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Course Introducion - Quantum Mechanics and Molecular Spectroscopy
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Week 1: Lecture 01
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Week 1: Lecture 02
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Week 1: Lecture 03
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Week 1: Lecture 04
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Week 1: Lecture 05
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Week 2: Lecture 06
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Week 2: Lecture 07
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Week 2: Lecture 08
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Week 2: Lecture 09
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Week 2: Lecture 10
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Week 3: Lecture 11
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Week 3: Lecture 12
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Week 3: Lecture 13
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Week 3: Lecture 14
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Week 3: Lecture 15
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Week 4 : Lecture 16
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Week 4 : Lecture 17
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Week 4 : Lecture 18
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Week 4 : Lecture 19
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Week 4 : Lecture 20
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Week 5: Lecture 21
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Week 5: Lecture 22
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Week 5: Lecture 23
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Week 5: Lecture 24
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Week 5: Lecture 25
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Week 6: Lecture 26
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Week 6: Lecture 27
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Week 6: Lecture 28
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Week 6: Lecture 29
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Week 6: Lecture 30
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Week 7: Lecture 31
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Week 7: Lecture 32
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Week 7: Lecture 33
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Week 7: Lecture 34
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Week 7: Lecture 35
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Week 8: Lecture 36
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Week 8: Lecture 37
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Week 8: Lecture 38
Description:
COURSE OUTLINE: This course is based on the application of quantum mechanics to molecular systems to probe their energy levels. Prior understanding of solutions to the time-independent Schrodinger equation is assumed. The major emphasis of this course is to derive the 'Transition Moment Integral' using a semi-classical approach. Further, the relationship between the transition moment integral to experimental observables such as extinction coefficient (from Beet-Lambert law) will be evaluated.

Quantum Mechanics and Molecular Spectroscopy

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Course Introducion - Quantum Mechanics and Molecular Spectroscopy