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Does it even make sense to ask about 'beginning of time' with beginning word referring to a time sense?
For those curious the latest issue of Scientific American (October 2013) has an article which is readable.
There are many books about 'beginning of time'
For those who do not have ready access to the Scientific American let me share some excerpts from the article.
As scientists prepare to catch their first gravitational waves, attention is turning to devices that will let astronomers peek into the invisible interiors of black holes and observe the forbidden, early history of time
Suppose you want to glimpse the beginning of time, the very first moments of cosmic creation. You might start by building a perfect telescope, an instrument so powerful that it could see to the far end of the observable universe. You'd scout out a dry mountaintop, far from the star-fading glow of civilization. You'd level out a perch near its peak and place a state-of-the-art observatory atop it. You'd outfit it with a gigantic mirror—something much larger than could be launched into space—and equip it with a series of sophisticated detectors. You'd spend several years and several billion dollars, so that every last photon was within your reach. But what could you see with it? Say it was that one night in an astronomer's thousand, when the moon hides below the horizon, and the sky appears as a clear, dark dome overhead. What jewels would glitter out from that purplish-black showcase of celestial sights?
Quite a few, it turns out. In the foreground, you would see a smattering of planets, their orbits adrift against the fixed whirl of the constellations. Beyond them, local stars would loom large against a backdrop of fainter specks of white. In the sky's darker corners, galaxies would glow, some from hundreds of millions of light-years away. If you pointed your perfect telescope at exactly the right spot, it could reveal deeper cosmic recesses still. It could take you to the very first stars—the huge hydrogen and helium spheres, whose fiery surfaces illuminated the young universe.
But light has limits; it cant show you the entire universe ...one cannot see center of black hole - the dawn of time itself ...It seems it was 380000 years before universe cooled to see anything observable ..
Gravitational waves and detection offers new opportunities ..
=====
[h=3]In Brief[/h]
For those curious the latest issue of Scientific American (October 2013) has an article which is readable.
There are many books about 'beginning of time'
For those who do not have ready access to the Scientific American let me share some excerpts from the article.
As scientists prepare to catch their first gravitational waves, attention is turning to devices that will let astronomers peek into the invisible interiors of black holes and observe the forbidden, early history of time
Suppose you want to glimpse the beginning of time, the very first moments of cosmic creation. You might start by building a perfect telescope, an instrument so powerful that it could see to the far end of the observable universe. You'd scout out a dry mountaintop, far from the star-fading glow of civilization. You'd level out a perch near its peak and place a state-of-the-art observatory atop it. You'd outfit it with a gigantic mirror—something much larger than could be launched into space—and equip it with a series of sophisticated detectors. You'd spend several years and several billion dollars, so that every last photon was within your reach. But what could you see with it? Say it was that one night in an astronomer's thousand, when the moon hides below the horizon, and the sky appears as a clear, dark dome overhead. What jewels would glitter out from that purplish-black showcase of celestial sights?
Quite a few, it turns out. In the foreground, you would see a smattering of planets, their orbits adrift against the fixed whirl of the constellations. Beyond them, local stars would loom large against a backdrop of fainter specks of white. In the sky's darker corners, galaxies would glow, some from hundreds of millions of light-years away. If you pointed your perfect telescope at exactly the right spot, it could reveal deeper cosmic recesses still. It could take you to the very first stars—the huge hydrogen and helium spheres, whose fiery surfaces illuminated the young universe.
But light has limits; it cant show you the entire universe ...one cannot see center of black hole - the dawn of time itself ...It seems it was 380000 years before universe cooled to see anything observable ..
Gravitational waves and detection offers new opportunities ..
=====
[h=3]In Brief[/h]
- Astronomers stand at the cusp of a new era. Soon they will be able to observe the universe not just with light waves but with gravitational waves as well.
- Gravitational waves offer a view into the universe that has heretofore been hidden. They can reveal what lies inside a black hole's event horizon and offer a glimpse of the earliest moments of the universe.
- Earth-bound gravitational-wave observatories should make their first discoveries in the next few years. Beyond that, a scuffle is brewing over two different technologies that might go into a space-based gravitational-wave observatory.
