Sentences with phrase «seconds after the big bang»
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.
http://religion.blogs.cnn.com/
But that is inconsistent with the theory itself which says that physical laws were beginning to be established AFTER the first unit of Planck time (a minuscule fraction of a second AFTER the big bang).
Neutrinos that filled the universe a mere second after the big bang make up a third «dark» component of the cosmos, alongside dark matter and dark energy.
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.
These structures, cosmologists say, originated in quantum fluctuations in the density of matter a split - second after the big bang.
These ripples were thought to be caused by gravitational waves, ripples in the very fabric of space - time, created a tiny fraction of a second after the big bang.
A FRACTION of a second after the big bang, a new type of stuff flooded the universe.
Ultimately, the most ambitious gravitational wave observatories astronomers can presently conceive might someday record the hiss of waves emitted in the first fractions of a trillionth of a second after the big bang.
It is estimated that the universe was at TP about 10 - 42 seconds after the big bang.
If sterile neutrinos had masses trillions of times greater than their normal left - handed cousins, they would have decayed into these lighter neutrinos within the first second after the big bang.
A hidden population of black holes born less than one second after the big bang could solve the mystery of dark matter
Any attempt to explain cosmic structure involves extrapolating from the Planck era, 10 43 seconds after the big bang, when strange effects like quantum gravity were important, to the present Universe which is about 10 billion years old.
This is the soupy mix of basic particles thought to have existed millionths of a second 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.
They really have a strong reluctance to mingle with other particles, which makes them antisocial and difficult to pin down, but they are connected to such a wide range of phenomenon from the subatomic to the cosmic that they could tell us a lot about many different things, many different mysteries about the nature of matter, about what triggers exploding stars, to what's going on in the heart of the sun, to what the universe might have been like, the conditions within seconds after the big bang.
Ray Jayawardhana: They are connected to such a wide range of phenomenon from the subatomic to the cosmic that they could tell us a lot about the nature of matter, about what triggers exploding stars, to what the universe might have been like, the conditions within seconds 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.
Not exact matches
They should help us to hone descriptions of how, after the big bang, the universe grew from smaller than a proton into a vast expanse in less than a trillionth of a trillionth of a second.
A new theory of cosmology suggests that the observable universe is embedded in a much larger region of space that had an extraordinary growth spurt a fraction of a second after the primordial big bang