Magnetic reactance

From formulasearchengine
Revision as of 06:16, 22 August 2013 by 108.67.115.230 (talk)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search

Dielectric reluctance is a scalar measurement of a passive dielectric circuit (or element within that circuit) dependent on voltage and electric induction flux, and this is determined by deriving the ratio of their amplitudes. The units of dielectric reluctance are F−1 (inverse farads—see daraf) [Ref. 1-3].

zϵ=UQ=UmQm

As seen above, dielectric reluctance is represented as lowercase z epsilon.

For a dielectric in a dielectric circuit to have no energy losses, the imaginary part of its dielectric reluctance is zero. This constitutes a lossless "resistance" to electric induction flux, and is therefore real, not complex. This formality is similar to Ohm's Law for a resistive circuit. In dielectric circuits, a dielectric material has a "lossless" dielectric reluctance equal to:

zϵ=1ϵϵ0lS

Where:

  • l is the circuit length
  • S is the cross-section of the circuit element
  • ϵϵ0 is the dielectric permeability

See also

References

  1. Hippel A. R., Dielectrics and Waves. New York: John Wiley, 1954.
  2. Popov V. P., The Principles of Theory of Circuits. – M.: Higher School, 1985, 496 p. (In Russian).
  3. Küpfmüller K. Einführung in die theoretische Elektrotechnik, Springer-Verlag, 1959.