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PC 321

Quantum Mechanics I

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Schroedinger equation, interpretation of the wave function, expectation value, Ehrenfest's theorem, wave packets, stationary states and energy quantization, potential wells and potential barriers, Kronig-Penney model, scattering and tunneling, the harmonic oscillator, Schroedinger equation in three dimensions, the hydrogen atom, WKB approximation. Prerequisites: PC242, MA205.

Schroedinger equation, interpretation of the wave function, expectation value, Ehrenfest's theorem, wave packets, stationary states and energy quantization, potential wells and potential barriers, Kronig-Penney model, scattering and tunneling, the harmonic oscillator, Schroedinger equation in three dimensions, the hydrogen atom, WKB approximation. Prerequisites: PC242, MA205.

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Schroedinger equation, interpretation of the wave function, expectation value, Ehrenfest's theorem, wave packets, stationary states and energy quantization, potential wells and potential barriers, Kronig-Penney model, scattering and tunneling, the harmonic oscillator, Schroedinger equation in three dimensions, the hydrogen atom, WKB approximation. Prerequisites: PC242, MA205.

PC 321 Prerequisites

PC 242 (Min. Grade D-) and MA 205 (Min. Grade D-)

PC 321 Leads To

No Leads To Information Available

PC 321 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)

PC 321

Quantum Mechanics I

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Schroedinger equation, interpretation of the wave function, expectation value, Ehrenfest's theorem, wave packets, stationary states and energy quantization, potential wells and potential barriers, Kronig-Penney model, scattering and tunneling, the harmonic oscillator, Schroedinger equation in three dimensions, the hydrogen atom, WKB approximation. Prerequisites: PC242, MA205.

Schroedinger equation, interpretation of the wave function, expectation value, Ehrenfest's theorem, wave packets, stationary states and energy quantization, potential wells and potential barriers, Kronig-Penney model, scattering and tunneling, the harmonic oscillator, Schroedinger equation in three dimensions, the hydrogen atom, WKB approximation. Prerequisites: PC242, MA205.

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Schroedinger equation, interpretation of the wave function, expectation value, Ehrenfest's theorem, wave packets, stationary states and energy quantization, potential wells and potential barriers, Kronig-Penney model, scattering and tunneling, the harmonic oscillator, Schroedinger equation in three dimensions, the hydrogen atom, WKB approximation. Prerequisites: PC242, MA205.

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