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Course title |
古典力學
Classical Mechanics |
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Semester |
102-1 |
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Designated for |
COLLEGE OF SCIENCE GRADUATE INSTITUTE OF APPLIED PHYSICS |
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Instructor |
胡崇德 |
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Curriculum Number |
Phys7019 |
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Curriculum Identity Number |
222 M1940 |
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Class |
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Credits |
4 |
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Full/Half
Yr. |
Half |
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Required/
Elective |
Elective |
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Time |
Tuesday 8,9(15:30~17:20) Thursday 8,9(15:30~17:20) |
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Room |
新物111新物111 |
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Remarks |
The upper limit of the number of students: 90. |
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Ceiba Web Server |
http://ceiba.ntu.edu.tw/1021cm |
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Course introduction video |
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Table of Core Capabilities and Curriculum Planning |
Table of Core Capabilities and Curriculum Planning |
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Course Syllabus
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Please respect the intellectual property rights of others and do not copy any of the course information without permission
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Course Description |
(1) Lagrangian Mechanics
(2) Central-Force Dynamics
(3) Rotation and transformation
(4) Relativistic mechanics
(5) Hamilton equations
(6) Canonical transformation
(7) Classical field theory |
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Course Objective |
Classical Mechanics affords students an opportunity to realize the structure of physics, master the tehcniques of derivation and offers solid training on problem-solving. It can also serve as a springboard for advanced study modern physics and field theory. |
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Course Requirement |
Classical Mechanics affords students an opportunity to realize the structure of physics, master the tehcniques of derivation and offers solid training on problem-solving. |
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Student Workload (expected study time outside of class per week) |
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Office Hours |
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Designated reading |
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References |
Classical Mechanics, third edition, by Goldstein, Poole and Safko.
The Classical Theory of Fields, by L. D. Landau and E. M. Lifshitz.
Classical Field Theory, electromagnetism and gravitation, by Francis E. Low. |
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Grading |
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Week |
Date |
Topic |
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第1週 |
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Chapter 2 Lagrangian equation |
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第2週 |
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Chapter 2 Lagrangian equation |
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第3週 |
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Chapter 3 Central-force problem |
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第4週 |
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Chapter 3 Central-force problem |
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第5週 |
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Chapter 4 Kinematics of rotation |
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第6週 |
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Chapter 4 Kinematics of rotation |
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第7週 |
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Chapter 4 Kinematics of rotation |
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第8週 |
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Introduction of Tensor Analysis |
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第9週 |
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Chapter 7 Special theory of relativity
Midterm exam (Chapter 2, 3, 4) |
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第10週 |
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Chapter 7 Special theory of relativity |
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第11週 |
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Chapter 7 Special theory of relativity
Chapter 8 Hamilton equations |
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第12週 |
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Chapter 8 Hamilton equations |
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第13週 |
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Chapter 8 Hamilton equations |
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第14週 |
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Chapter 9 Canonical transformation |
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第15週 |
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Chapter 9 Canonical transformation |
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第16週 |
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Chapter 13 Classical field theory |
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第17週 |
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Chapter 13 Classical field theory |
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第18週 |
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Final exam (chapter 7, 8, 9, 13) |