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Wednesday, October 11, 2017 by Deta
Scientists say that the Earth is 4.6 billion years old while the universe is somewhere from 10 to 20 billion years old. Is it true that in the '60s scientists spotted background radiation that they thought to be remnants of the Big Bang? If this is the evidence that we base the Big Bang theory on, can the universe be older than 10 to 20 billion years, even though we have not seen any evidence of it? Also, why exactly are we sure that the Earth is 4.6 billion years old? Is the quantity 10 to 20 billion years commonly accepted today because of evidence only?
It is indeed true that scientists have known about the background radiation (commonly known as the Cosmic Microwave Background) since the early 60s. It was first discovered quite by accident by Penzias and Wilson working at Bell Labs, who detected it as an unexplainable interference in their precision radio equipment. When people finally figured out exactly what it was they were seeing, they won the Nobel Prize for their discovery. Only a few years before, George Gamow had predicted that if the Big Bang theory were correct, we should observe just such a background radiation. The CMB is not the only evidence in favor of the Big Bang, but it is one of the most important. It is a natural consequence of the theory, and is pretty unexplainable in steady-state cosmology.
The 15-20 billion year number comes not from the CMB, but rather predominantly from measurements of nearby and distant galaxies, particularly their rates of expansion away from us. We find that the distance to a galaxy is proportional to its recessional velocity. The constant of proportionality is the Hubble Constant, H, which turns out to be (approximately) the reciprocal of the age of the universe. So we measure the age by measuring recessional velocities. T = 1/H is only true, however, if the universe is not significantly accelerating or decelerating its expansion rate. If the rate of expansion is rapidly accelerating, the universe may be older than 1/H = 15 billion years, give or take. Such an acceleration would be caused by a large value of the Cosmological Constant, a sort of anti-gravity force predicted by General Relativity. There is some evidence that this might be the case.
So finally, yes, the age of the universe, being based on the empirical determination of H, is based on the observed evidence.
The age of the Solar System (including the Earth), on the other hand, is measured by the radioactive decay of certain isotopes in rocks and meteorites. These isotopes (principally Potassium and Uranium) were created with the solar system. By measuring how much has decayed, we can very accurately determine how long it's been since they (and the rest of the solar system) were formed. The oldest rocks on Earth have been destroyed by plate tectonics, so to get the age of the solar system, we turn to meteorites instead. The oldest such meteorites we have found suggest the age of their formation, and thus the age of the solar system, to be 4.568 Billion years.
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