WWW Links for Lectures on Chapter 14

Maria Goeppert Mayer

early calculations  of the electronic structure of benzene

Molecular Orbitals for H₂ Molecule:

bonding m.o. constructive interference (contour)

bonding m.o. constructive interference (elevation)

antibonding m.o. destructive interference (contour)

antibonding m.o. destructive interference (elevation)

originally available at: http://www.wellesley.edu/Chemistry/chem120/mo1.html

MIT OpenCourseware Diatomic Molecules M.O. Theory:

http://videolectures.net/mit5111f05_ceyer_lec14/

note: the above lecture uses z as internuclear direction; Zumdahl [usually] uses x;

        this makes a difference only in terms of which 2p orbitals (z or x)

        are designated as a.o.s for σ  and which for  π  m.o.s

Paramagnetism of  O₂:

http://www.youtube.com/watch?v=KcGEev8qulA    

http://www.youtube.com/watch?v=Lt4P6ctf06Q
http://www.youtube.com/watch?v=Isd9IEnR4bw

Orbital Hybridization:

http://www.uwosh.edu/faculty_staff/gutow/Orbitals/N/sp hybrid.shtml

­­­Bonding in acetylene:
http://switkes.chemistry.ucsc.edu/teaching/Jmol/AcetyleneBonding/AcetyleneBonding.html

H₂O and NH₃ vs H₂S and PH₃: http://switkes.chemistry.ucsc.edu/teaching/CHEM1B/WWW_other_links/HybridvsNoHybrid.html

Molecular Geometry, Bond Dipoles, and Net Dipole
http://osxs.ch.liv.ac.uk/~ng/external/ElectrostaticSurfacesPolar.html#

CHEM 1B Molecular Structure Gallery

Linus Pauling

Robert S. Mulliken

The Nobel Prize in Chemistry 1966 was awarded to Robert S. Mulliken "for his fundamental work concerning chemical bonds and the electronic structure of molecules by the molecular orbital method"