As in the song "Lawyers In Love" we have a land, a nation with too many in high places willing to do anything for money neglecting people, honor and principle but a change is coming. No more falling for the lie of living only individualistic and independent lives leaving us divided and conquerable by powerful special interests but a people, a nation collaborating for the greater common good in various groups all across the nation. A land of people working together to help one another with a vision moreover as Jesus would have us be. Love, Mercy, Forgiveness, Kindness....something about another Land. The change is coming

Saturday, October 21, 2017

Gravitational Waves Will Bring the Extreme Universe Into View



The first direct detection of gravitational waves on 14 September 2015 proved that massive objects can ripple the structure of space, verifying a key prediction of Albert Einstein’s general theory of relativity. The second detection, made on 26 December 2015 and announced this June, firmly established gravitational waves as a new window to the Universe. But even more exciting are the detections yet to come: the thousands of signals that should soon be observed by the Laser Interferometer Gravitational-Wave Observatory (LIGO) and Virgo experiments. They will transform our understanding of black holes, neutron stars, supernova explosions, and perhaps even the origin and fate of the cosmos itself.

Changes to the fields of physics and astronomy are already being felt. The two events reported so far have significantly increased the number of known stellar-mass black holes, and have demonstrated that black holes can form tight pairs and merge violently within the lifetime of the Universe; such mergers are the inferred cause of the September 14 and December 26 signals. Drawing on data from those two events, my colleagues in the LIGO and Virgo collaborations have tested general relativity in novel ways, far outside our terrestrial experience. And we have shown that black holes collide more often than expected, which has lead some researchers to speculate that black holes might be abundant enough to qualify as a variety of dark matter.

As with any new observational tool, the most important discoveries from the new detectors will surely be the ones that are unexpected. But we also have a good sense of the amazing things that the gravitational universe will tell us, even in the absence of surprises.

First, we can be certain that we will detect many more merging pairs of black holes comparable to the two already detected. The current instruments are about three times less sensitive than their full potential. At their ultimate sensitivity, the two LIGO detectors (in Louisiana and Washington state) and the Virgo experiment (near Pisa in Italy) will register dozens to hundreds of black-hole events per year. This large sample will yield a detailed census of black holes, and will allow astronomers to characterise their population all across the Universe, evaluating theories of how they form.

We also expect to observe mergers of neutron stars, the ultradense remains of stars that were too small to form black holes. Whereas black holes are so extreme that they are breathtakingly simple (completely described by their mass, spin and charge), neutron stars show the Universe at its most bizarre and complex. They contain more mass than our Sun packed into a sphere the size of Manhattan, with magnetic fields that can be more than a billion times as powerful as Earth’s. We do not understand how matter this dense behaves, nor do we know how their magnetic fields are sustained. What we do know is that pairs of neutron stars sometimes spiral into each other. The resulting gravitational waves will give us, for the first time, an unobstructed picture of neutron stars as they interact.

Unlike black holes, naked neutron stars emit light and other forms of radiation. Neutron-star mergers can produce a rapid flash of gamma rays or X-rays, along with a faint optical afterglow that can linger for days or weeks. With LIGO and Virgo operating in concert, we can localise the position of colliding neutron stars to within a few degrees in the sky. Optical telescopes can then search this patch of sky for a fading signal emitted by radioactive material ejected during the merger. This simultaneous observation of gravitational and electromagnetic signals could solve many long-standing mysteries in astronomy, such as the nature of energetic flashes known as short gamma-ray bursts, and the origin of heavy elements, including much of the gold found on Earth.

Gravitational waves can also show what happens in a ‘core-collapse’ supernova explosion, which occurs when the core of a massive star exhausts its nuclear fuel and is crushed under the star’s immense mass. This is an open question in astrophysics, because the mechanism that drives the explosion is hidden deep inside the star. Gravitational waves from supernovae will travel directly from the star’s centre to our detectors. Core-collapse supernovae are exceptionally rare, however; the last such one near our galaxy was in 1987, and the last known event in our galaxy proper was 400 years ago. Gravitational-wave scientists will have to be lucky and patient.

Looking out on an even grander scale, gravitational waves from neutron star mergers will give us a fresh way to study the expansion of the Universe. Our current picture of cosmology­ – in which the Universe is expanding following the Big Bang, and is accelerating due to an unseen ‘dark energy’ – relies heavily on observations of supernovae in distant galaxies. Gravitational waves will provide complementary information: the intensity (amplitude) of the gravitational signal tells us the distance to the event, while the optical appearance of the merger reveals how much its light has been stretched, or redshifted, on its way to Earth. These two pieces of information define the rate at which the Universe is expanding. Measuring this rate independently will provide an important check of our cosmological models.

