Review of Electrodynamics
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1 Review of Electrodynamics VBS/MRC Review of Electrodynamics 0
2 First, the Questions What is light? How does a butterfly get its colours? How do we see them? VBS/MRC Review of Electrodynamics 1
3 Plan of Review Electrostatics Magnetostatics Electrodynamics Electrodynamics in Matter Potentials Light And other things! VBS/MRC Review of Electrodynamics 2
4 But first, some basics... Vector field v(r) a vector is associated with every point in space Divergence of a vector field measure of flux v Gauss Divergence Theorem vdv = V S v nds Curl of a vector field measure of vorticity v Stokes Curl Theorem ( v) nds = S L v dl VBS/MRC Review of Electrodynamics 3
5 Electrostatics Electric field of a point charge q is E(r) = 1 q ( r ) 4πε 0 r 2 r Force on another charge q : F elec = q E A continuous distribution of charge ρ(r) (Gauss Law) E = ρ ε 0 In electrostatics, E = 0 (Static electric fields lead to conservative forces ) VBS/MRC Review of Electrodynamics 4
6 Magnetostatics Field field of a line element dl with current I B(r) = µ ( ) 0 Idl r 4π r 3 Force on a charge q : F mag = q v B A continuous static distribution of current distribution j(r) (Ampére s Law) B = µ 0 j B = 0, ALWAYS! There are no magnetic monopoles! VBS/MRC Review of Electrodynamics 5
7 Electrodynamics Changing magnetic fields produce electric fields (Faraday s Law) E + B t = 0 Changing electric fields produce magnetic fields (Maxwell s modification to Ampére s Law) B = µ 0 j + µ 0 ɛ 0 E t VBS/MRC Review of Electrodynamics 6
8 And, Maxwell s Equations In free space (ρ = 0, j = 0), God said and there was light! E = 0 B = 0 E + B t = 0 E B = µ 0 ɛ 0 t Partial differential equations for six quantities (three components each of E and B) Solution? Not so bad as it seems! VBS/MRC Review of Electrodynamics 7
9 Maxwell s Equations in Matter In matter (ρ f = 0, j f = 0), God said E + B t D = 0 B = 0 = 0 H = D t and there was light (with a different speed!!)! D Electric displacement H Axillary field VBS/MRC Review of Electrodynamics 8
10 Material Properties Relationship between electric displacement D and E (P polarisation, ε dielectric constant (material property)) D = ε 0 E + P = εε 0 E Ferroelectricity spontaneous P Relationship between axillary field H and B(M magnetisation, χ susceptibility (material property)) H = 1 µ 0 B M, M = χh Ferromagnetism spontaneous M VBS/MRC Review of Electrodynamics 9
11 Back to Vacuum, Solution of Maxwell Introduce potentials (φ electric potential, A magnetic vector potential) E = φ A t B = A Coulomb Guage (φ = 0, A = 0) leaves the Wave Equation Speed of light c = 1 ε0 µ 0 2 A = 1 c 2 2 A t 2 VBS/MRC Review of Electrodynamics 10
12 And, out comes Light! Look for wave like solutions A(r, t) = A 0 e (ik r ωt) (k(= 2π λ ˆk) wavevector, λ wavelength, ˆk direction) Solution gives Fields ω 2 = c 2 k 2, A 0 k = 0 E = A t = iωa 0e (ik r ωt) B = A = ik A 0 e (ik r ωt) Two possible polarisations; no longitudinal light waves! VBS/MRC Review of Electrodynamics 11
13 The Spectrum VBS/MRC Review of Electrodynamics 12
14 One More Essential Thing! Charged Particle Hamiltonian of a charged particle (q) moving in an electromagnetic field FIeld described by φ(r) and A(r) Hamiltonian H(r, p) = (p qa) (p qa) 2m + qφ Useful in Quantum Mechanics! Derive the Lorentz force! VBS/MRC Review of Electrodynamics 13
15 Colours of Butterfly... Not really pigments! Structural Colours!!! (Tayeb, Garlak, Enoch) VBS/MRC Review of Electrodynamics 14
16 And, How do we see? Rod cells, Cone cells Rhodopsin Photoactive protein And, how does Sachin hit those straight drives? VBS/MRC Review of Electrodynamics 15
17 All good, buts lets not forget.. VBS/MRC Review of Electrodynamics 16
18 Summary Electrodynamics, Maxwell s Equations Material Properties Wave type solutions Hamiltonian of charged particles VBS/MRC Review of Electrodynamics 17
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