el dispensador dice: ¿sabes?... en el universo "visible" el factor dominante lo constituye lo invisible... ¿sabes?... en los universos no visibles, sean paralelos y simultáneos, sean polarmente inversos y extraños, el factor dominante lo constituye lo invisible... invisible a los sentidos humanos e invisibles a los ojos humanos... no así de otras entidades moleculares mal llamadas "alienígenas"... ya que podría decirse, sin temor a equivocarse, que todos los seres vivos en todo el universo visible y en todos los universos intangibles, son pasajeros de sus propios viajes... cada cual con su motivo... cada cual con su gracia... cada cual con su destino... cada cual con su consciencia... cada cual con su alma... cada cual con su espíritu...
el factor común de las existencias es su percepción, su sentido amplio de los horizontes, su sentido amplio de los espacios, su sentido amplio de sus distancias, su sentido amplio de los momentos, su sentido amplio de los afectos...
el factor común de las existencias, además de su percepción, se funda en su invisibilidad... porque vibran más allá del violeta o porque lo hacen por debajo de los rojos... en frecuencias que raramente pueden ser captadas por las tecnologías humanas... basadas en las conveniencias de pocos para dominar a los muchos para quienes dichas tecnologías, pobres por demás, son inaccesibles...
por lo tanto, la falta de evidencias humanas, no resuelven lo invisible...
por lo tanto, la falta de evidencias sistemáticas, no modifica ninguna realidad universal...
y las cosas son, a pesar de...
y las cosas siguen siendo, a pesar de...
y las cosas seguirán siendo, a pesar de...
traducido, por mucho que se asegure todo lo contrario, el orden universal sigue siendo el mismo, a pesar del hombre y sus necedades...
mientras tu respiras envuelto en tu espíritu, el espacio vibra, late, se mueve mediante mareas de energías que le son inherentes... y tu no lo notas... y tu no lo detectas... y tampoco te das cuenta... sin embargo, el espacio vibra, late y está sometido a una marea de flujos energéticos que exceden la magnitud de cualquier tsunami terrestre...
mientras tu crees que vives contenido en tu alma, el cosmos se expande y contrae con ritmos acompasados de los que ni te enteras... ya que de hacerlo, cundiría el pánico y el espanto propio de lo inmanejable...
léase, la Tierra que te acuna es la misma que te protege, y es la misma de la que reniegas...
¿te gusta el árbol?...
¿te gustan los colores del árbol contrastando con los rojos?...
no sabes lo que sería esta misma pintura más allá de los violetas...
y no sabes lo que sería esta misma pintura más allá de los rojos...
no se trata de magia, sino de creación...
como te decía, es más lo que no se ve que aquello que puede verse... y entre las cosas invisibles, escasamente visibles, poco visibles, casi imposibles... se encuentran los anillos de Júpiter... parecidos a los del subsistema Saturno aunque de diferente factura... no los ves, pero están... no se los ve mediante instrumentos terrestres, pero siguen allí...
aún cuando la humanidad no quiera o no crea, los anillos siguen allí... arrojando evidencia implacable...
cuando miras la pintura en el ultravioleta el árbol no existe... y hay un movimiento que indica que, además de un bosque, hay seres transitando sus lapsos...
cuando miras la pintura en infrarrojo, el árbol adquiere una vibración singular y se sale de la misma (pintura) concediéndote una perspectiva que te atrae hasta absorberte y hacerte parte de ella...
claro está, los anillos invisibles de Júpiter permanecen en su lugar... así como los universos invisibles e intangibles siguen existiendo a pesar de la negación humana...
la moraleja es simple... lo que no ves, es más importante que lo poco que ves... y debes comenzar a acostumbrarte, para luego aprender a ver lo "visible" con otros ojos, y de ser factible, sin ellos... MAYO 24, 2018.-
Carmen Conde Sedemiuqse Esquimedes
How did Jupiter's Rings Form?
Jupiter's Gossamer Ring as seen by the Galileo spacecraft
New Horizons spacecraft image of Jupiter's faint dust ringsJupiter's faint rings were first discovered by the Voyager 1 spacecraft in 1979, when it looked back at Jupiter and towards the Sun. They are so faint and tenuous, they are only visible when viewed from behind Jupiter and are lit by the Sun, or directly viewed in the infrared where they faintly glow. Unlikely Saturn’s icy rings full of large icy and rock chunks, they are composed of small dust particles.Early in its mission to Jupiter, the Galileo spacecraft made observations that provided confirmation on how Jupiter's rings were formed, as the dust was seen to coincide with small moon locations: the two Gossamer rings near the small moons Amalthea and Thebe and the main ring near Adrastea and Metis. Scientists had long believed that dust coming off of Adrastea and Metis formed the main ring, but were unsure of the origin of the Gossamer rings.
