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Chapter 6. Magnetic Fields in Matter. Department of Physics , ROCMA. Magnetization. Magnetization. Magnetization. Torques and Forces on Magnetic Dipoles. rotation. Magnetization. paramagnetism. random. External B field. Diamagnetism. Ferromagnetism. Magnetization.
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Chapter 6 Magnetic Fields in Matter Department of Physics , ROCMA
Magnetization Torques and Forces on Magnetic Dipoles rotation
Magnetization paramagnetism random External B field Diamagnetism Ferromagnetism
Magnetization Force on magnetic dipole Case of uniform field (B=constant): 0
Magnetization Case of nonuniform field (B ≠ constant): y x Fringing field B I
Magnetization z I y x
Magnetization z I y x
Magnetization + Electric dipole - N Magnetic dipole I S Gilbert model Ampere model
Magnetization Effect of magnetic field on atomic orbits
Magnetization only electric force add magnetic field
Magnetization when B is turn on,the electron speeds up.
Bound Currents --Using Biot-Savart law
Bound Currents Exp 1: Find the magnetic field at the center of a uniformly magnetized sphere.
Bound Currents Exp 1:
Bound Currents Exp 1: θ R
Bound Currents Exp 1: b
Bound Currents Find the magnetic field of point P.
Bound Currents q2 q u q1 R
Physical Interpretation of Bound Currents When the magnetization is uniform:
Physical Interpretation of Bound Currents When the magnetization is nonuniform:
The Auxiliary Field H Exp 2: A long copper rod of radius Rcarries a uniformly distributed (free) current I. Find H inside and outside the rod. • The Auxiliary Field H
The Auxiliary Field H Exp 2:
A Deceptive Parallel Ampere law in vacuum : Ampere law in magnetic materials : Whereas ,the divergence of is not, in general, zero.
Linear and Nonlinear Media For linear isotropic homogeneous media Electric Magnetic
Linear and Nonlinear Media Exp 3: An infinite solenoid (n turns per unit length, current I) is filled with linear material of susceptibility χ m. Find the magnetic field inside the solenoid.
Ferromagnetism Ferromagnetic Materials : Fe, Co, Ni, Gd, Dy domain domain wall The domains range from about 10-12 to 10-8m3in volume and contain 1017 to 1021 atoms.
Ferromagnetism Ferromagnetic domains. (photo courtesy of R. W. DeBlois)
Ferromagnetism Hysteresis loop saturation remanence b c a g d f e coercive
Ferromagnetism Hysteresis loop hard soft