Dielectric complex reluctance

Dielectric complex reluctance is a scalar measurement of a passive dielectric circuit (or element within that circuit) dependent on sinusoidal voltage and sinusoidal electric induction flux, and this is determined by deriving the ratio of their complex effective amplitudes. The units of dielectric complex reluctance are F − 1 {displaystyle F^{-1}} (inverse Farads - see Daraf) . Dielectric complex reluctance is a scalar measurement of a passive dielectric circuit (or element within that circuit) dependent on sinusoidal voltage and sinusoidal electric induction flux, and this is determined by deriving the ratio of their complex effective amplitudes. The units of dielectric complex reluctance are F − 1 {displaystyle F^{-1}} (inverse Farads - see Daraf) . As seen above, dielectric complex reluctance is a phasor represented as uppercase Z epsilon where: The 'lossless' dielectric reluctance, lowercase z epsilon, is equal to the absolute value (modulus) of the dielectric complex reluctance. The argument distinguishing the 'lossy' dielectric complex reluctance from the 'lossless' dielectric reluctance is equal to the natural number e {displaystyle e} raised to a power equal to: