Electromagnetic force calculation

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SUMMARY

The calculation of force due to an electromagnetic field on a surface is defined by the equation F = ∮ {T . n dS}, where T represents the Maxwell stress tensor. This tensor is composed of the electric field components (E_x, E_y, E_z) and magnetic field components (H_x, H_y, H_z). The discussion highlights the challenge of determining field points for these components when calculating the force on a dielectric sphere in an electromagnetic wave in vacuum, particularly when the fields at the boundary are unknown. The averaging method for calculating force, as discussed in Griffith's "Introduction to Electrodynamics," is emphasized as a solution to eliminate the surface's own field.

PREREQUISITES
  • Understanding of Maxwell stress tensor and its components (E_x, E_y, E_z, H_x, H_y, H_z)
  • Familiarity with electromagnetic field theory
  • Knowledge of Gauss' Law and Ampere's Law
  • Basic calculus for evaluating surface integrals
NEXT STEPS
  • Study the derivation and applications of the Maxwell stress tensor in electromagnetic theory
  • Learn about the averaging method for force calculations in electromagnetic fields
  • Explore Griffith's "Introduction to Electrodynamics," particularly Chapter 8 on the stress tensor
  • Research examples of force calculations on dielectric materials in electromagnetic waves
USEFUL FOR

Physicists, electrical engineers, and students studying electromagnetic theory, particularly those interested in force calculations involving dielectric materials in electromagnetic fields.

krindik
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Hi,

I understand that force due to an electromagnetic field on a surface can be calculated by
F = \oint {T . n dS} where T is Maxwell stress tensor.
http://en.wikipedia.org/wiki/Maxwell_stress_tensor"

And this tensor consists of E_x, E_y, E_z, H_x, H_y, H_z

I don't understand how the field points are used in the force calculation, say for example, to calculate force on a dielectric sphere in an EM wave in vacuum.

What are field points used for E_x, ..., H_x, ... ? Are the within the dielectric or in vacuum?
Since the fields on the boundary are not known (only fields in either side of the boundary are known) how do you calculate the force?

Can somebody shed some light on this or point me to some example where a similar calculation is done?

Thanks in advance
 
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Forces on surfaces are always (as far as I've seen) calculated using the average field.
 
Thanks. Can u point me to some text or online notes where it uses the averaging method?
 
I learned that method of calculating force from Griffith's Introduction to Electrodynamics. He also has a section in chapter 8 discussing the stress tensor. He describes the reasoning for the average is that it eliminates the surface's own field (which is locally symmetric due to Gauss' Law and Ampere's Law) which doesn't exert a force on itself.
 
Last edited:

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