The Rehydration of the Ort Cloud
The movement of the ort cloud through space with the solar system at it's nucleus.
It's stating the obvious to point out that the epitomy of the universe is movement. It is a given that all properties within and without the universe are in a perpetual state of flux and that said flux has an essential and functional relationship with all aspects of existence remotely or closely.
It is noted that certain aspects of cometary activity within the last century when we finally had wherewithal to keep notable record seems to indicate a sort of perpetuation of said activity, as if there were, in a manner of speaking, a leak in the roof of the solar system, commonly known as the ort cloud. As the saying goes, "...two's company, three's a cloud."
This could also be termed, in an indirect sort of way since it may be only in a potential form of the elements thereof, the "hydrosphere of the solar system", since it is given that the solar system is moving through space as it orbits the axis of the galaxy, presumably a so-called black hole.
Therefore the ort cloud, and more applicably speaking, the ort barrier, or the balance point between solar wind and deep space matter, or space dust, accompanies the sun in a sort of teardrop shape, the forefront of which acts like a sort of roof that catches space debris, principally in the form of common gasses especially hydrogen, oxygen and nitrogen. These globulate or flocculate to their particular gravitational fields, presumably toward the mid sections of the cloud as it passes in it's trajectory, at which point each globule tends to do one of two things: Either it attains sufficient mass which is the proportion of the advent of accumulation of particulates in any given section of the space the cloud travels through, causing the globule to sink into the solar system's gravity well or other globules, having not attained the accumulation of sufficient mass, become ejected out of the rear of the ort cloud in the aspect opposite the leading edge, and are again expelled into deep space behind the system, only now in a more collected form.
This may tend to explain the mystery of the appearance and subsequent disappearance of water on Mars and may also be the cause of liquid water on the planet Earth. The aforementioned globules, having attained sufficient mass to sink into the solar gravity well are then to become what we think of as comets, but not initially. At first the globules may consist of solids and gasses, dry stuff, headed for the sun in a "stack" or decaying orbit. Some, it may be postulated, would enter the sun itself, giving rise to the concept of a self-perpetuation of stars; that in fact they may be refueled by inter stellar material in deep space depending on where they travel. Stars that extinguish themselves may be traveling through a lean section of deep space, whilst others are trajecting through more particulate-rich sections.
In fact what we are doing is simply observing different manifestations of movement; that aspects of universal movement, atomic, particulate, planetary, stellar, cometary and so on are mere personalities, as it were, in the inevitability of complexity in any given section or aspect of the temporal existence. We tend to emerge, as discovery progresses through history, from a more hermetic view. We are now coming to realize the more cluttered nature of the galaxy. That matter is much more prevalent than previously supposed and that self-perpetuation is more the rule rather than the exception. The presence of red giants may indicate lean areas of space.
Back to our supposition of the globulization of matter on the leading edge of the ort cloud: Upon the final entry to refuel the sun, the globule entrants of more significant mass would not impact the star, but rather be ejected to then form the familiar cometary orbit, but upon the first pass, the globules would be ignited by the solar heat causing all possible chemical reaction within each globule mass that could happen in the presence of sufficient heat. Principally, the formation of water or hydrogen hydroxide due to a preponderance of hydrogen and oxygen within each globule. At this point the globule becomes a comet, having attained a repetitious orbit around the sun, and eventually to perform other functions within the solar system.
One function is the hydration of planets as might have been witnessed by the Shoemaker-Levy comet fragments impacting Jupiter recently. There may be phenominai at work that actually serve to orient cometary with planetary movement, in that the comets are distracted or re-oriented so that there is some coincidence between them and the planets, such as the passage of any planet repetitiously through a particular comet's orbit, causing not only micro meteoritic activity and meteoric storms but also a rehydration of a planet. The advent of first-time giants like Kohotec , Hale-Bop and others may actually be, rather than extreme orbiters, actually entrants from the ort cloud newly precipitated from the leading edge due to the aggregation of their mass during the passage of the cloud through some particulate-rich area of space.
It may be that planets absorb water so that surface water is only apparent if this phenomenon occurs on a regular or repetitious basis. Perhaps the advent of desert regions on the surface of the Earth, the meteorological phenomenon of the so-called "doughnut" dry regions of both the northern and southern hemispheres ringing the entire globe is due to such things as the depletion of the regularly passing comets, such as Halley's Comet. It may also be possible in such cases that planetary liquid water is absorbed into the crust to become fossil water. In addition, a comet losing material may also come to the point where it is itself ejected from the ort system as well, joining a stream of other particulates constituting the tail of the ort cloud.
It may also be a phenomenon of hydrogen hydroxide that it is a flocculant migrant, as outlined in my paper "Flocculant Elements". Flocculation is a well-known principle of chemistry, and this may be an extreme cosmic example of the characteristic.
If so, then the aspect of rocky planet centrum solar systems throughout the realm of matter, or this cosmos, may be an extension of organics however disparate each may be, dispersed evenly in the fabric of that cosmos (the atomic, or matter cosmos). The outer triplicate rocky planet impacts the cometary units, the middle planet assimilates the oceanics of hydrogen hydroxide, the inner of the triplicate absorbs the excess to maintain a continental balance in the central planet. Or do you imagine a cosmos incapable of such nuance?
Are stars therefore space sweepers? Is the perpetuation aspect a law of diminishing returns? It may be that the function of black holes is to replenish the space dust and gasses that will maintain the stars. In other words, life goes on. Stellar organisms.
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