
Explaining the UAP Tic Tac as a double-layer plasma
This is an explanation of the Tic Tac UAP as a double-layer plasma using the theory of electroballs.
Schematic section of a Tic Tac UAP with two air leaks.
Electroballs are formations of electrified gas or plasma with two layers, each with an electrical charge of opposite sign, which strongly attract each other. There is an electrical discharge between them, sometimes bright.
The Tic Tac shape
An electroball could have two or more nuclei with the same charge sign, which repel each other, and both would be surrounded by another layer with the opposite charge sign that unites them.
This cloud shows that structure too:
Round clouds charged with electricity surrounded by another cloud attracted to them.
The lower "tubes" of the Tic Tac
Electroballs tend to lose their charge when electrical discharges occur between the core and the outer layer, but the outer layer tends to lose charge faster because it also releases charge it to the surrounding air. This imbalance causes an excessive accumulation of charged gas in the core, which cannot be contained by the weakened outer layer, resulting in leaks from the core to the outside.
These leaks can make noises similar to trumpets, vuvuzelas, roars, screams...
These leaks typically point towards the ground or something with the opposite charge sign, often forming a tube that, in extreme cases, can be luminous.
Example of an electroball leaking gas from the core to the ground through a tube .
If the UAP moves the leaks look bent backwards.
The leaked gas from the core bends backwards as the Tic Tac moves
In extreme cases the leaked plasma can be brilliant, looking like a solid beam of light.
UAPs very fast and energetic seem to be formed with charged particles from the Van Allen Belts or from ionospheric discharges of electricity triggered by meteors.