VORTEX
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Gravity
Induced Vortex - Liquid
- A plug is pulled under a contained volume of liquid.
- The liquid above the discharge opening starts dropping down through the opening creating a lower pressure column of liquid.
- The Pascal’s rule of pressure in fluids says that the static pressure within the whole volume exerted sideways around this dropping column will attempt to fill into the dropping water column, creating an inverted cone of flow toward the discharge.
- The surface plane of the liquid develops a hollow due to the pressure drop above the discharge.
- If the liquid column is in a sufficient ratio to the opening diameter, gravitational acceleration at the surface hollow tends to outrun the discharge rate and any slightest impetus causes the liquid sliding down the slope of the depression to spin. Vortex develops easier in a conical vessel than in any other vessel, because it is the surface hollow where the gravitational acceleration causes the liquid to slide into the falling liquid column.
- The static pressure orthogonal to the vortex vertical axis acts on the column as the total static pressure (area x force). Vortex spin translates this pressure into accelerating "orbital" speed of the column. (fig 1)
- The circular motion component is triggered by external influences, such as rotation of earth, or by general liquid flow, if any. The circular motion within a vortex redirects the strictly centripetal horizontal pressure component in the liquid side railing it off the vertical axis of the vortex, accelerating the vortex circular motion. The static pressure in the liquid surrounding the vortex becomes realized into the circular motion of the vortex. Therefore, the horizontal vector of static pressure acts as a vortex spin accelerator. The dynamic relations within a vortex cause a greater transfer of gravitational energy into liquid circular motion, than can be accounted for by strictly downward static pressure calculations. If the liquid did not spin, the horizontal component of static pressure would act on the vortex axis symmetrically, and the would not be realized as spin motion.
In the most simple terms, the area across the static pressure acting on a vortex accelerating its liquid (or fluid) into spin is substantially greater than the cross sectional area of the discharge hole. The acceleration on the falling column comes from vertical acceleration of the column. In other words; the "horizontal" rotational component of gravitational acceleration of the liquid surrounding the vortex speeds up the circular component of water flow around the vortex. The vertical gravitational acceleration (drop) of water within the column is caused by vertical attraction on that column only. The vertical component of static pressure within the vortex is not lessened by all that much, as can be seen from the depth and size of the depression of the vortex at the surface.
As the column progresses in its vertical motion down, the energy of vortex circular speed is also progressively translated into the energy of vertical speed of the column. If the circular component of the vortex speed at the bottom of a discharge were used for energy production along with the falling column kinetic energy, these two components combined would supply greater total energy output than needed for lifting of the same liquid volume (per unit of time) to the original height.
In other words, we would be milking total static pressure exerted by gravitation on liquid volume from a much greater area than discharge hole area without having to pay the cost of returning that volume back to the height across that same area. It seems obvious from the above that static pressure, or tension of a field, can be translated into circular motion of a medium.
Vortex phenomenon is the proof that field “static potential” can be utilized for energy extraction. Vortex phenomenon also proves that the so-called "static potential" energy of fields is caused by dynamic energy flows. This does not violate any laws of physics, it is a law of physics.
The discharge and the surrounding containment have to be regular in shape, otherwise more and chaotic turbulences within the fluid accelerating through the discharge break the vortex symmetry and hinder its progress. Regular does not mean a perfect cone, but a shape mimicking the structure of natural turbulence. This shape is somewhat ropy walled parabolic cone.
VORTICES
- The circumferential speed of liquid molecules within a vortex increases as the molecules approach the central axis of the vortex. Therefore, it is clear that the farther a molecule is from this axis, the lesser is its orbital speed.
- Any object within such vortex, including the liquid molecules, spin themselves counter to the spin of the vortex, as their outer orbital speed is slower than their inner speed relative to the axis of the vortex. (Planetary gear or a bearing ball in a bearing represents such a counter spin)
- Unless other forces are present, any small vortice within a major vortex counter spins.
This principle has a severe impact on the coalescing theory of planetary systems as well as galactic systems. It is obvious that planets should spin counter to planetary system. Since not all of them do, actually the majority does not, it is obvious that the spin of planets and stars has its casualty in the behavior of magnetic and electric fields, rather than being a remainder of gas cloud vortice motion within the solar system general vortex.
Any and every energy flow through a restriction under an orthogonal pressure of a field tends to develop a vortex structure. It does not matter whether that flow is liquid, gaseous or what we consider to be a field. The acceleration gain in a vortex is a utilizable phenomenon. It is one of the phenomena, which counteracts thermal entropy in the universe. It concentrates the rate of flow through a restriction utilizing a dispersed energy of a general field.
Any and every so-called massive particle contains a few geometries of vortexes TTF2-PROTON. The main, dense flows can be considered to be magnetic field compounds of the dispersed electric field components. Electric field components qualify for a sort of aether, but not a chaotic aether of the past and not exactly liquid like in a sense of water in the sea. It’s liquid is comparable to water flow in rivers.
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