Physics 401: “Electromagnetic Theory” (Electrodynamics)jick.net/p401/ppt/L01.pdf · E&M Review...
Transcript of Physics 401: “Electromagnetic Theory” (Electrodynamics)jick.net/p401/ppt/L01.pdf · E&M Review...
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Physics 401: “Electromagnetic Theory” (Electrodynamics)
MWF 09:00 - Hebb 12 – Jess H. Brewer ([email protected])
http://musr.physics.ubc.ca/p401/
Everything is on the Website!
Schedule – Syllabus – Course Outline – Seminar TopicsLectures – Assignments – Solutions – Old Exams
People Database – Surveys (feedback) – E&M Links
Please familiarize yourself with these.
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The Plan for Today:● Website tour:
● People Database, Surveys (feedback) & Schedule Conflicts● Syllabus – Administrivia, Marks etc. - Tentative Course Outline● Seminars and some Typical Topics – External E&M Links● Lectures – Assignments – Solutions – Old Exams
● Grand Overview of Modern Physics (?)
● Review of Electrostatics & Magnetostatics– Electromagnetic Forces and Fields
– Discrete & Continuous distributions of Charge & Current
– Coulomb's (↔ Gauss') Law & Biot-Savart (↔ Ampère's) Law
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Lecture
My (Add yours!)
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Paradox in Classical E&M: the Lorentz force appears to violate Newton's Third Law!
Calculate on each charged particle due to the fields caused by the other one. (Assume both charges are positive.)
Do you believe your answer?
Don't worry, we'll fix it up in P401 (eventually).
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Static charges ⇒ E field. (Coulomb's Law)
Moving charges ⇒ B field. (Ampère's Law)
So viewing an E field from a moving reference frame changes it (partly) into a B field? Yes!
Changing (or moving, or moving through) a B field induces an E field. (Faraday's Law)Changing (or moving, or moving through) an E field induces a B field. (Maxwell's correction of Ampère's Law)
So we get a wave propagating through vacuum at without reference to any fixed coordinates? Yes!
Intimations of 1905:
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Electrodynamics: where Modern Physics begins !
Electroweak (Std. Model)
Four Forces: Gravity Weak Electromagnetic Strong 10 – 40 10 –9 α=1/137 1
Static charges (Coulomb's Law): Electric Forces
(motion) → Magnetic Forces
the first Unification:
Goal: Grand Unification (maybe by one of you?)
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E&M Review(what I hope you learned in PHYS 301/354 or equiv.)● Electric (magnetic) forces on (moving) electric charges● Linear superposition of vector fields● Electrostatic work & energy● Electric field E & potential V: “toolbox” of techniques● Conductors: boundary conditions for Laplace's equation● Mastery of vector calculus and differential equations● Magnetic fields due to steady currents J(r ')● Multipole expansions for arbitrary ρ(r ') or J(r ') ● Materials & dipoles: polarizability & magnetization● Time-dependent fields & Maxwell's equations● Electromagnetic waves carry energy & momentum.
PHYS 401 picks up here.
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Direct Force Laws:
Electric force F12 on q2 due to q1:
Magnetic force dF12 on current element I2dℓ2 due to I1dℓ1 :
(Yuk! This is why we invented vector fields in the first place!)
r
r
›r
›r
r
➞r
➞r
➞r ›
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Fundamental Constants
kE ≡ 1/4πє0 = c 2 x kM = 8.9875518 x 10
9 V•m•C –
1
є0 = 10 7 N•A
– 2 / 4πc
2 = 8.8541878 x 10 –
12 C2•N
– 1•m–
2
c ≡ 2.99792458 x 10 8 m/s = (є0 µ0 )
– ½
Units: SI (mks or “engineering” units) used in Griffiths and P401.
kM ≡ µ0 /4π ≡ 10 –
7 N•A
– 2 µ0 ≡ 4π • 10
– 7 N•A–
2
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Law of Biot & SavartMagnetic field dB due to a current element Idℓ :
Magnetic field B due to a continuous current distribution:
r
r
›r
›r
➞r
➞r
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Coulomb ↔ Gauss & Biot-Savart ↔ AmpèreCoulomb's Law Law of Biot & Savart
Gauss' Law div + . .
.curl + some hairy
vector calculus
Ampère'sLaw
Gauss'Law
Stokes'theorem
div + simplevector calculus
(pre-Maxwell)
›r›rrr