# In-Line Circuit Components

**Lengthening Inductor** (L1/L2) lengths <span style="text-decoration: underline;">applies an even higher</span> **Voltage Potential** (66/67) across **Resonant Capacitor** (140 -170) (ER) since **Inductance Reactance** "Stores" Energy and, is expressed by:

[![image-1702450266766.png](https://stanslegacy.com/uploads/images/gallery/2023-12/scaled-1680-/PGspwajDDA6KDyzJ-image-1702450266766.png)](https://stanslegacy.com/uploads/images/gallery/2023-12/PGspwajDDA6KDyzJ-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** <span style="text-decoration: underline;">attenuated or varied</span> 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.

<p class="callout info">**Inductance Reactance** performs <span style="text-decoration: underline;">several functions simultaneously</span> or to given stimuli:</p>

- increases applied voltage amplitude (Vo - Vn)
- doubles input frequency (64a \* 64b) when 50% Duty Cycle Pulse (T1 = T2) is inputted
- effectuates "Step Charging Effect" (680) of Figure (7-7) when Pulse off-time (T2) <span style="text-decoration: underline;">is less than</span> Pulse on-time (T1)

... determining **voltage swing** from **highest voltage level** (Vn) to **volts switch-off point** (Vff), and establishing **Impedance** (FL) which <span style="text-decoration: underline;">minimizes heat loss</span> of electrical input power (49) by impairing electron movement.

<p class="callout success">**Inductor** (Ll) acts and performs in like manner to **Inductor** (L2) since both **Inductor** (L1/L2) are physically the same size and shape. </p>

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

- **Voltage Amplitude** ( xxx Vn)
- **Duty Cycle of Pulse Train** (T1 - T2a xxx T1 – T2n)
- **Gated Pulse-Frequency** of applied **Voltage Potential** (49a xxxx 49n - T3 - 49a xxx 49n)
- **Inductor** (L1/L2) length
- **Secondary Pickup Coil** (523) Length (FL3a xxx FL3n)
- dielectric gap-spacing (Cp)
- or any combination thereof.