2.08282953 × 10 - 6 joules or 14 trillion volts of power to generate the velocity of protons racing thru 17 miles of an underground tube from opposite directions, controlled by magnets to collide into one another to create conditions of the universe 1/1 millionth of a second
after the big bang at lhc.
Not exact matches
Remember, time was CREATED
at the
big bang, this whole idea of before and
after didn't exist before it.
consciousness is present in all matter, just like gravity it is inherent and innate to everything produced
after the
big bang, only its level of existence varies with evolution, highest is that of living things,
at the top is us humans because of the biological nature of our existence we evolve fastest and our brains has attained the highest level of complexity
«The WMAP analysis placing the reionization
at 420 million years
after the
big bang was a real puzzle,» says George Efstathiou, a University of Cambridge cosmologist and a leader of the Planck Collaboration.
Completed in 1980 but operational before then, the VLA was behind the discoveries of water ice on Mercury; the complex region surrounding Sagittarius A *, the black hole
at the core of the Milky Way galaxy; and it helped astronomers identify a distant galaxy already pumping out stars less than a billion years
after the
big bang.
A preview of the data from the balloon mission, presented
at a recent meeting on cosmology, hints that the new, sharper view of the ripples will provide even more evidence of a flat universe, created by an extraordinarily fast inflation of space within a fraction of a second
after the
big bang.
New data on the early cosmos are providing the strongest evidence yet that our universe underwent an enormous growth spurt shortly
after the
big bang, according to findings announced yesterday
at the American Physical Society meetings in Washington, D.C..
«If we know the initial amounts of stuff in the universe, such as dark energy and dark matter, and we have the physics correct, then you can go from a measurement
at the time shortly
after the
big bang and use that understanding to predict how fast the universe should be expanding today,» said Riess.
It is estimated that the universe was
at TP about 10 - 42 seconds
after the
big bang.
One method looks
at dimples in the cosmic microwave background (CMB), a glow left behind by the hot, soupy universe just a few hundred thousand years
after the
big bang.
«Thanks to this detection, the team has been able to study for the first time the properties of extremely faint objects formed not long
after the
big bang,» said lead author Leopoldo Infante, an astronomer
at Pontifical Catholic University of Chile (Pontificia Universidad Católica de Chile).
«This chicken - and - egg problem of what was there first, the galaxy or the black hole, has been pushed all the way to the edge of the universe,» Yale University astrophysicist Kevin Schawinski said in a June 15 press conference
at NASA Headquarters in Washington, D.C. Schawinski was part of a team of researchers that used two renowned orbiting observatories, the Hubble Space Telescope and the Chandra X-Ray Observatory, to identify a population of black holes in galaxies
at redshift 6, which corresponds to a time about 950 million years
after the
big bang.
BICEP's telescope
at the South Pole was able to detect the imprint of gravitational waves from the instant
after the
big bang.
Such a high value of r, for instance, indicates that inflation began even earlier than some models predicted,
at one trillionth of a trillionth of a trillionth of a second
after the
big bang.
Physicists hailed the discovery as preliminary confirmation of inflation, the idea that for a sliver of a moment
after the
big bang, the universe expanded
at blistering speed.
Linda Tacconi, an astrophysicist
at the Max Planck Institute for Extraterrestrial Physics in Garching, Germany, and her colleagues used an array of telescopes on a remote plateau in the French Alps to look for the spectroscopic evidence of carbon monoxide, a key tracer gas, in galaxies that existed roughly three billion to 5.5 billion years
after the
big bang.
John Seeman, head of accelerator systems
at SLAC, said half a dozen labs have requested components of the PEP - II collider, which created particles called B mesons for studying the disappearance of antimatter
after the
big bang.
At the moment we can only see as far back as 380,000 years
after the
big bang, when the universe became transparent to light.
Matter and antimatter are thought to have been created in equal amounts
after the
big bang, yet something has caused matter to be far more dominant than antimatter,
at least in our patch of the universe.
Astronomers expect that PaST will reveal a uniform haze of bright neutral hydrogen
at about 200 million years
after the
big bang that became increasingly punctuated by bubbles of ionized — and thus dark — hydrogen surrounding the first stars.
The cluster's stars formed
at least 12 billion years ago, less than 2 billion years
after the
big bang.
Only the middle ground, where the expansion and the gravitational strength balance to within 1 part in 1015
at 1 second
after the
big bang, allows life to form.
Scientists staring
at the faint afterglow from the universe's birth 13.8 billion years ago have discovered the first direct evidence for the theory of cosmic inflation — the mysterious and violent expansion
after the
big bang.