57 0 obj endobj << /S /GoTo /D (section*.7) >> 36 0 obj /Length 4495 (Charge density) endobj }����&~So��f��1V��4����1t^��6r�T]U`��[email protected]� �R�ւȔ�BX�c��$���s�^?�����ǡ�o~2�4�����;�����. Lecture 8: Scattering and Emission by a Periodic Rough Surface, Chapter 3. (References) (Contents) endobj x��[Ys��~ׯ�#X%�sv�a�W��^�q�q�`�P�%�����=38R�^��!�=}|}�Hv���� ��_�}�ꌊ�Ų˫L�Lk[ ͳ���Y��T�)W:_��j��*_���٢�n�Y����Y�4�߯�e=�N~�|ddf��B*\eS�A����z���p�?�)W��+��J ��dS*-���Yu[N��7�r2�y��м���W���7�����b�����+�*���.Q���7k������W��j��|t?12�]�uY�N���U}�\���Ļ`��,l�_D�geSͿ�L�����f��_r�W�,d�x��E�`�)JT��h�}�^5ժq�?�@�d���_����x�� my��i�qQL�ʘ��D (Gauss's law) endobj endobj 49 0 obj 44 0 obj << 36 0 obj endobj /Length 3496 9 0 obj Current density1 3. * 7v���}5���(~���ge�A� �t���5k>�u��� ��B�5��������`�IJ�GV��z*���C�Zf���w�KX(~AR�@S���^"`qVs�U)��0�)n"�#���-�Mڲ ,����S2~��ȏ�xz�����V�ﰁ�@u�����{��~��8����i8S5��| tE�-^A��B�ͯ����?m�����ҿ~�~`��P��o֥L����[email protected]�Z���f�?�u�T�c e��;��O�&Ēa�������mdIy�c�t�n?=�� JM�Q�Ki�gzx�*�驏�Q8�|�Hj�Q��GqL�:��ΦX���x*P � endobj (Contents) endobj 1 0 obj The recommend ed books for this course are discussed in the bibliography. endobj endobj << endobj Equipotential surface2 2. 40 0 obj endobj ECE 604, Lecture 23 Mon, Mar 4, 2019 When the terms multiplied by j!above can be ignored, then electrodynamics can be replaced with static electromagnetics, which are much simpler. 33 0 obj Quasi-static electromagnetic theory eventually gave rise to circuit theory and endobj 48 0 obj Lecture 6: The Method of Moments in Electromagnetics . 56 0 obj endobj electrodynamics lecture notes pdf preparing the properties of the nature of each part consists of science, generally considered to read your responsibility to classical mathematics. (Electric potential) Lecture notes on classical electrodynamics Ming-Che Chang Department of Physics, National Taiwan Normal University, Taipei, Taiwan (Dated: November 2, 2020) Contents I. Electrostatics 1 A. Introduction1 B. Coulomb’s law1 C. Electric potential2 1. endobj << /S /GoTo /D (section*.9) >> "�z.ȼy��لip�ۦ�8 69�A\獏42F�l�SZ �{��9 �u���H��IJxd�5����D���C��@4b �;��­��Э1h�RJA��ccp�����6�;�JxQ g(� ��w���>�����evA0�v!0X�/��M endobj 16 0 obj 44 0 obj << /S /GoTo /D (section*.9) >> endobj << /S /GoTo /D (section*.5) >> �AbA��u�޾���ꦞf{��Ub���N�1����&��B�;�l�:�ښ����g a�����. << /S /GoTo /D (section*.13) >> endobj 41 0 obj endobj endobj 20 0 obj (Maxwell equations in vacuum) (Introduction) << /S /GoTo /D (section*.11) >> 2 I thank my TAs Dr. Dana Levanony and Mr. Yaroslav Pollak for all their help and Prof. Amos Ori and Dr. Oded Kenneth for all they taught me. However, the notes may be useful to students 53 0 obj Content of electrodynamics lecture notes pdf preparing the treatment focuses on classical and the level. NG2����a�7�1��J�Xk�t676���&çeӒq{\^�S�#�!n���v!q(�Ak6No!G�l��,h�,�q�AF&N�� ��wT���a4�6HY��U�B�W���˳��i� Zg�\��ϖg��N�9 45 0 obj endobj (Magnetostatics) endobj (Charge and current) << /S /GoTo /D (section*.10) >> 29 0 obj endobj These typeset notes have been produced mainly for my own benefit but seem to be officially supported. endobj << /S /GoTo /D (section*.14) >> << /S /GoTo /D (section*.6) >> 64 0 obj Send to [email protected] endobj This set of “lecture notes” is designed to support my personal teach-ing activities at Duke University, in particular teaching its Physics 318/319 series (graduate level Classical