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EM & Vector calculus #5 Physical Systems, Tuesday 27 Feb. 2007, EJZ Vector Calculus 1.6: Theory of vector fields Quick homework Q&A thanks to David for Dirac Delta during jury duty last week Helmholtz Theorem and Potentials E&M Ch.5.3-4: finishing Magnetostatics Quick homework Q&A Review, Div and curl of B Magnetostatic BC Magnetic vector potential Multipole expansion of vector potential?
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Vector calculus HW Online solutions at http://192.211.16.13/curricular/physys/0607/solns/ Ch.1.4 (Curvilinear coordinates): VC4.pdf Ch.1.5 (Dirac Delta): VCdd.pdf Lecture notes at http://192.211.16.13/curricular/physys/0607/lectures/
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Vector Fields: Helmholtz Theorem For some vector field F, if the divergence = D = F, and the curl = C = F, 0 then (a) what do you know about C ? and (b) Can you find F? (a) C = 0, because ( F) 0 (b) Can find F iff we have boundary conditions, and require field to vanish at infinity. Helmholtz: Vector field is uniquely determined by its div and curl (with BC)
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Vector Fields: Potentials.1 For some vector field F = - V, find F: (hint: look at identities inside front cover) F = 0 F = - V Curl-free fields can be written as the gradient of a scalar potential (physically, these are conservative fields, e.g. gravity or electrostatic).
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Theorem 1 – examples The second part of each question illustrates Theorem 2, which follows…
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Vector Fields: Potentials.2 For some vector field F = A, find F : F = 0 F = A Divergence-free fields can be written as the curl of a vector potential (physically, these have closed field lines, e.g. magnetic).
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Optional – Proof of Thm.2
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Practice with vector field theorems
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E&M Ch.5b: Magnetostatics Quick homework Q&A Review, Div and curl of B Magnetic vector potential Magnetostatic BC Multipole expansion of vector potential
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Magnetostatic BC
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Magnetic vector potential
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Multipole expansion
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Background: vector area
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Magnetic Dipole
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