Lecture 35. PHYC 161 Fall 2016

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Transcription:

Lecture 35 PHYC 161 Fall 2016

Induced electric fields A long, thin solenoid is encircled by a circular conducting loop. Electric field in the loop is what must drive the current. When the solenoid current I changes with time, the magnetic flux also changes, and the induced emf can be written in terms of induced electric field:

Two equivalent statements:

Displacement current Ampere s law is incomplete, as can be shown by considering the process of charging a capacitor, as shown. For the plane circular area bounded by the circle, I encl is the current i C in the left conductor. But the surface that bulges out to the right is bounded by the same circle, and the current through that surface is zero. This leads to a contradiction.

Displacement current When a capacitor is charging, the electric field is increasing between the plates. We can define a fictitious displacement current i D in the region between the plates. This can be regarded as the source of the magnetic field between the plates.

Maxwell s equations of electromagnetism All the relationships between electric and magnetic fields and their sources are summarized by four equations, called Maxwell s equations. The first Maxwell equation is Gauss s law for electric fields from Chapter 22: The second Maxwell equation is Gauss s law for magnetic fields from Chapter 27:

Maxwell s equations of electromagnetism The third Maxwell equation is this chapter s formulation of Faraday s law: The fourth Maxwell equation is Ampere s law, including displacement current:

Maxwell s equations in empty space There is a remarkable symmetry in Maxwell s equations. In empty space where there is no charge, the first two equations are identical in form. The third equation says that a changing magnetic flux creates an electric field, and the fourth says that a changing electric flux creates a magnetic field.

Superconductivity in a magnetic field When a superconductor is cooled below its critical temperature T c, it loses all electrical resistance. For any superconducting material the critical temperature T c changes when the material is placed in an externally produced magnetic field. Shown is this dependence for mercury. As the external field magnitude increases, the superconducting transition occurs at a lower and lower temperature.

The Meissner effect If we place a superconducting material in a uniform applied magnetic field, and then lower the temperature until the superconducting transition occurs, then all of the magnetic flux is expelled from the superconductor. The expulsion of magnetic flux is called the Meissner effect.

Mutual inductance Consider two neighboring coils of wire, as shown. If the current in coil 1 changes, this induces an emf in coil 2, and vice versa. The proportionality constant for this pair of coils is called the mutual inductance, M.

Mutual inductance The mutual inductance M is: The SI unit of mutual inductance is called the henry (1 H), in honor of the American physicist Joseph Henry. 1 H = 1 Wb/A = 1 V s/a = 1 Ω s = 1 J/A 2

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