K6141020 Quantum Mechanics

Hiroshima University Syllabus

Japanese

Academic Year 2024Year School/Graduate School School of Engineering

Lecture Code K6141020 Subject Classification Specialized Education

Subject Name 量子力学

Subject Name
（Katakana）リヨウシリキガク

Subject Name in
English Quantum Mechanics

Instructor TAKANE YOSITAKE

Instructor
(Katakana) タカネ　ヨシタケ

Campus Higashi-Hiroshima Semester/Term 2nd-Year, Second Semester, 4Term

Days, Periods, and Classrooms (4T) Weds3-4,Fri1-2：ENG 103

Lesson Style Lecture Lesson Style
(More Details) 　

Credits 2.0 Class Hours/Week 　 Language of Instruction B : Japanese／English

Course Level 2 : Undergraduate Low-Intermediate

Course Area（Area） 25 : Science and Technology

Course Area（Discipline） 12 : Electronics

Eligible Students

Keywords

Special Subject for Teacher Education 　 Special Subject 　

Class Status
within Educational
Program
(Applicable only to targeted subjects for undergraduate students)
Criterion referenced
Evaluation
(Applicable only to targeted subjects for undergraduate students) Program of Electronic Devices and Systems
（Abilities and Skills）
・Concepts, knowledge and methods which are the basis for studies related to electronic engineering.

Class Objectives
/Class Outline This lecture explains the basics and several applications of quantum mechanics.

Class Schedule Harmonic oscillator: Creation and annihilation operators
Harmonic oscillator: Eigenfunctions and energy eigenvalues
Harmonic oscillator: Calculation of expectation values
Commutation relation and uncertainty principle: Formulation
Commutation relation and uncertainty principle: Simultaneous eigenstate
Hydrogen atom: Polar coordinates and angular momentum
Hydrogen atom: Eigenvalue equation and separation of variables
Hydrogen atom: Spherical harmonics
Hydrogen atom: Solution of the eigenvalue equation
Hydrogen atom: Quantum numbers, degeneracy, and probability distributions
Midterm examination
Uncertainty principle and stability of hydrogen atom
Tunneling effect
Time-dependent perturbation theory: Formulation
Time-dependent perturbation theory: Fermi's golden rule

Text/Reference
Books,etc. ・小出昭一郎「量子論」（裳華房）

PC or AV used in
Class,etc. 　

(More Details)

Learning techniques to be incorporated 　

Suggestions on
Preparation and
Review See handouts distributed in class

Requirements

Grading Method Evaluation based on midterm and term-end examinations as well as quizzes and post-class reports.

Practical Experience

Summary of Practical Experience and Class Contents based on it

Message

Other

Please fill in the class improvement questionnaire which is carried out on all classes.
Instructors will reflect on your feedback and utilize the information for improving their teaching.

Academic Year	2024Year	School/Graduate School	School of Engineering
Lecture Code	K6141020	Subject Classification	Specialized Education
Subject Name	量子力学
Subject Name （Katakana）	リヨウシリキガク
Subject Name in English	Quantum Mechanics
Instructor	TAKANE YOSITAKE
Instructor (Katakana)	タカネ　ヨシタケ
Campus	Higashi-Hiroshima	Semester/Term	2nd-Year, Second Semester, 4Term
Days, Periods, and Classrooms	(4T) Weds3-4,Fri1-2：ENG 103
Lesson Style	Lecture	Lesson Style (More Details)

Credits	2.0	Class Hours/Week		Language of Instruction	B : Japanese／English
Course Level	2 : Undergraduate Low-Intermediate
Course Area（Area）	25 : Science and Technology
Course Area（Discipline）	12 : Electronics
Eligible Students
Keywords
Special Subject for Teacher Education		Special Subject
Class Status within Educational Program (Applicable only to targeted subjects for undergraduate students)
Criterion referenced Evaluation (Applicable only to targeted subjects for undergraduate students)	Program of Electronic Devices and Systems （Abilities and Skills）・Concepts, knowledge and methods which are the basis for studies related to electronic engineering.
Class Objectives /Class Outline	This lecture explains the basics and several applications of quantum mechanics.
Class Schedule	Harmonic oscillator: Creation and annihilation operators Harmonic oscillator: Eigenfunctions and energy eigenvalues Harmonic oscillator: Calculation of expectation values Commutation relation and uncertainty principle: Formulation Commutation relation and uncertainty principle: Simultaneous eigenstate Hydrogen atom: Polar coordinates and angular momentum Hydrogen atom: Eigenvalue equation and separation of variables Hydrogen atom: Spherical harmonics Hydrogen atom: Solution of the eigenvalue equation Hydrogen atom: Quantum numbers, degeneracy, and probability distributions Midterm examination Uncertainty principle and stability of hydrogen atom Tunneling effect Time-dependent perturbation theory: Formulation Time-dependent perturbation theory: Fermi's golden rule
Text/Reference Books,etc.	・小出昭一郎「量子論」（裳華房）
PC or AV used in Class,etc.
(More Details)
Learning techniques to be incorporated
Suggestions on Preparation and Review	See handouts distributed in class
Requirements
Grading Method	Evaluation based on midterm and term-end examinations as well as quizzes and post-class reports.
Practical Experience
Summary of Practical Experience and Class Contents based on it
Message
Other
Please fill in the class improvement questionnaire which is carried out on all classes. Instructors will reflect on your feedback and utilize the information for improving their teaching.

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