Big Bang Theory We certainly know that our universe exists, however, this knowledge alone has not satisfied mankind’s quest for further understanding. Our curiosity has led us to question our place in this universe and furthermore, the place of the universe itself. Throughout time we have asked ourselves these questions: How did our universe begin? How old is our universe? How did matter come to exist? Obviously, these are not simple questions and throughout our brief history on this planet much time and effort has been spent looking for some clue. Yet, after all this energy has been expended, much of what we know is still only speculation.
Yet in 1927 a man by the name of Georges Lemaitre from Belgium proposed that the universe began with a bang. “He proposed that a primeval atom exploded and that is how the universe formed itself. His proposal came after observing the red shift in distant nebul as by astronomers to a model of the universe based on relativity.” Before I was enrolled in Survey of Astronomy I wasn’t sure what to believe. But after sitting through the class I started to realize that all the pieces are starting to fit together like, why the galaxies are increasing in velocity away from us and also explaining the cosmic background radiation. About 15 billion years ago a tremendous explosion started the expansion of the universe. This explosion is known as the Big Bang.
At the point of this event all of the matter and energy of space was contained at one point. What existed prior to this event is completely unknown and is a matter of pure speculation. This occurrence was not a conventional explosion but rather an event filling all of space with all of the particles of the embryonic universe rushing away from each other. The Big Bang actually consisted of an explosion of space within itself unlike an explosion of a bomb were fragments are thrown outward.
... tangible evidence to explain the origin of the universe. The Big Bang Theory assumes that the Universe began as cosmic singularity as small as ... it is not produced, so therefore, it can only exist in interstellar matter that has not yet formed into stars (Gribbin 155 ... radiation came from the cooled residue of the initial explosion from which the universe evolved (Barrow 137). What is interesting is ...
The galaxies were not all clumped together, but rather the Big Bang lay the foundations for the universe. Even more recently, NASA’s CODE satellite was able to detect cosmic microwaves emanating from the outer reaches of the universe. These microwaves were remarkably uniform which illustrated the beginning of the early stages of the universe. However, the satellite also discovered that as the universe began to cool and was still expanding, small fluctuations began to exist due to temperature differences. These fluctuations verified prior calculations of the possible cooling and development of the universe just fractions of a second after its creation. These fluctuations in the universe provided a more detailed description of the first moments after the Big Bang.
The Big Bang theory provides a viable solution to one of the most pressing questions of all time. It is important to understand, however, that the theory itself is constantly being revised. As more observations are made and more research conducted, the Big Bang theory becomes more complete and our knowledge of the origins of the universe more substantial.