The New Science of
"ELECTRO-TESLA-MECHANICS"

John Bidwell - August 18, 2024

The future of the coil has finally arrived...


ABSTRACT

ELECTRO-TESLA-MECHANICAL FORCE
Definition: Any high-amperage, tesla-coil-induced charge differential that can invoke real-world physical motion or action in objects and mass. (This can be applied directly from the input / output of a tesla coil or through an intermediary, such as inductively charging an Electro-cell to perform physical work.)

As you should already know, I've contributed MANY incredible gifts to science thus far; and now, I'll explain the basics of "Electro-Tesla-Mechanics" which enables a water-cooled spark gap tesla coil (Fig. 1) to easily move physical objects and much more. This is the very beginning of something far greater - the tesla coil charge collector "Electro-cell" harnesses an entirely new high-potential, high-amperage electro-magnetic, inductively-charged field in itself and I will do my best here to enlighten others today whom might begin walking this high-voltage path blazed for every tomorrow...



Fig. 1

Physical Motion - Example 1
Using quite an overall, magically wireless effect similar to 'inductive charging' - unlike traditional spinners you may have seen atop every tesla coil before propelled by ionization - these spinners (Fig. 2) utilize the separate charges of the low / ground 'pull' of a high-amperage tesla coil and the physics of inductive charging to then positively charge an "Electro-cell / Tesla Coil Charge Collector"; using instead the positive charge differential between the Collector and atmosphere (ground) to propel the spinner!!

Notice there is no ionization at the spinner tips like you may have previously seen blasting away at the positive output of all other coil spinners...



Fig. 2

Physical Motion - Example 2
This same high-amperage charge accumulation can be used to interact with mass by focusing a like-charge to an object with a similar like-charge which repels it (Fig. 3) and one with an opposing charge to pull it (Fig. 4). These concentrated positive charges can also easily be transferred to another object by touch (then will immediately repel) from the "Pull Tail" and "Focal Array" assemblies. Both positive and negative charges can be accumulated for use through the device itself, for example, the container's outer walls become negative when the system is charged or charging and either of these positive or negative charges may then be routed simultaneously away or collected elsewhere for work.



Fig. 3



Fig. 4


 INTRODUCTION

The new science of ELECTRO-TESLA-MECHANICS dawns brightly on the horizon as the full potential of the tesla coil has now been unleashed... I sincerely hope you, the viewer, have read my previous two journal write-ups explaining WCSG and SGL technologies (Fig. 5), for a certain level of high-voltage / water-cooled spark gap familiarity must be present before moving any further or this incredible information might not be fully utilized - you can find my journal write-ups at the links below.



Fig. 5

How a Water-cooled Spark Gap Works:
Journal - https://www.wcsg-science.com/#howitworks
Video - https://www.youtube.com/watch?v=mjeaYCkkxnI
Product Manual - https://www.wcsg-science.com/mini.html

How a Spark Gap Lingam Works:
Journal - https://www.wcsg-science.com/how-it-works-sgl.html
Video - https://www.youtube.com/watch?v=91cjP0m-dtU
Product Manual - https://www.wcsg-science.com/sgl.html




Fig. 6

It all incredibly happened while I was making a short visual 'biography' in efforts to help others understand the potential and importance of the great works I've already achieved, when I inadvertently stumbled upon an unexpected 'highly-charged state' (Fig 6, watch the entire video below!) and posed the question, "How to harness this charge?"

Biograpghy / Discovery Video Link - https://www.youtube.com/watch?v=DLlBxhgOT_o

Next, on a one-of-a-kind adventure, I take the viewer for an amazing, rare and up-close journey of my entire discovery and creation process; from first observing then understanding this new field / force, to implementing several very unique, dynamic visual examples alongside methods which adequately harness it - adding also a third science experiment for replication in scholastic labs, "Bidwell's Bopper" (Fig. 7), to a growing list I've already given to demonstrate the power and flexibility of WCSG technology...



Fig. 7

Not too long after making the video, I envisioned a versatile accessible tool for teaching others and created the Electro-cell Scholastic / Production Model Tesla Coil Charge Collector - which was successfully funded on Kickstarter (thanks to many super-wonderful project backers, project link below) - and this version is the model we will primarily be discussing here going forward.

Kickstarter Tesla Coil Charge Collector Campaign:
 https://www.kickstarter.com/projects/johnbidwell/the-worlds-first-tesla-coil-charge-collector



 MATERIALS AND METHODS

Container / Shell:
A tesla coil charge collector "Electro-cell" (fig. 8) is comprised of two main nominal materials: a poly-plastic dielectric and a light, THIN conductor of aluminium or magnesium (Fig. 9). These two material types seem imperative for near-maximum efficiency though I'm sure other types can be substituted and in different configurations.



