Is the model of the solar system really a vortex?

The model of the solar system is not a vortex, or if it is, I missed that class and someone failed to tell me.
However, there was a model that suggested the vortex as a kind of mechanical explanation of things. Well, I guess it was really a theory aiming at explaining gravitation, but it’s at least a theory astronomically applicable, on the solar system, and it’s vortex-based.
I won’t rephrase this into my own words but shall give you the relevant section from the relevant Wikipedia article without further ado.
Well, almost without further ado, but first, just let us have a look at an illustration of it, shall we? [Theory presented below the image.]

Descartes’ vortex theory
Because of his philosophical beliefs, René Descartes proposed in 1644 that no empty space can exist and that space must consequently be filled with matter. The parts of this matter tend to move in straight paths, but because they lie close together, they can not move freely, which according to Descartes implies that every motion is circular, so the aether is filled with vortices. Descartes also distinguishes between different forms and sizes of matter in which rough matter resists the circular movement more strongly than fine matter. Due to centrifugal force, matter tends towards the outer edges of the vortex, which causes a condensation of this matter there. The rough matter cannot follow this movement due to its greater inertia—so due to the pressure of the condensed outer matter those parts will be pushed into the center of the vortex. According to Descartes, this inward pressure is nothing else than gravity. He compared this mechanism with the fact that if a rotating, liquid filled vessel is stopped, the liquid goes on to rotate. Now, if one drops small pieces of light matter (e.g. wood) into the vessel, the pieces move to the middle of the vessel.
Following the basic premises of Descartes, Christiaan Huygens between 1669 and 1690 designed a much more exact vortex model. This model was the first theory of gravitation which was worked out mathematically. He assumed that the aether particles are moving in every direction, but were thrown back at the outer borders of the vortex and this causes (as in the case of Descartes) a greater concentration of fine matter at the outer borders. So also in his model the fine matter presses the rough matter into the center of the vortex. Huygens also found out that the centrifugal force is equal to the force, which acts in the direction of the center of the vortex (centripetal force). He also posited that bodies must consist mostly of empty space so that the aether can penetrate the bodies easily, which is necessary for mass proportionality. He further concluded that the aether moves much faster than the falling bodies. At this time, Newton developed his theory of gravitation which is based on attraction, and although Huygens agreed with the mathematical formalism, he said the model was insufficient due to the lack of a mechanical explanation of the force law. Newton’s discovery that gravity obeys the inverse square law surprised Huygens and he tried to take this into account by assuming that the speed of the aether is smaller in greater distance.
Criticism: Newton objected to the theory because drag must lead to noticeable deviations of the orbits which were not observed.
Another problem was that moons often move in different directions, against the direction of the vortex motion. Also, Huygens’ explanation of the inverse square law is circular, because this means that the aether obeys Kepler’s third law. But a theory of gravitation has to explain those laws and must not presuppose them.
via credits: Quora-
                       David Kahana, physicist unhinged

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