Electrodynamics) using J. D. Jackson’s Clas-sical Electrodynamics as a primary text. 48 0 obj 24 0 obj 25 0 obj << /S /GoTo /D (section*.2) >> endobj 28 0 obj %PDF-1.5 /Filter /FlateDecode 4 0 obj 37 0 obj endobj endobj /Filter /FlateDecode 21 0 obj ��TQ�&[����r�ֹ��E�r endobj 8 0 obj (Equipotential surface) The Maxwell equations 1 A. 29 0 obj ��+��AL$T���� ɻە�…Ӹɛk�R����>k���o���x>�X�å��Cn$��7�+�B���s�a&�T7a��ao���Y!z"�I� $�/S� endobj x��;]��6����{1��b�M"[y�'c����M. (Electric potential energy) (References) << /S /GoTo /D (section*.4) >> Lecture 4: Green's Functions for Planarly Layered Media (continued) Lecture 5: Integral Equations in Electromagnetics . That is why Ampere’s law, Coulomb’s law, and Gauss’ law were discovered rst. endobj << /S /GoTo /D (section*.1) >> endobj 20 0 obj (Current density) 8 0 obj Earnshaw’s theorem3 D. Gauss’s law3 E. Boundary condition for E 4 1. endobj 12 0 obj endobj (Coulomb's law) endobj Conservation of charge2 B. Maxwell equations in vacuum2 1. (Solid angle) Charge and current1 1. << /S /GoTo /D (section*.8) >> endobj >> 4 0 obj >> << /S /GoTo /D [58 0 R /Fit] >> %PDF-1.5 Lecture Notes on Classical Electrodynamics - Mathematical Foundations Junjun Xu Department of Physics, University of Science and Technology Beijing << /S /GoTo /D (section*.10) >> 5 0 obj (Conservation of charge) Lecture 9: Study of EM Waves in Periodic Structures endobj 5 0 obj 1������")�h�ް�K�A� endobj However, the notes may be useful (Force on charged surface) 40 0 obj endobj 17 0 obj << /S /GoTo /D (section*.7) >> endobj 13 0 obj %���� << /S /GoTo /D (section*.2) >> Charge density1 2. (Some history) << /S /GoTo /D (section*.1) >> endobj Lecture notes on classical electrodynamics Ming-Che Chang Department of Physics, National Taiwan Normal University, Taipei, Taiwan (Dated: October 12, 2020) Contents I. 12 0 obj Lecture 7: Time Domain Method of Moments . 24 0 obj << /S /GoTo /D (section*.11) >> 37 0 obj 1 0 obj << /S /GoTo /D [50 0 R /Fit] >> Ag4��#�֝QVXʁ�Ão %Q(���Ѧ��H�[��=�Vכ.�! These notes are based on the course “Electrodynamics” given by Dr. M. J. Perr y in Cambridge in the Michælmas Term 1997. (Electrostatics) endobj << /S /GoTo /D (section*.5) >> J���?�&\��x�{�s��$Z����`a&Ha��Gnaz� �`3V��I!��? 16 0 obj Lecture notes on Electrodynamics{118120 J.E. endobj 25 0 obj 41 0 obj 28 0 obj (Dynamic electromagnetic field) 33 0 obj 32 0 obj endobj The 52 0 obj stream 21 0 obj 32 0 obj << /S /GoTo /D (section*.12) >> 74 0 obj 9 0 obj endobj 17 0 obj endobj (Electrostatic energy) 13 0 obj << /S /GoTo /D (section*.3) >> endobj endobj stream endobj 45 0 obj << /S /GoTo /D (section*.4) >> �� *�6&����8�� �p/~�cj�p�����0��^���?��;�@��}�?�g��D����v�=8UGH�oU�|Q��:����3��ݣa)����׸n�zU5k��6a����z�A��&��D:�� ���Z���Q�U.��� (Earnshaw's theorem) 49 0 obj << /S /GoTo /D (section*.3) >> This set of “lecture notes” is designed to support my personal teaching ac-tivities at Duke University, in particular teaching its Physics 318/319 series (graduate level Classical Electrodynamics) using J. D. Jackson’s Classical Elec-trodynamics as a primary text. Avron1 May 5, 2013 1Comments and typos welcome. endobj endobj (Electrostatics) %���� << /S /GoTo /D (section*.12) >> endobj endobj (Boundary condition for E) endobj << /S /GoTo /D (section*.6) >> (The Maxwell equations) |�Al��k� 2_��B��fj��>d"�mJ���0=�x�eL�:j�QkIͫj(��Q0�� /���=�`��C��lk��d << /S /GoTo /D (section*.8) >>