Según valdeandemagico, la pirámide de Keops medía la estabilidad magnética del planeta tierra (además de temperatura, vientos, movimientos sismicos...)y mandaba dichos datos al espacio. La camara del Rey, era el amplificador fractal, cuya señal portadora (1.42 Ghz) salía por los conductos de ventilación. Todas las medidas de canalizaciones, cámaras y demás están relacionadas con las ondas electromagnéticas que por ahí viajaban.

martes, noviembre 08, 2011

La ciencia oficial acaba de eliminar al electrón como partícula fundamental

 Según la teoría del todo de Valdeandemagico, la ciencia oficial se acaba de cargar al electrón como partícula elemental, otra cosa es que aún no se haya enterado. La teoría del todo de Valdeandemagico hace ya tiempo que consideró que todo eran simples trituradoras, por lo que no tenían sentido partículas elementales como el electrón, y con el hallazgo que acaba de presentar estos días la NASA parece que todo indica que eso que estudiamos en la escuela y que llamamos electrón, es exactamente igual a lo que acaban de fotografiar.
illustration of gamma-ray bubbles extent
Para Valdeandemagico exactamente esto es el electrón


Logicamente la ciencia oficial no compartirá la visión de Valdeandemagico, pero para la teoría del todo de Valdeandemagico, que dice que si conocemos algo a una escala, lo podemos cambiar de escala y el conocimiento no varía, estamos totalmente seguros que lo hallado en nuestra galaxia, y lo estudiado en las escuelas como electrón, es lo mismo. Lógicamente a pesar de algo tan evidente, pueden tardar décadas hasta que la ciencia se de por aludida, sin embargo Valdeandemagico lo recogió hace ya años.

NASA's Fermi Telescope Finds Giant Structure in our Galaxy
Using data from NASA's Fermi Gamma-ray Space Telescope, scientists have recently discovered a gigantic, mysterious structure in our galaxy. This feature looks like a pair of bubbles extending above and below our galaxy's center. Each lobe is 25,000 light-years tall and the whole structure may be only a few million years old. (Video credit: NASA's Goddard Space Flight Center)
From end to end, the newly discovered gamma-ray bubbles extend 50,000 light-years, or roughly half of the Milky Way's diameter, as shown in this illustration. Hints of the bubbles' edges were first observed in X-rays (blue) by ROSAT, a Germany-led mission operating in the 1990s. The gamma rays mapped by Fermi (magenta) extend much farther from the galaxy's plane. Credit: NASA's Goddard Space Flight Center
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gamma-ray structure visible by processing Fermi all-sky data at energies from 1 to 10 GeV A giant gamma-ray structure was discovered by processing Fermi all-sky data at energies from 1 to 10 billion electron volts, shown here. The dumbbell-shaped feature (center) emerges from the galactic center and extends 50 degrees north and south from the plane of the Milky Way, spanning the sky from the constellation Virgo to the constellation Grus. Credit: NASA/DOE/Fermi LAT/D. Finkbeiner et al.
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artist concept of a photon and an electron When an electron moving near the speed of light strikes a low-energy photon, the collision slightly slows the electron and boosts the photon's energy to the gamma-ray regime. Credit: NASA's Goddard Space Flight Center
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Fermi all-sky data with superimposed graphs The bubbles display a spectrum with higher peak energies than the diffuse gamma-ray glow seen throughout the sky. In addition, the bubbles display sharp edges in Fermi LAT data. Both of these qualities suggest that the structure arose in a sudden, impulsive event. Credit: NASA/DOE/Fermi LAT/D. Finkbeiner et al.
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WASHINGTON -- NASA's Fermi Gamma-ray Space Telescope has unveiled a previously unseen structure centered in the Milky Way. The feature spans 50,000 light-years and may be the remnant of an eruption from a supersized black hole at the center of our galaxy.

"What we see are two gamma-ray-emitting bubbles that extend 25,000 light-years north and south of the galactic center," said Doug Finkbeiner, an astronomer at the Harvard-Smithsonian Center for Astrophysics in Cambridge, Mass., who first recognized the feature. "We don't fully understand their nature or origin."

