In-Line Circuit Components

Lengthening Inductor (L1/L2) lengths applies an even higher Voltage Potential (66/67) across Resonant Capacitor (140 -170) (ER) since Inductance Reactance "Stores" Energy and, is expressed by:

image-1702450266766.png


Where,

(Wa) is the energy in Joules (Watt-seconds); (L) is the Inductance in Henries; and (I) is the current in amperes.

Inductance Reactance directly determines "Stored" Energy (Wa) which is controlled by input Voltage Potential attenuated or varied by way of Voltage Amplitude (Vo xxx Va xxx V b - Vf xxx Vg xxx Vn) of Figure (7-13) and/or Gated Pulse-Frequency (49a xxx 49n - T3 - 49a xxx 49n), or both.

Inductance Reactance performs several functions simultaneously or to given stimuli:

... determining voltage swing from highest voltage level (Vn) to volts switch-off point (Vff), and establishing Impedance (FL) which minimizes heat loss of electrical input power (49) by impairing electron movement.

Inductor (Ll) acts and performs in like manner to Inductor (L2) since both Inductor (L1/L2) are physically the same size and shape. 

Thermal Explosive Energy-Yield (gtnt) (16a xxx 16n) instantly produced from water (85) is determined by:


Revision #4
Created 13 December 2023 05:31:31 by Chris Bake
Updated 20 December 2023 04:43:51 by Chris Bake