16.1 Maxwell’s equations and electromagnetic waves

University physics volume 2 Page 1 / 8

By the end of this section, you will be able to:

Explain Maxwell’s correction of Ampère’s law by including the displacement current
State and apply Maxwell’s equations in integral form
Describe how the symmetry between changing electric and changing magnetic fields explains Maxwell’s prediction of electromagnetic waves
Describe how Hertz confirmed Maxwell’s prediction of electromagnetic waves

James Clerk Maxwell (1831–1879) was one of the major contributors to physics in the nineteenth century ( [link] ). Although he died young, he made major contributions to the development of the kinetic theory of gases, to the understanding of color vision, and to the nature of Saturn’s rings. He is probably best known for having combined existing knowledge of the laws of electricity and of magnetism with insights of his own into a complete overarching electromagnetic theory, represented by Maxwell’s equations .

Photograph of James Clerk Maxwell. — James Clerk Maxwell, a nineteenth-century physicist, developed a theory that explained the relationship between electricity and magnetism, and correctly predicted that visible light consists of electromagnetic waves.

Maxwell’s correction to the laws of electricity and magnetism

The four basic laws of electricity and magnetism had been discovered experimentally through the work of physicists such as Oersted, Coulomb, Gauss, and Faraday. Maxwell discovered logical inconsistencies in these earlier results and identified the incompleteness of Ampère’s law as their cause.

Recall that according to Ampère’s law, the integral of the magnetic field around a closed loop C is proportional to the current I passing through any surface whose boundary is loop C itself:

\oint_{C} \vec{B} \cdot d \vec{s} = μ_{0} I .

There are infinitely many surfaces that can be attached to any loop, and Ampère’s law stated in [link] is independent of the choice of surface.

Consider the set-up in [link] . A source of emf is abruptly connected across a parallel-plate capacitor so that a time-dependent current I develops in the wire. Suppose we apply Ampère’s law to loop C shown at a time before the capacitor is fully charged, so that $I \neq 0$ . Surface $S_{1}$ gives a nonzero value for the enclosed current I , whereas surface $S_{2}$ gives zero for the enclosed current because no current passes through it:

\oint_{C} \vec{B} \cdot d \vec{s} = {\begin{matrix} μ_{0} I & if surface S_{1} is used \\ 0 & if surface S_{2} is used \end{matrix} .

Clearly, Ampère’s law in its usual form does not work here. This may not be surprising, because Ampère’s law as applied in earlier chapters required a steady current, whereas the current in this experiment is changing with time and is not steady at all.

Figure shows a wire connected to a plate of a parallel plate capacitor. A current I passes through it in the downward direction. The wire also passes through the flat surface of a cylinder at the top of the capacitor. This surface is labeled S1 and its circular boundary is labeled C. An arrow B is shown tangential to C. The sides of the cylinder taper downward and inward. This surface is labeled S2. Field lines labeled vector E are shown between two plates of the capacitor, pointing down. — The currents through surface $S_{1}$ and surface $S_{2}$ are unequal, despite having the same boundary loop C .

How can Ampère’s law be modified so that it works in all situations? Maxwell suggested including an additional contribution, called the displacement current $I_{d}$ , to the real current I ,

\oint_{C} \vec{B} \cdot d \vec{s} = μ_{0} (I + I_{d})

where the displacement current is defined to be

I_{d} = ε_{0} \frac{d Φ_{E}}{d t} .

Here $ε_{0}$ is the permittivity of free space and $Φ_{E}$ is the electric flux , defined as

Φ_{E} = \iint_{Surface S} \vec{E} \cdot d \vec{A} .

The displacement current is analogous to a real current in Ampère’s law, entering into Ampère’s law in the same way. It is produced, however, by a changing electric field. It accounts for a changing electric field producing a magnetic field, just as a real current does, but the displacement current can produce a magnetic field even where no real current is present. When this extra term is included, the modified Ampère’s law equation becomes

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Source: OpenStax, University physics volume 2. OpenStax CNX. Oct 06, 2016 Download for free at http://cnx.org/content/col12074/1.3

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