THE CERN DECEPTION THE EVIL OF DARK MATTER 2015
Δημοσιεύτηκε στις 27 Ιουλ 2015
The
Large Hadron Collider (LHC) has restarted again this July 2015 in the
search for Dark Energy and possible extra dimensions in our Universe.
Will Cern Create Black Holes this time, or find the key to the Universe?
The GOD particle... So many questions and so few answer's. Galaxies in
our universe seem to be achieving an impossible feat. They are rotating
with such speed that the gravity generated by their observable matter
could not possibly hold them together; they should have torn themselves
apart long ago. The same is true of galaxies in clusters, which leads
scientists to believe that something they cannot see is at work. They
think something we have yet to detect directly is giving these galaxies
extra mass, generating the extra gravity they need to stay intact. They
call this mysterious stuff dark matter.
Unlike normal matter,
dark matter does not interact with the electromagnetic force. This means
it does not absorb, reflect or emit light, making it extremely hard to
spot. In fact, scientists have been able to infer the existence of dark
matter only from the gravitational effect it seems to have on visible
matter.
Dark matter seems to outweigh visible matter roughly five to
one, making up more than 80% of all the matter in the universe.
Scientists think that dark matter particles were some of the few types
of particles created in the big bang that are stable enough to still be
around today.
Experiments at the Large Hadron Collider (LHC) may
provide more direct clues about dark matter. Many theories say the dark
matter particles would be light enough to be produced at the LHC. If
they were created at the LHC, they would escape through the detectors
unnoticed. However, they would carry away energy and momentum.
Scientists could infer their existence from the amount of energy and
momentum missing after a collision.
Dark matter candidates arise
frequently in theories that suggest physics beyond the Standard Model,
such as supersymmetry and extra dimensions. If one of these theories
proved to be true, it could help scientists gain a better understanding
of how our universe is composed and, in particular, how galaxies hold
together.
For ALL whom may be interested in who the speaker is.
His name is Michael, Here is a link to his page.
http://counciloftime.com
Large Hadron Collider (LHC) has restarted again this July 2015 in the
search for Dark Energy and possible extra dimensions in our Universe.
Will Cern Create Black Holes this time, or find the key to the Universe?
The GOD particle... So many questions and so few answer's. Galaxies in
our universe seem to be achieving an impossible feat. They are rotating
with such speed that the gravity generated by their observable matter
could not possibly hold them together; they should have torn themselves
apart long ago. The same is true of galaxies in clusters, which leads
scientists to believe that something they cannot see is at work. They
think something we have yet to detect directly is giving these galaxies
extra mass, generating the extra gravity they need to stay intact. They
call this mysterious stuff dark matter.
Unlike normal matter,
dark matter does not interact with the electromagnetic force. This means
it does not absorb, reflect or emit light, making it extremely hard to
spot. In fact, scientists have been able to infer the existence of dark
matter only from the gravitational effect it seems to have on visible
matter.
Dark matter seems to outweigh visible matter roughly five to
one, making up more than 80% of all the matter in the universe.
Scientists think that dark matter particles were some of the few types
of particles created in the big bang that are stable enough to still be
around today.
Experiments at the Large Hadron Collider (LHC) may
provide more direct clues about dark matter. Many theories say the dark
matter particles would be light enough to be produced at the LHC. If
they were created at the LHC, they would escape through the detectors
unnoticed. However, they would carry away energy and momentum.
Scientists could infer their existence from the amount of energy and
momentum missing after a collision.
Dark matter candidates arise
frequently in theories that suggest physics beyond the Standard Model,
such as supersymmetry and extra dimensions. If one of these theories
proved to be true, it could help scientists gain a better understanding
of how our universe is composed and, in particular, how galaxies hold
together.
For ALL whom may be interested in who the speaker is.
His name is Michael, Here is a link to his page.
http://counciloftime.com
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