Finally, LIGO and Virgo might detect a faint background hum of gravitational waves that pervades the entire Universe, constantly vibrating all of empty space. Many theories predict an omnipresent gravitational energy produced either from the accumulation of astrophysical events such as black hole mergers or from an early, extremely rapid episode of cosmic inflation immediately after the Big Bang. If the hum is loud enough, it will show up as a correlated signal between widely separated detectors such as LIGO and Virgo. Measuring the gravitational-wave background would be a dramatic achievement.

For the next few years, progress in gravitational-wave science will be limited by the sensitivity of the detectors. With each boost to their performance, it’s likely that we will uncover events from new types of sources. Eventually, perhaps after a large international investment in new facilities, progress in the field will be limited only by the willingness of the Universe to provide rare, exotic signals to observe.

LIGO and Virgo have already performed a staggering feat. Consider the properties of the September 14 event: the signal was generated by two objects, each roughly 35 times the mass of our Sun, locked in a decaying orbit the size of Switzerland, circling each other 50 times a second. The energy involved was staggering, briefly exceeding that of all the starlight in the Universe, but the signal that reached Earth was among the most imperceptible things that humans have ever measured. As gravitational-wave detections make the transition from sensational discoveries to routine tools for astrophysics and cosmology, the invisible shaking of space will, paradoxically, illuminate parts of the Universe that were entirely dark until now.

by Aeon and Daniel Hoak

My take: I often ask myself, will this be the one, the one detector or instrument that finally begins to reveal that we are not in a so safe place in outer space. I know this day is coming when some scientific instrument or telescope will see what was prophesied in the New Testament of the Bible. I'am sure it will be initially attempted to keep this from the people of earth but the people will find out because......Luke 21: 26 says men’s hearts will fail them from fear and the expectation of those things which are coming on the earth, for the powers of the heavens will be shaken.
It is of course important that "for the powers of the heavens will be shaken" comes directly afterward. I'am sure some would say otherwise this scripture only means earthquakes, hurricanes and plagues but context and proximity are everything in scripture and so according to this it is clear things will be coming on the earth due to the "shaking" of the heavens.

What is interesting here is that beyond seeing with the naked eye, men in those days could not otherwise have been aware of anything coming upon the earth but clearly and ominously we have the means today, far above any past expectations, to be able to fulfill this scripture by providing the means to see something coming upon the earth well ahead of time. Men, of course, at the time did not know this would be possible but God did know and spoke of it here.
Men will be able to see through telescopes or detect through the myriad of scientific instruments something coming upon the earth. There is actually a lot that can go wrong out there and a lot that can come our way when it goes wrong. It could be as simple as an asteroid or comet or it could be caused by forces in or from the sun or the approach of a relatively small black hole, neutron star or dark matter which would exude incredible gravitational force causing disruption in the solar system. If you understand how black holes affect the space around them as they approach you understand how the scriptures referring to a sun and moon no longer giving off it's light, stars being cast from the sky like in a strong wind and the heavens being rolled back like a scroll could be attributed to the immense gravitational forces from a black hole stopping and trapping light photons. Dark matter itself is supposed to make up 95 percent of the universe so one wonders just when do we rub elbows with this very present force.
One would think gravitational wave detection should be something that would detect activity before any "shaking" of the heavens occurs. Gravitational forces should be at the very core of all this.

Now one could go on and on about symbolic interpretation of scripture and how it seems when it comes to these prophecies a way is found for all of end time cataclysmic events to be symbolic even to the point one might come to believing even the creation event was symbolic so we are not really here all this is symbolic and so you can see the absurdity in that idea. The beginning of the earth and heavens surely was quite a physical event and it only seems reasonable that there would be some of that happening at the end. It might seem humorous using understatement here but if you read some of the biblical studies and commentaries pushing almost fanatical use of symbolism to interpret these end time scriptures you might have to chuckle a bit yourself. It might also be a laugh  that my comment here is nearly turning into another article so i must can it and ship it.
The following however should be by no means humorous.

Men's hearts will fail them for what they see coming upon the earth
for the powers of heaven will be shaken.

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