# Circuit Function [![image-1728668688137.png](https://stanslegacy.com/uploads/images/gallery/2024-10/scaled-1680-/NvlEwzW0oSLsFOIZ-image-1728668688137.png)](https://stanslegacy.com/uploads/images/gallery/2024-10/NvlEwzW0oSLsFOIZ-image-1728668688137.png) To form an oscillating voltage zone around another voltage zone of opposite polarity, forming a water gap therebetween. Said voltage zones take on the shape of cavity-design due to the skin effect phenomenon as [previously described](https://stanslegacy.com/books/the-birth-of-new-technology/page/8-2-traveling-voltage-wave-guides). Stainless steel T304 material is also used to form said **resonant-cavity** (44).

Said **resonant cavity** (44) can take on different shapes and sizes to meet a predetermined gas need. Spherical and longitudinal resonant cavities are examples.

> To disassociate said water molecule by way of voltage stimulation as previously described. See Section A through Section M.

To momentarily entrap said liberated gas atoms to impart or subject a physical force (particle impact) on said water molecule being split apart. This process is called compounding-action or "**resonant-action**" since said liberated atoms are moved or oscillated in a uniform manner during gas production.

To start, sustain, and maintain said **resonant-action** during **gas-yield attenuation**.

To set up a variable pulsing circuit capable of "tuning-in" resonant action regardless of shape and dimensional size of said **resonant cavity** (44).

And to attenuate said voltage pulses (*up to and beyond 5,000 volts*) to cause said liberated gas atoms to reach **ionization state**.