 Jupiter's clouds, ring and evena moon can be seen in this infrared image taken by the Hubble Space Telescope |  Jupiter's Small Inner Moons,(l to r) Thebe, Amalthea, Adrastea, Metis |
Jupiter's rings are formed from dust particles hurled up by micro-meteor impacts on Jupiter's small inner moons and captured into orbit. If the impacts on the moons were any larger, then the larger dust thrown up would be pulled back down to the moon's surface by gravity. The rings must constantly be replenished with new dust from the moons to exist.
Jupiter's Ring Structure and the Moons affecting it
Why does Jupiter have rings? Jupiter's rings were discovered in 1979 by the passing Voyager 1 spacecraft, but their origin was a mystery. Data from the Galileo spacecraft that orbited Jupiter from 1995 to 2003 later confirmed that these rings were created by meteoroid impacts on small nearby moons.
As a small meteoroid strikes tiny Adrastea, for example, it will bore into the moon, vaporize and explode dirt and dust off into a Jovian orbit. Pictured above is an eclipse of the sun by Jupiter, as viewed from Galileo. Small dust particles high in Jupiter's atmosphere, as well as the dust particles that compose the rings, can be seen by reflected sunlight.
Image Credit: NASA, JPL, Galileo Project, (NOAO), J. Burns (Cornell) et al.
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As a small meteoroid strikes tiny Adrastea, for example, it will bore into the moon, vaporize and explode dirt and dust off into a Jovian orbit. Pictured above is an eclipse of the sun by Jupiter, as viewed from Galileo. Small dust particles high in Jupiter's atmosphere, as well as the dust particles that compose the rings, can be seen by reflected sunlight.
Image Credit: NASA, JPL, Galileo Project, (NOAO), J. Burns (Cornell) et al.
Last Updated: Aug. 7, 2017
Editor: NASA Content Administrator
Jupiter's faint ring system is shown in this color composite as two light orange lines protruding from the left toward Jupiter's limb. This picture was taken in Jupiter's shadow through orange and violet filters. The colorful images of Jupiter's bright limb are evidence of the spacecraft motion during these long exposures. The Voyager 2 spacecraft was at a range of 1,450,000 kilometers (900,000 miles) about two degrees below the plane of the ring. The lower ring image was cut short by Jupiter's shadow on the ring.
JPL manages the Voyager project for NASA's Office of Space Science.
| Jupiter's Rings | 03.13.07 |
 The New Horizons Long Range Reconnaissance Imager (LORRI) snapped this photo of Jupiter's ring system on February 24, 2007, from a distance of 7.1 million kilometers (4.4 million miles). This processed image shows a narrow ring, about 1,000 kilometers (600 miles) wide, with a fainter sheet of material inside it. "This is one of the clearest pictures ever taken of Jupiter's faint ring system," says Dr. Mark Showalter, a planetary astronomer from the SETI Institute in Mountain View, Calif., who planned many of the ring images. "The ring looks different from what we expected — it has usually appeared much wider." Showalter suggests that the ring's largest boulders are corralled into a narrow belt by the influence of Jupiter's two innermost moons, Adrastea and Metis. The ring also appears to darken in the middle, a possible hint that a smaller, undiscovered moon is clearing out a gap. "If there is a smaller moon within those rings, we hope to see it in some of the hundreds of additional images that New Horizons will transmit back to Earth over the next several weeks," says Dr. Andy Cheng, LORRI principal investigator from the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. Showalter adds that the faint glow extending in from the ring is likely caused by fine dust that diffuses in toward Jupiter. This is the outer tip of the "halo," a cloud of dust that extends down to Jupiter's cloud tops. The dust will glow much brighter in pictures taken after New Horizons passes to the far side of Jupiter and looks back at the rings, which will then be sunlit from behind. Jupiter's ring system was discovered in 1979, when astronomers spied it in a single image taken by the Voyager 1 spacecraft. Months later, Voyager 2 carried out more extensive imaging of the system. It has since been examined by NASA's Galileo and Cassini spacecraft, as well as by the Hubble Space Telescope and large ground-based observatories. Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute | |
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