Fig. 8



Fig. 9

The charge collection materials are then housed stacked in another poly-plastic shell or container, which additionally holds them altogether inside (Fig. 10a) while preventing stored and actively buffered charges from easily dissipating into atmosphere.



Fig. 10

A single conductive path is then simultaneously routed from the loosely stacked dielectrics inside the container (Fig. 10b) to both the "Focal Array" and "Pull Tail" (Fig. 11) at which points the electro-tesla-machanical field effect is strongest and can then be shaped or 'tapped' for physical work. If the dielectrics are rolled or compressed in a stack like a capacitor and not left 'loose' with air gaps to facilitate gathering charges, the cell may not work properly or hold maximum charge.



Fig. 11

Because a tesla coil charge collector, by itself, behaves differently as a single cell than as configured in an array (much like batteries behave when single, or wired in parallel), the simple difference is the technology works most efficiently in multiple 'cell' configurations; so while a single tesla coil charge collector is just an "Electro-cell" (Fig. 12a), an array of cells, or an "Electro-well" (Fig. 12b) now both magnify, store and buffer a noticeably more powerful electro-tesla-mechanical charge... This multiple-cell configuration is more comparable to a deep 'water well' in its electromagnetic behavior and why, as their discoverer, I have chosen these intuitive names for these separate components.



Fig. 12

Mast Assembly:
The mast assembly performs 3 functions; it separates the low, usually opposite / negative field of the collector cell container and both supports and connects added collector cells along with the main positive focal array (Fig 12).

Focal Array:
A focal array consists of smooth, rounded forms (Fig. 13) to keep charges from easily dissipating into atmosphere and shapes or directs an electro-tesla-mechanical induced charge for physical work (Fig. 14).



Fig. 13



Fig. 14

The highly-charged field will be strongest at any exposed points and flow over smooth contours. It can be utilized in many ways for pulling or pushing by concentrating the shaped positive field (or inverted to negative, via another added layer of dielectric placed over the focal array) for maximum efficiency or configuring it per intended application of use (Fig. 15).



Fig. 15

Pull Tail:
The "Pull Tail" can have many configurations and shapes bridging from one to another (Fig. 16) depending on size / power of the system, or simply from just the tip of a wire.



Fig. 16



Fig. 17

The adjustable gap between the "Tesla Coil Collector Dish" and "Pull Tail" (Fig. 17, 18) function as an EBG Electromagnetic Buffer Gap (Fig. 18), throttle and means to keep the system's main tesla coil in resonance.

If the device is connected directly to the low (negative) side of a tesla coil, the entire coil will then have to be re-adjusted for resonance or may not work at all, depending on setup; although an EBG of some type may still be needed to induce a proper inductive charging effect between tesla coil and Electro-cell, the effect of the electro-tesla-mechanical charging field directly from coil input should be incredibly stronger.

*THIS EFFECT CAN ONLY WORK ON THE NEGATIVE SIDE BY 'PULLING' as pushing a positive flow into the Electro-cell will not charge it properly and can burn holes through the container. For now, we will use an air EBG so that any functional WCSGTC can readily have an Electro-cell applied to its Collector Dish.



Fig. 18

Tesla Coil Collector Dish:
The "Collector Dish" (Fig. 19) on a water-cooled spark gap tesla coil (WCSGTC) is one of the utmost critical components for wireless Electro-cell charging and can be implemented in many shapes or positions in the overall system. This part acts as a focal point and type of 'charge vacuum' where the pull from the tesla coil becomes the strongest in these 2 shaped zones (side, rim, Fig. 20, 21). This component is required for a wireless atmospheric-circuit pull-charging of the Electro-cell and a fully grounded (wired ground, not open to atmosphere) tesla coil will not function at all or be very, very weak in the work it can produce.



Fig. 19

EBG - Electromagnetic Buffer Gap:
An EBG is a required dielectric air gap (Fig. 18) between the low / ground side of the tesla coil and an Electro-cell collector that initiates the primary effect of conductive charging. The Electro-cell "Pull Tail" is positioned at the concentrated pull points of the "Collector Dish" (Fig. 20, 21) where it's distance of course will need to be increased based on the scale or power being applied, or when used as a mechanically controlled throttle for regulating active Electro-cell charge levels.