The structure spans more than half of the visible sky, from the constellation Virgo to the constellation Grus, and it may be millions of years old. A paper about the findings has been accepted for publication in The Astrophysical Journal.

Finkbeiner and his team discovered the bubbles by processing publicly available data from Fermi's Large Area Telescope (LAT). The LAT is the most sensitive and highest-resolution gamma-ray detector ever launched. Gamma rays are the highest-energy form of light.

Other astronomers studying gamma rays hadn't detected the bubbles partly because of a fog of gamma rays that appears throughout the sky. The fog happens when particles moving near the speed of light interact with light and interstellar gas in the Milky Way. The LAT team constantly refines models to uncover new gamma-ray sources obscured by this so-called diffuse emission. By using various estimates of the fog, Finkbeiner and his colleagues were able to isolate it from the LAT data and unveil the giant bubbles.

Scientists now are conducting more analyses to better understand how the never-before-seen structure was formed. The bubble emissions are much more energetic than the gamma-ray fog seen elsewhere in the Milky Way. The bubbles also appear to have well-defined edges. The structure's shape and emissions suggest it was formed as a result of a large and relatively rapid energy release - the source of which remains a mystery.

One possibility includes a particle jet from the supermassive black hole at the galactic center. In many other galaxies, astronomers see fast particle jets powered by matter falling toward a central black hole. While there is no evidence the Milky Way's black hole has such a jet today, it may have in the past. The bubbles also may have formed as a result of gas outflows from a burst of star formation, perhaps the one that produced many massive star clusters in the Milky Way's center several million years ago.

"In other galaxies, we see that starbursts can drive enormous gas outflows," said David Spergel, a scientist at Princeton University in New Jersey. "Whatever the energy source behind these huge bubbles may be, it is connected to many deep questions in astrophysics."

Hints of the bubbles appear in earlier spacecraft data. X-ray observations from the German-led Roentgen Satellite suggested subtle evidence for bubble edges close to the galactic center, or in the same orientation as the Milky Way. NASA's Wilkinson Microwave Anisotropy Probe detected an excess of radio signals at the position of the gamma-ray bubbles.

The Fermi LAT team also revealed Tuesday the instrument's best picture of the gamma-ray sky, the result of two years of data collection.

"Fermi scans the entire sky every three hours, and as the mission continues and our exposure deepens, we see the extreme universe in progressively greater detail," said Julie McEnery, Fermi project scientist at NASA's Goddard Space Flight Center in Greenbelt, Md.

NASA's Fermi is an astrophysics and particle physics partnership, developed in collaboration with the U.S. Department of Energy, with important contributions from academic institutions and partners in France, Germany, Italy, Japan, Sweden and the United States.

"Since its launch in June 2008, Fermi repeatedly has proven itself to be a frontier facility, giving us new insights ranging from the nature of space-time to the first observations of a gamma-ray nova," said Jon Morse, Astrophysics Division director at NASA Headquarters in Washington. "These latest discoveries continue to demonstrate Fermi's outstanding performance."

For more information about Fermi, visit:

http://www.nasa.gov/fermi

2 comentarios:

Xoco dijo...

Si existe la reencarnación te recomiendo que en la próxima vida estudies física de partículas, ya verás lo bien que te lo pasarás riéndote de tu YO de la vida anterior...

valdeandemagico dijo...

Si creyera en la física de partículas y en la mecánica cuantica, no hubiese creado este blog.
Y si la física de partículas fuera perfecta, explicaría todo, no solo el 4% del universo.
Para la física de partículas, tú yo yo, seríamos exactamente iguales, pero para la teoría del todo de Valdeandemagico, tú y yo, somos totalmente diferente, pues lo importante no es la partícula, sino la información que transporta cada uno de nosotros, y está claro que la información tuya y la mía, es totalmente diferente, pues lo mismo pasa con las que se llaman partículas, que para Valdeandemagico, todas son diferentes y encima cada una lleva una información diferente.