angle 90o

  2. Molecular Geometry Why Should I Care About Molecular Geometry? • Molecular geometry (shape) influences... • Physical properties: Pentane (bp 36oC) 2,2-Dimethylpropane (bp 10oC) (CH3)2C=CH2 + Br- • Chemical properties: (CH3)3C-Br + HO- H3C-Br + HO- CH3OH + Br- • Biological properties: Enzyme specificity

  3. Molecular Geometry How Do We Determine Molecular Shape? • Empirically (spectroscopy, etc) • Predict via theory Example: CH3OH Lewis structure implies planarity But other geometries can be conceived So what is the real structure of this molecule? • Bonds vibrating, bending, etc. • By ‘geometry’ we usually mean ‘most common’ geometry • Most common geometry = geometry with lowest energy

  4. What Controls Molecular Geometry?Most common geometry = geometry with lowest energy Lowest energy results from... ...minimizing electron repulsion (nonbonded interactions; van der Waals repulsions) ...resonance, conjugation, and aromaticity • How does the molecule minimize electron repulsion? • Moving electron clouds (electron groups) away from each other • Electron groups = Atoms • Groups of atoms • Lone pairs • Valence Shell Electron Pair Repulsion theory (VSEPR)

  5. Molecular Geometry SurveyBest geometry = largest distance between electron groups CompositionGeometriesExample AB Linear AB2 Linear 180o Bond angle Bent 180o AB3 T-shape 90o Trigonal planar 120o

  6. Molecular Geometry SurveyBest geometry = largest distance between electron groups CompositionGeometriesExample 180o AB4 Square planar 90o Receding back 109.5o Tetrahedral Projecting out AB5 Trigonal bipyramid Explore and verify molecular geometry examples with molecular models

  7. Bond AnglesBest geometry = largest distance between electron groups Are bond angles always equal? • Bond angles controlled by magnitude of electron group repulsions Electron groups equal size All H-C-H 109.5o H < LP H-N-H 107o H < CH3 H-C-H < 109.5o Electron group repulsions equal Electron group repulsions unequal Bond angles equal Bond angles unequal Which electron groups have greatest repulsion? (Which electron groups are largest?) Approximate size ranking: H, F < lone pair, Cl, Br, I < all groups of atoms

  8. Bond Angles In general... • Two electron groups = linear • Three electron groups = trigonal planar or distorted trigonal planar • Four electron groups = tetrahedron or distorted tetrahedron • Warning! Atomic geometry may also be influenced by... • ...resonance (covered in Chem 30A) • ...conjugation • ...aromaticity } Not a consideration in Chem 30A Four attachments Trigonal planar due to resonance Example:

  9. Molecular Geometry and Orbitals Covalent bonds formed by overlap of orbitals • Example: Two H 1s orbitals (spheres) overlap to form H-H sigma bond (s bond): + Hydrogen atoms Hydrogen molecule

  10. + Molecular Geometry and Orbitals What orbitals are used for organic molecules? Example: Methane (CH4) H (1s) + C (2s, 2px, 2py, 2pz)  C-H bonds orthogonal H-C-H bond angle 90o H 1s + C 2px + C 2pz wrong H-C-H bond angle! Therefore this orbital combination incorrect Verify with your model kit

  11. Molecular Geometry and Orbitals Solution (Linus Pauling, 1931) • Combine s, px, py, and pz orbitals to form correct # of bonds with correct geometry • Combinations = hybrid orbitals • Hybridization scheme for atom with four electron groups • CH4 geometry = tetrahedral; need four bonds and four hybrid orbitals • Orbital conservation: four hybrid orbitals come from four atomic orbitals • s + px + py + pzsp3 + sp3 + sp3 + sp3 • C sp3 + H 1s C-H s bond 109.5o sp3 carbon

  12. Molecular Geometry and Orbitals Hybridization scheme for atom with three electron groups Example: • Carbon = trigonal planar; need three bonds and three hybrid orbitals • Three hybrid orbitals come from three atomic orbitals: s + px + py + pz sp2 + sp2 + sp2 + pz Not used Mixed Top view without pzTop view with pzSide view pz sp2 sp2 120o pz 90o

  13. Molecular Geometry and Orbitals C sp2 + H 1s C sp2 + C sp2 C pz + C pz C-H s bond C-C s bond C-C p bond Combine orbitals to build Side view Top view C-H s bond p bond not shown C-C p bond p bond included C-C s bond Explore and verify with molecular models

  14. Molecular Geometry and Orbitals Hybridization scheme for atom with two electron groups Example: • Carbon = linear; need two bonds and two hybrid orbitals • Two hybrid orbitals come from two atomic orbitals: s + px+ py + pz sp + sp + py + pz Mixed Not used Top view without pzTop view with pzSide view without py Side view with py sp py pz

  15. Molecular Geometry and Orbitals C sp + H 1s C sp + C sp C py + C py C pz + C pz C-H s bond C-C s bond C-C p bond C-C p bond Combine orbitals to build Side view py-pyp bond not shown Top view pz-pzp bond not shown C-H s bond C-C p bond C-C s bond Explore and verify with molecular models

  16. Molecular Geometry and Orbitals A few final notes... • Other double bonds (C=O, C=N) similar orbital arrangements to C=C • Other triple bonds (CN) similar orbital arrangements to CC • C, O, N almost always hybridized in organic molecules Four electron groups sp3 Three electron groups sp2 Two electron groups sp

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