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CH 313

Quantum Chemistry

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Postulates and principles of quantum mechanics. Exact solutions of the Schrodinger Equation for model systems and the hydrogen atom. Variational method and perturbation theory. Hartree-Fock. Molecular orbital and valence bond theories. Density functional theory. Prerequisites: CH213 (or CH215). Notes: 3 lecture hours, 3 lab hours

Postulates and principles of quantum mechanics. Exact solutions of the Schrodinger Equation for model systems and the hydrogen atom. Variational method and perturbation theory. Hartree-Fock. Molecular orbital and valence bond theories. Density functional theory. Prerequisites: CH213 (or CH215). Notes: 3 lecture hours, 3 lab hours

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Postulates and principles of quantum mechanics. Exact solutions of the Schrodinger Equation for model systems and the hydrogen atom. Variational method and perturbation theory. Hartree-Fock. Molecular orbital and valence bond theories. Density functional theory. Prerequisites: CH213 (or CH215). Notes: 3 lecture hours, 3 lab hours

CH 313

Quantum Chemistry

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Postulates and principles of quantum mechanics. Exact solutions of the Schrodinger Equation for model systems and the hydrogen atom. Variational method and perturbation theory. Hartree-Fock. Molecular orbital and valence bond theories. Density functional theory. Prerequisites: CH213 (or CH215). Notes: 3 lecture hours, 3 lab hours

Postulates and principles of quantum mechanics. Exact solutions of the Schrodinger Equation for model systems and the hydrogen atom. Variational method and perturbation theory. Hartree-Fock. Molecular orbital and valence bond theories. Density functional theory. Prerequisites: CH213 (or CH215). Notes: 3 lecture hours, 3 lab hours

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Postulates and principles of quantum mechanics. Exact solutions of the Schrodinger Equation for model systems and the hydrogen atom. Variational method and perturbation theory. Hartree-Fock. Molecular orbital and valence bond theories. Density functional theory. Prerequisites: CH213 (or CH215). Notes: 3 lecture hours, 3 lab hours

CH 313 Prerequisites

CH 213 (Min. Grade D-) or CH 215 (Min. Grade D-)

CH 313 Leads To

No Leads To Information Available

CH 313 Restrictions

Must be enrolled in one of the following Levels:

Undergraduate (UG)

Cannot be enrolled in one of the following Year Levels:

Year 1 (1)

Not Applicable (N)

Course Schedule