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Poynting vector

The Poynting vector (named after its inventor John Henry Poynting) is the cross product of the electric field and the magnetic field. For an electromagnetic wave it points in the direction of energy flow and its magnitude is the power per unit area crossing a surface which is normal to it. (The fact that it points perhaps contributes to the frequency with which its name is misspelt.) It is given the symbol S (in bold because it is a vector) and is given by

$\mathbf{S} = \mathbf{E} \times \mathbf{H} = \frac{1}{\mu} \mathbf{E} \times \mathbf{B}$

where E is the electric field, H and B are the magnetic field and magnetic flux density respectively, and $μ$ is the permeability of the surrounding medium. For an electromagnetic wave propagating in free space $μ$ becomes $μ 0$ , the permeability of free space.

Since the electric and magnetic field of an electromagnetic wave oscillate, the magnitude of the Poynting vector changes with time. The average of the magnitude over a long time T (longer than the period of the wave) is called the irradiance, I:

$I = \left \langle S \right \rangle_T$ .

External links

Eric W. Weisstein "Poynting Vector" From ScienceWorld—A Wolfram Web Resource.

Categories: Electromagnetism | Optics

Science Fair Project Encyclopedia Contents Page

10-26-2009 08:16:03
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