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Hybridization

Hybridization. Hybridization of Orbitals. The merging of several atomic orbitals to form the same total number of hybrid orbitals. Example: Unhybridized Outer Orbitals of Carbon. _ _ _  ↓ 2p 2 2 s 2. Why does carbon form four bonds with other atoms?.

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Hybridization

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  1. Hybridization

  2. Hybridization of Orbitals • The merging of several atomic orbitals to form the same total number of hybrid orbitals.

  3. Example: Unhybridized Outer Orbitals of Carbon ___  ↓2p22s2

  4. Why does carbon form four bonds with other atoms? • This can be explained with the model of hybridization of orbitals. • When atoms form bonds, their simple atomic orbitals often mix to form new orbitals called hybrid orbitals.

  5. Hybridization: mixing of two or more atomic orbitals to form new hybrid orbitals • Mix at least 2 nonequivalent atomic orbitals (e.g. s and p). Hybrid orbitals have very different shapes from original atomic orbitals. • Number of hybrid orbitals is equal to number of pure atomic orbitals used in the hybridization process. • Covalent bonds are formed by: • Overlap of hybrid orbitals with atomic orbitals • Overlap of hybrid orbitals with other hybrid orbitals

  6. The s orbital merges with the threep orbitals to form four sp3 hybrid orbitals that are identical. ____ sp3 sp3 sp3 sp3 Hybridized Orbitals of Carbon in forming Methane

  7. sp3 Hybridization of C in CH4 __ _  ↓2p2 2s2 Unhybridized Carbon For CH4, 4 hybrid orbitals are needed, so 4 atomic orbitals are required as follows: (s + p + p+p) = sp3 _ _ _ _ sp3 sp3 sp3 sp3 Hybridized Carbon

  8. The four sp3 orbitals are arranged in a tetrahedral shape. Each hybrid sp3 orbital contains one electron and is available to bond with another atom. Hybridized Carbon Orbitals http://andromeda.rutgers.edu/~huskey/images/methane_td.jpg

  9. Four hydrogen atoms, each having an s orbital, overlap with each of the sp3 orbitals. Each of these bonds is called a σ (sigma) bond. Methane 109.5o http://andromeda.rutgers.edu/~huskey/images/methane_td.jpg

  10. Hybridization of Orbitals Animation • http://www.mhhe.com/physsci/chemistry/essentialchemistry/flash/hybrv18.swf

  11. Bonding in BF3 BF3 - trigonal planar according to VSEPR Theory (incomplete octet exception) • How does Boron form 3 bonds 120o apart using a spherical s orbital and p orbitals that are 90o apart?

  12. sp2 Hybridization of B in BF3 __ _  ↓2p1 2s2 Unhybridized Boron For BF3, 3 hybrid orbitals are needed, so 3 atomic orbitals are required as follows: (s + p + p) = sp2 _ _ _ sp2 sp2 sp2 hybridized Boron

  13. 3 sp2 orbitals needed to form 3 sigma bonds

  14. sp Hybridization of Be in BeCl2 __ _  ↓2p 2s2 Unhybridized Be For BeCl2, 2 hybrid orbitals are needed, so 2 atomic orbitals are required as follows: (s + p ) = sp hybridized Be _ _ sp sp

  15. σ (sigma) bond • A covalent bond formed by the overlap of orbitals along the bond axis end to end. • A sigma bond can be formed by the overlap of: • s and p orbitals • two p orbitals • two s orbitals • two hybrid orbitals • an s orbital and a hybrid orbital

  16. Sigma Bond Formation Two s orbitals overlap Two p orbitals overlap -

  17. Ethane

  18. π (pi bond) • A covalent bond formed by the parallel (side by side) overlap of two p orbitals.

  19. Ethylene (Ethene) C2H4 • Each carbon atom forms: • three hybrid sp2 orbitals that lie on the same plane at 120o • and a third p orbital that is lying perpendicular to the plane

  20. p-bonds form from the side by side overlap of adjacent p orbitals above and below the sigma plane Formation of an sp2 hybrid set leaves 1 unused valence p orbital In ethylene, these orbitals overlap to form a second bond between the carbon atoms.

  21.  bond = end-to-end overlap of the sp2 hybridized orbitals • • • • • • • • • • 1 electron from the sp2 hybrid on C, the other from the hydrogen 1s orbital

  22. •  bond = side-by-side overlap of the unhybridized p-orbitals Electron from the unhybridized p-orbital on the C atom

  23. Sigma () Bonding in Ethylene

  24. Pi () Bonding in Ethylene

  25. Ethylene (Ethene) C2H4 http://www.science.uwaterloo.ca/~cchieh/cact/fig/ethene.gif

  26. Ethylene (Ethene) C2H4 http://andromeda.rutgers.edu/~huskey/images/ethylene_bonding.jpg

  27. Ethene (Ethylene), C2H4 • The double bond between the two carbon atoms is made up of a sigma bond and a pi bond. • The pi bond is made up of the parallel overlap of the p orbitals. • The sigma bond is made up of the end to end overlap of the sp2 orbitals.

  28. Double Bond • A double bond is made up of a sigma bond and a pi bond.

  29. Acetylene (Ethyne), C2H2 • The carbon atoms form: • two hybrid sp orbitals • two p orbitals that overlap (2 p bonds) Acetylene has a triple bond between the two carbons.

  30. sp hybrids and unhybridized p-orbitals

  31. Sigma () Bonding in Acetylene Unhybridized p-orbitals

  32. Acetylene (Ethyne), C2H2 http://andromeda.rutgers.edu/~huskey/images/acetylene_bonds.jpg

  33. 10.5

  34. 10.5

  35. Triple Bond • Is made up of a sigma bond and two pi bonds.

  36. How many s and p bonds are in the acetic acid (vinegar) molecule CH3COOH? H H C H C O O H Sigma (s) and Pi Bonds (p) 1 sigma bond Single bond 1 sigma bond and 1 pi bond Double bond Triple bond 1 sigma bond and 2 pi bonds s bonds = 6 + 1 = 7 p bonds = 1 10.5

  37. Gallery of Molecules • http://webpages.dcu.ie/~pratta/jmgallery/JGALLERY.HTM • Tutorial http://www.wwnorton.com/college/chemistry/gilbert/tutorials/ch7.htm

  38. Useful Websites • http://www.mhhe.com/physsci/chemistry/essentialchemistry/flash/hybrv18.swf • http://www-personal.une.edu.au/~sglover/CHEM110TopicAB/sld014.htm • http://www.learnerstv.com/animation/animation.php?ani=52&cat=chemistry

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