Fig. 20



Fig. 21


 RESULTS

By using the 'low' alternating current side of a water-cooled spark gap tesla coil and its open-atmosphere (non-grounded) "Collector Dish" positioned between an EBG dielectric air gap separator and Electro-cell "Pull Tail"; the high-amperage electro-magnetic waves from the coil can be concentrated to charge an Electro-cell through atmosphere by controlling its main charge flow via the EBG, and emitting the plasma stream (with as much flow as possible) from the high end of the tesla coil (Fig. 22) - another key area which may also be used as throttle points and can be shaped or reshaped during live runs to control Electro-cell charge levels.



Fig. 22

This overall high-amperage negative electro-magnetic wave-pulling action is harnessed by an Electro-cell collecting positive potential on dielectric materials (poly-plastics) and then shaping / applying the highly-charged output via conductive metals such as steel or aluminium. The tesla coil charge collector "Electro-cells" act as both a type of buffer and an electro-magnetic well that store and buffer active and inactive charges from the action of high-voltage, high-amperage electro-magentic waves inductively charging the Electro-cell through an EBG on the low side of a water-cooled spark gap tesla coil system.

A conductive object can also be directly charged and 'charge differentials' harnessed from a WCSGTC's positive output flow, however an Electro-cell / electro-well unit must be inductively charged from the low side with high-amperage 'pull' for it to function properly (See Bidwell's Bee Experiment, Fig. 23).



Fig. 23

Further Notes:
- There is a concentrated charge on the Pull Tail, which if transferred to another object via touch, that object will then also exhibit this higher-concentrated charge, i.e., repelling farther from the Focal Array.

- Air moving around the collector shell, Pull Tail or Focal Array will dissipate charges quickly.

- Humidity plays a factor in charge retention and strength level.

- Electro-tesla-mechanical waves / positive charges can be guided along practically any surface or material conductive or not (metal, glass, plastic, wood, string, etc), be sure not to touch - even holding a wooden pole - any part of the WCSGTC system or Electro-cells while they are active.

- Be certain the base and sides of the Electro-cell are clear of conductive materials before operation or the high-amperage can ground out, burning a hole through the shell.

- Once again, NEVER TOUCH any part of the system WHILE IT IS ON as WCSG's are high-amperage spark gaps and all components attached are extremely dangerous when active.



DISCUSSION

The great potential of this technology is near limitless as not only can extreme charge differentials now easily be harnessed and applied directly to and from atmosphere, they can be applied to a physical object's very motion and control - and one day can be used for example, to float and lift unthinkably heavy objects of any material and to wirelessly power small AND heavy equipment through a high-amperage 'positive charge potential power grid'...

I also foresee the uses of this technology not remaining Earthbound either; it can be implemented as a propulsion system in low gravity environments, such as deep space, and may even out-match (on the same scale) current ion-based thrusters - replacing them with charged-based types.

This is only the beginning my high-voltage friends, for these gifts I've given are golden keys to a sustainably prosperous bright future; one not just of advanced technologies read about in past fairy tales, but one of advanced thoughts and enduring, fulfilling lifestyles...




Moving extreme mass with Electro-Tesla-Mechanics!


Until next time, always remember to discharge your capacitors, make it great and I'll see you all again right here in the future!!

- John





Links

How a Water-cooled Spark Gap Works:
Journal - https://www.wcsg-science.com/#howitworks
Video - https://www.youtube.com/watch?v=mjeaYCkkxnI
Product Manual - https://www.wcsg-science.com/mini.html

How a Spark Gap Lingam Works:
Journal - https://www.wcsg-science.com/how-it-works-sgl.html
Video - https://www.youtube.com/watch?v=91cjP0m-dtU
Product Manual - https://www.wcsg-science.com/sgl.html

ELECTRO-TESLA-MECHANICS: "Tesla Coil Charge Collector" / "Electro-well" Demo
Video Link - https://www.youtube.com/watch?v=DhHB-nYIu78

ELECTRO-TESLA-MECHANICS: New "Tesla Dice"
Video Link - https://www.youtube.com/watch?v=LfIoPElOzW0

NEW ELECTRO-TESLA-MECHANICAL "SPINNERS"
Video Link - https://www.youtube.com/watch?v=JssI8mbjy_U

Bidwell's Bee - Another New Science Experiment
Video Link - https://www.youtube.com/watch?v=tOct273eW0k

This website
https://www.WCSG-Science.com

Kickstarter WCSG-Mini campaign
https://www.kickstarter.com/projects/johnbidwell/wcsg-mini

Kickstarter SGL campaign
https://www.kickstarter.com/projects/johnbidwell/spark-gap-lingam-sgl

Kickstarter Tesla Coil Charge Collector campaign
https://www.kickstarter.com/projects/johnbidwell/the-worlds-first-tesla-coil-charge-collector