Magnetic impedance

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Magnetic impedance (full magnetic resistance)is the scalar value, which is equal to the relation of effective or amplitude value of a sinusoidal magnetic tension on the passive magnetic circuit or its element and accordingly the effective or amplitude value of a sinusoidal magnetic current in this circuit or in this element.

Magnetic impedance [1-3] is measuring in units – [ $\frac{1}{\Omega}$ ] and determining by the formula:

$z_M = \frac{N}{I_M} = \frac{N_m}{I_{Mm}}$

The full magnetic resistance (magnetic impedance) is equal

$z_M = \sqrt{r_{M}^2 + x_{M}^2}$ , $\phi = \arctan {\frac{x_M}{r_M}}$

where $r M = z M cosφ$ is the real part of the complex magnetic impedance, naming as the effective magnetic resistance;

x M = z M sinφ

is the imaginary part of the complex magnetic impedance, naming as the reactive magnetic resistance.

[edit] References

Pohl R. W. ELEKTRIZITÄTSLEHRE. – Berlin-Gottingen-Heidelberg: SPRINGER-VERLAG, 1960.
Popov V. P. The Principles of Theory of Circuits. – M.: Higher School, 1985, 496 p. (In Russian).
Küpfmüller K. Einführung in die theoretische Elektrotechnik, Springer-Verlag, 1959.

Categories: Magnetism

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Magnetic impedance

From Wikipedia, the free encyclopedia

[edit] References

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