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Transcript 
Home Work Problem Set 9
9-1 The magnetic field of Earth can be approximated as the magnetic field of a dipole. The
horizontal and vertical components of this field at any distance r from Earth’s center are given by
where λm is the magnetic latitude (this type of latitude is measured from the geomagnetic equator
toward the north or south geomagnetic pole). Assume that Earth’s magnetic dipole moment has
magnitude μ = 8.00 × 1022 A‧m2. (a) Show that the magnitude of Earth’s field at latitudeλm is
given by
(b) Show that the inclination φi of the magnetic field is related to the magnetic latitudeλm by .
(HRW 32-55)
9-2 A charge q is distributed uniformly around a thin ring of radius r. The ring is rotating about an
axis through its center and perpendicular to its plane, at an angular speed ω. (a) Show that the
magnetic moment due to the rotating charge has magnitude (b) What is the direction of this magnetic
moment if the charge is positive? (HRW 32-60)
9-3 Consider a solid containing N atoms per unit volume, each atom having a magnetic dipole
momentμ. Suppose the direction ofμcan be only parallel or antiparallel to an externally applied
magnetic field B (this will be the case ifμis due to the spin of a single electron). According to
statistical mechanics, the probability of an atom being in a state with energy U is proportional to e-U/kT,
where T is the temperature and k is Boltzmann’s constant. Thus, because energy U is -μ‧B, the
fraction of atoms whose dipole moment is parallel to B is proportional to eμB/kT and the fraction of
atoms whose dipole moment is antiparallel to is proportional to e-μB/kT. (a) Show that the magnitude
of the magnetization of this solid is M = Nμtanh(μB/kT). Here tanh is the hyperbolic tangent
function: tanh(x) = (ex – e-x)/( ex + e-x). (b) Show that the result given in (a) reduces to M = Nμ2B/kT
forμB<<kT. (c) Show that the result of (a) reduces to M = Nμ forμB>>kT. (d) Show that both (b)
and (c) agree qualitatively with Fig. 32-14. (HRW32-45)
Fig. 32-14
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