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PYSICS 30471 Electricity & Magnetism Tuesday and Thursday 12:30-1:45 At DeBartolo, Room 119 By Prof. S. Frauendorf 125 NSH 1-3875

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Presentation on theme: "PYSICS 30471 Electricity & Magnetism Tuesday and Thursday 12:30-1:45 At DeBartolo, Room 119 By Prof. S. Frauendorf 125 NSH 1-3875"— Presentation transcript:

1 PYSICS 30471 Electricity & Magnetism Tuesday and Thursday 12:30-1:45 At DeBartolo, Room 119 By Prof. S. Frauendorf 125 NSH 1-3875 sfrauend@nd.edu

2 Office hours: Tuesday and Thursday 10:30-11:30 Homework: Every week, due on Tuesdays by 16:00. Will be provided as MS doc file in the 30471 course space. Late homework policy: Turned in within the week of the deadline: 75% within the following week: 50% later: 0% Graded HW back after 2 weeks.

3 Midterm Exam 30% Final Exam40% Homework30% Grade Grades available on WebCT Teaching assistant: Sun Jie(Jason), room 120 tel.:1-4743 jsun@nd.edu

4 Style Combination of Powerpoint slides containing the most important results available in the course space phys30471.01 I:\coursefa.06\phys\phys30471.01 and handwritten notes derivations, explanations, …

5 Syllabus Text: Introduction to Electrodynamics, David J. Griffiths, (3 rd ed. 1999 ), Chapters 1-7 1.Vector Analysis 2.Electrostatics 3.Special Techniques 4.Electric Fields in Matter 5.Magnetostatics 6.Magnetic Fields in Matter 7.Electrodynamics

6 Advertisment What is electrodynamics, and how does it fit into the general scheme of physics?

7 Natural phenomena are governed by the electromagnetic interaction.

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9 It governs our man-made world as well.

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11 It keeps the molecules together.

12 Even where you do not expect it, the electromagnetic interaction is at work.

13 Mechanics tells us the reaction of a body to a force. Forces are given.

14 Electromagnetism is the theory two types of forces: Electric force Magnetic force

15 Classical Mechanics Newton Quantum Field Theory Dirac, Pauli, Feynman, Schwinger, …. Quantum Mechanics Bohr, Heisenberg, Schrödinger, … small Special Relativity Einstein fast

16 Electric Charge (q, Q) 1.Charge exists as +q and –q. At the same point: +q-q=0 2.Charge is conserved (locally). 3.Charge is quantized. +q =n (+e), -q = m (-e), m, n, integer electron: –e, positron: +e, proton: +e, C-nucleus: 6(+e) Charge conservation in the micro world: p + e -> n (electron capture) Macro world: q ~e Quantization is unimportant. Imagine charge as some kind of jelly.

17 The Field Formulation qq F E q v = c Light wave

18 Four kinds of forces - interactions 1.Strong Keeps nuclei and nucleons together. 2.ElectromagneticMost common phenomena. 3.Weakβ-decay n->p+e+ν 4.GravitationalKeeps the Universe together. Unification electric + magneticelectromagnetic electrodynamic + weakelectroweak electromagnetic + optic electrodynamic

19 In Quantum Field theory the difference between particles and forces becomes rather diffuse. Two types of quantum particles: Fermions and Bosons.

20 SI-Units Systeme Internationale Mechanics length:meter (m) mass:kilogram (kg) time:second (s) force:newton ( work:joule (J = N m) Power: watt (W = J/s) Electromagnetism current: ampere (A) charge: coulomb (C = As) voltage: volt (V ) work: (W s = V A s) power: watt (W = V A) The equations of EM contain


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