Prove Alfvens theorem: In a perfectly conducting fluid (say, a gas of free electrons), the magnetic flux

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Prove Alfven’s theorem: In a perfectly conducting fluid (say, a gas of free electrons), the magnetic flux through any closed loop moving with the fluid is constant in time. (The magnetic field lines are, as it were, “frozen” into the fluid.)

(a) Use Ohm’s law, in the form of Eq. 7.2, together with Faraday’s law, to prove that if σ =∞and J is finite, then ∂B/∂t = ∇ × (v × B).

(b) Let S be the surface bounded by the loop (P) at time t, and S a surface bounded by the loop in its new position (P) at time t + dt (see Fig. 7.58). The change in flux is

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Introduction To Electrodynamics

ISBN: 9781108420419

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Question Posted: Aug 05, 2022 01:22 AM

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Prove Alfvens theorem: In a perfectly conducting fluid (say, a gas of free electrons), the magnetic flux

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R S P S' vdt FIGURE 7.58 P'

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a b J oE vxB J finit...View the full answer

Introduction To Electrodynamics

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