上海交通大学：《电动力学》课程PPT教学课件_Introduction to Electrodynamics

Lecture:Introduction to Electrodynamics Introduction to Electrodynamics Min Chen minchen(@situ.edu.cn Laboratory for Laser Plasma Physics (LLP) Department of Physics Shanghai Jiao Tong University 13-02-25 2013 Spring Semester,course for international class of physics department

Introduction to Electrodynamics 2013 Spring Semester,course for international class of physics department Min Chen minchen@sjtu.edu.cn Laboratory for Laser Plasma Physics (LLP) Department of Physics Shanghai JiaoTong University 13-02-25 Lecture: Introduction to Electrodynamics

Introduction to this course 1.Why should we learn Electrodynamics? 2.What will we learn Course arrangements ·3.Reference books 4.Questions?Lecture notes? .5.A little bit about CED history

Introduction to this course  1.Why should we learn Electrodynamics?  2.What will we learn & Course arrangements  3. Reference books  4. Questions? Lecture notes?  5.A little bit about CED history

Why should we learn CED? 1.A most important fundamental course for the students from the department of physics Classical Electrodynamics deals with electric and magnetic fields and interaction caused by macroscopic distributions of electric charges and currents. .2.Widely used still in the research frontiers 3.Learn physics,learn scientific methods,ideas,and apply your mathematics. .4.The knowledge you learned here will be widely used in your further studies. plasma physics,solid physics,condensed matter physics,astrophysics,quantum physics

Why should we learn CED?  1. A most important fundamental course for the students from the department of physics Classical Electrodynamics deals with electric and magnetic fields and interaction caused by macroscopic distributions of electric charges and currents.  2. Widely used & still in the research frontiers  3. Learn physics, learn scientific methods, ideas, and apply your mathematics.  4. The knowledge you learned here will be widely used in your further studies. plasma physics, solid physics,condensed matter physics, astrophysics, quantum physics, ……

Reference books David J.Griffiths:"Introduction to Electrondynamics",World publishing corporation Our lectures are based on this book. J.D.Jackson,Classical Electrodynamics, For advanced studies,for graduated students ·郭硕鸿，《电动力学》，高等教育出版社 Very helpful.Learn chinese terminoloies

Reference books  David J. Griffiths: “Introduction to Electrondynamics”, World publishing corporation Our lectures are based on this book.  J. D. Jackson, Classical Electrodynamics, For advanced studies, for graduated students  郭硕鸿，《电动力学》，高等教育出版社 Very helpful. Learn chinese terminoloies

Course arrangements Schedule: 4 courses(2 times)/week,total 16 weeks(64hs): Lecture courses 58 hs;One holiday 2hs; Mid-term examination on 13-04-22(2hs)and one excises courses(2hs)before mid-term examination. Final examination and excises courses during the last two weeks. Credits and evaluation: Attendance 10%,Homework 30%,Mid-term Examination 30%,Final Examination 30%. Contents: 1.Electrostatics (8) 2.Electric Fields in Matter (6) 3.Magnetostatics (8) 4.Magnetic Fields in Matter (6) 28 Mid-term examination 5.Electrodynamics- (6) April.22,2013,2hs 6.Conser vation Laws (1) April.18,2013,Excise Course 7.Electromagnetic Waves (8) 8.Potential and Fields (7) 9.Relativity (8) 30 Final examination

Course arrangements  Schedule: 4 courses (2 times)/week, total 16 weeks (64hs): Lecture courses 58 hs; One holiday 2hs; Mid-term examination on 13-04-22 (2hs) and one excises courses (2hs) before mid-term examination. Final examination and excises courses during the last two weeks.  Credits and evaluation: Attendance 10%, Homework 30%, Mid-term Examination 30%, Final Examination 30%.  Contents: 1. Electrostatics (8) 2. Electric Fields in Matter (6) 3. Magnetostatics (8) 4. Magnetic Fields in Matter (6) 28 5. Electrodynamics (6) 6. Conservation Laws (1) 7. ElectromagneticWaves (8) 8. Potential and Fields (7) 9. Relativity (8) 30 Mid-term examination April. 22, 2013, 2hs April. 18, 2013, Excise Course Final examination

Questions Lecture notes? Questions→Teach Assistant:Dr.Gang Guo(郭刚) Email:gangg23@gmail.com Min Chen(陈民)，LLP312 Email:minchen@situ.edu.cn ●Lecture notes Will be uploaded to: http://llp.sjtu.edu.cn/courses/minchen/CED.html

Questions & Lecture notes?  Questions TeachAssistant: Dr. Gang Guo (郭刚) Email: gangg23@gmail.com Min Chen (陈民), LLP, 312 Email: minchen@sjtu.edu.cn  Lecture notes Will be uploaded to: http://llp.sjtu.edu.cn/courses/minchen/CED.html

Development history and influence on science Classical electrodynamics 。 Coulomb,Ampere,Faraday, ·J.C.Maxwell electromagnetic/classical electrodynamics Revolution of humanbeing's space-time view ·H.A.Lorentz Lorentz force,foundation for Relativity A.Einstein,Special Relativity Further development from this: 。A.M.Dirac sysmetric form,foundation for QED S.Glashow,A.Salam S.Weinberg electro-weak theory

Development history and influence on science Classical electrodynamics  Coulomb, Ampere, Faraday,  J. C. Maxwell electromagnetic/classical electrodynamics Revolution of humanbeing ’ s space-time view  H. A. Lorentz Lorentz force, foundation for Relativity  A. Einstein, Special Relativity Further development from this:  A. M. Dirac sysmetric form, foundation for QED  S. Glashow, A. Salam & S. Weinberg electro-weak theory