could say that the mouth of the black hole of our galaxy is the vena cava above the entrance to the Universe in which we are. And the artery would be white or worm hole, where the blood comes out. We
neither big bang or anything like that, according Valdeandemagico all absolutely everything works according to its black hole and they interact with each other. Ie if the human has 10 trillion cells, means that we are formed by 10 billion black holes, and if the galaxy to which we belong has 200,000 million stars, would still need about 50 galaxies to be equivalent. The fact is that every cell, is also made up of trillions of black holes. Following
description Valdeandemagico theory, which says that everything works the same but a different scale, means that the human heart works exactly like a black hole, and that's not bad, but necessary for life, and studying how it works, because all this information we can apply the black hole of our galaxy, and the electron, then the black holes in galaxies are not monsters or anything like that, but are necessary for life, and even we can say that creating life is organized. And that to understand an electron, then we have to look like a star orbiting a black hole which is the nucleus of the atom, but knowing that the electron is another black hole, then absorbs everything that comes, and that absorption is what we know as gravity, while energy issues, what is known as electromagnetism.
Important is to know that if the heart beats, throwing blood in pulses, then the same must do the electron, the black hole at the center of our galaxy, or our planet, and until we can measure the pulse of each black hole property would also have to vary, as does the beating of our hearts.
And the big question of the century, what's inside the black hole in the cosmos, because the response is Valdeandemagico easy, there are a lot like what's inside the human heart.
Finally, a radically different way of seeing things, is what the theory proposes Valdeandemagico.
In humans:
. Jose Maria Ferrero, a research group Bioelectronics Research Institute of Bioengineering and human-oriented technology, a heart can be translated into a system of mathematical equations. And that is what has made the University, have developed a virtual heart to study the causes of cardiac arrhythmias and improve their treatment. With the help of doctors, surgeons, electrophysiologists and the Clinical Hospital and General Hospital of Valencia, the researchers reduced the basic principles of functioning of the heart to complex mathematical equations and created a program to simulate the heart in three dimensions and different anomalous behavior in its operation. The research is published in the journal Annals of Biomedical engineering. " In galaxies:
holes Blacks are the heartbeat of the galaxy's powerful black holes at the centers of large galaxies and galaxy clusters act as the heart of the system, 
pumping energy at regular intervals to regulate the growth of these black holes and star formation, according to new data from the X-ray Observatory NASA's Chandra
The gravitational pull of black holes is so powerful that not even light can escape them. Have been detected supermassive black holes with masses more than a billion suns in the center of large galaxies. The material falls into a black hole causes sporadic or isolated bursts of energy by which black holes are able to influence the fate of their host galaxies. This new research shows that black holes can pump energy in a more peaceful, rhythmic, rather than violence. The scientists observed and simulated how the black hole at the center of the elliptical galaxy M84 safely sends bubbles of hot plasma into space and heats the interstellar space. It is believed that this heat slows the formation of new stars and black hole growth itself, helping the stability of the galaxy. Interstellar gas just join in new stars when pretty cool. The heating is more efficient on sites where it is most needed, scientists say. Alexis Finoguenov, UMBC and the Max-Planck Institute for Extraterrestrial Physics in Germany, compares the central black hole in the heart muscle. "Just as our heart pumps our circulatory system periodically to keep us alive, black holes, galaxies give them a hot component vital. It is a careful creation of nature that allows a galaxy maintain a delicate balance," said Finoguenov. This finding helps explain a paradox that has decades, the existence of large amounts of hot gas around certain galaxies, making them appear brighter at X-ray telescope Chandra. "Over the decades, astronomers were puzzled by the presence of hot gas around these objects. It was expected that the gas is cooled and formed many stars," said Mateusz Ruszkowski, associate professor in the Department of Astronomy at the University of Michigan. "Now, we see clear and direct evidence that the heating mechanism of black holes is persistent, producing enough heat to significantly suppress star formation. These plasma bubbles are produced by bursts of energy that occur one after another and occasionally, and it is difficult to find direct evidence of such behavior newspaper. "bubbles are formed inside each other, with a Russian doll-like effect that has never before been seen, Ruszkowski said. One of the hot plasma bubbles seems to be bursting, spilling its contents to contribute to the heating of gas Interstellar. "disturbed gas in galaxies is seen in many old images obtained by NASA's Chandra observatory, but see multiple events is impressive evidence of the persistent black hole activity," says Christine Jones, an astrophysicist at the Center for Astrophysics Harvard-Smithsonian. A research paper on "Study Chandra deep in the AGN feedback in the Virgo elliptical galaxy M84" has been published in the Astrophysical Journal.
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