EC ENGR 270
Applied Quantum Mechanics
Description: Lecture, four hours; discussion, one hour; outside study, seven hours. Preparation: modern physics (or course 123A), linear algebra, and ordinary differential equations courses. Principles of quantum mechanics for applications in lasers, solid-state physics, and nonlinear optics. Topics include eigenfunction expansions, observables, Schrödinger equation, uncertainty principle, central force problems, Hilbert spaces, WKB approximation, matrix mechanics, density matrix formalism, and radiation theory. Letter grading.
Units: 4.0
Units: 4.0
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Most Helpful Review
Fall 2021 - Professor Williams is a phenomenal guy. He puts a lot of efforts in explaining the concepts and try his best to make everyone understood the lecture. He often uses interactive methods to explain the dauntingly difficult topics. The class had 5 HW assignment (somewhat difficult but late submission was allowed), 3 quizzes (Easy), and a review paper (on any topic related to QM) & short presentation. I couldn't score well in the class due to personal reasons, but he graded leniently. Overall, the class was informative and engaging even to somebody like me who had no prior experience in QM. I would highly recommend this class.
Fall 2021 - Professor Williams is a phenomenal guy. He puts a lot of efforts in explaining the concepts and try his best to make everyone understood the lecture. He often uses interactive methods to explain the dauntingly difficult topics. The class had 5 HW assignment (somewhat difficult but late submission was allowed), 3 quizzes (Easy), and a review paper (on any topic related to QM) & short presentation. I couldn't score well in the class due to personal reasons, but he graded leniently. Overall, the class was informative and engaging even to somebody like me who had no prior experience in QM. I would highly recommend this class.
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