CHEMISTRY 262

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Handouts

Student Outline (QM of atoms)	Dr. Tuchler's Lecture Notes as of 10/3/02
Student Outline (QM of molecules)	Dr. Tuchler's Lecture Notes (molecules)
Ripple Tank Demonstrations of Wavelike Motion

Figures

Fig. 4 Wavelength and Frequency Fig. 25a H Atom Radial Wavefunctions, l constant

Fig. 5 Interference of Waves Fig. 25b H Atom Radial Wavefunctions, n constant

Fig. 5a "Constructive" Interference Fig. 26 Effective Charge

Fig. 5b "Destructive" Interference Fig. 26a Removing Degeneracy in SCF Atomic Orbitals

Fig. 5c "Inbetween" Interference Fig. 26b Group III Periodic Trends

Fig. 6 Sine Wave Fig. 27 Atomic Radii and Ionization Energies

Fig. 7 Two Slit Diffraction of a Plane Wave Fig. 27b Periodic Trends--Electronegativities

Fig. 8 The Photoelectric Experiment Fig. 27c Atomic Radius

Fig. 9 Photoelectric Effect Exp'l Results Fig. 28a Ionization Energy

Fig. 10 Photoelectric Conversion of Energy Fig. 29 Periodic Trends and Electron Affinities

Fig. 11 Diffraction of Electrons Fig. 29a Periodic Trends and Electron Affinities

Fig. 12 Two-Slit Experiment particles and waves Fig. 30 Several Electron Configurations and AufBau

Fig. 13 Two-Slit Experiment Fig. 31 H₂ ions energy as a function of separation

Fig. 13a Two-Slit Experiment Fig. 31a H₂ ions energy as a function of separation

Fig. 13b Two-Slit Experiment Fig. 31b H₂ ions energy as a function of separation

Fig. 14 Atomic Spectra Fig. 34a H₂ ion wavefunction and density, R=250

Fig. 15 H Atom Spectra and Series Fig. 34b H₂ ion wavefunction and density, R=150

Fig. 16 Spherical Polar Coordinates Fig. 34c H₂ ion wavefunction and density, R=75

Fig. 17 Total Wavefunction for H atom Fig. 34d

Fig. 18 Radial Wavefunction for H atom Fig. 34e

Fig. 19 3-D Plots of Angular H-Wavefunction Fig. 35 Turning atomic orbitals into sigma MOs

Fig. 20 Radial Probablity Density for H atom Fig. 36 Turning atomic p-orbitals into pi-orbitals

Fig. 20a Radial Probablity Distribution n=1 or 2 Fig. 37 Energy Level Diagrams for MOs

Fig. 20b Radial Probablity Distribution n=3 Fig. 37b Energy Level Diagram, 2nd Row Diatomics

Fig. 20c Radial Probablity Distribution l=0 Fig. 38 Turning Atomic Orbitals into Molecular Orbitals

Fig. 21 Various Series in H atom Spectra Fig. 39 Formation of Molecular Orbitals in Diatomics

Fig. 22 H Atom Energies Fig. 40 H₂ Molecular Orbital Filling

Fig. 23 Atomic Beams and the Origin of Spin Fig. 41 N₂ Molecular Orbital Filling

Fig. 24 Many Electron Systems Fig. 42 N₂ Molecular Orbital Filling

Fig. 43 O₂ Molecular Orbital Filling

Fig. 44 LiF Molecular Orbital Filling

Fig. 45 BO Molecular Orbital Filling

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Fig. 4 Wavelength and Frequency	Fig. 25a H Atom Radial Wavefunctions, l constant
Fig. 5 Interference of Waves	Fig. 25b H Atom Radial Wavefunctions, n constant
Fig. 5a "Constructive" Interference	Fig. 26 Effective Charge
Fig. 5b "Destructive" Interference	Fig. 26a Removing Degeneracy in SCF Atomic Orbitals
Fig. 5c "Inbetween" Interference	Fig. 26b Group III Periodic Trends
Fig. 6 Sine Wave	Fig. 27 Atomic Radii and Ionization Energies
Fig. 7 Two Slit Diffraction of a Plane Wave	Fig. 27b Periodic Trends--Electronegativities
Fig. 8 The Photoelectric Experiment	Fig. 27c Atomic Radius
Fig. 9 Photoelectric Effect Exp'l Results	Fig. 28a Ionization Energy
Fig. 10 Photoelectric Conversion of Energy	Fig. 29 Periodic Trends and Electron Affinities
Fig. 11 Diffraction of Electrons	Fig. 29a Periodic Trends and Electron Affinities
Fig. 12 Two-Slit Experiment particles and waves	Fig. 30 Several Electron Configurations and AufBau
Fig. 13 Two-Slit Experiment	Fig. 31 H₂ ions energy as a function of separation
Fig. 13a Two-Slit Experiment	Fig. 31a H₂ ions energy as a function of separation
Fig. 13b Two-Slit Experiment	Fig. 31b H₂ ions energy as a function of separation
Fig. 14 Atomic Spectra	Fig. 34a H₂ ion wavefunction and density, R=250
Fig. 15 H Atom Spectra and Series	Fig. 34b H₂ ion wavefunction and density, R=150
Fig. 16 Spherical Polar Coordinates	Fig. 34c H₂ ion wavefunction and density, R=75
Fig. 17 Total Wavefunction for H atom	Fig. 34d
Fig. 18 Radial Wavefunction for H atom	Fig. 34e
Fig. 19 3-D Plots of Angular H-Wavefunction	Fig. 35 Turning atomic orbitals into sigma MOs
Fig. 20 Radial Probablity Density for H atom	Fig. 36 Turning atomic p-orbitals into pi-orbitals
Fig. 20a Radial Probablity Distribution n=1 or 2	Fig. 37 Energy Level Diagrams for MOs
Fig. 20b Radial Probablity Distribution n=3	Fig. 37b Energy Level Diagram, 2nd Row Diatomics
Fig. 20c Radial Probablity Distribution l=0	Fig. 38 Turning Atomic Orbitals into Molecular Orbitals
Fig. 21 Various Series in H atom Spectra	Fig. 39 Formation of Molecular Orbitals in Diatomics
Fig. 22 H Atom Energies	Fig. 40 H₂ Molecular Orbital Filling
Fig. 23 Atomic Beams and the Origin of Spin	Fig. 41 N₂ Molecular Orbital Filling
Fig. 24 Many Electron Systems	Fig. 42 N₂ Molecular Orbital Filling
	Fig. 43 O₂ Molecular Orbital Filling
	Fig. 44 LiF Molecular Orbital Filling
	Fig. 45 BO Molecular Orbital Filling