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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 Orbital Hybridization: http://www.uwosh.edu/faculty_staff/gutow/Orbitals/N/sp
hybrid.shtml 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 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" |