g and gravity seperates the other forces. The strong nuclear force seperates from the electro weak force. Then the universe is supercooled. The size of the universe increases 10 to the 100 because it drops below the normal temperature, and more energy than usual is created which in turn causes pressure on the inside of a tiny new universe. The pressure acts as the pressure inside of a balloon. During the phase change, many atomic particles occur which are many of the building blocks of matter today. The Heat Death Fluctuation model says that the Big Bang was the highest state of order, and that everything else is entropy, which turns order into chaos. The Inflationary model solved some questions of the Hot Big Bang model. Why was the universe so hot in the beginning? Accelerated expansion allowed for light to travel across the entire universe. Why was the temperature at so near a critical rate of expansion? ( Why was space almost flat?) The inflationary model says because it has to be if it is going to be supercooled. We would almost have to have flat space. The inflationary period did not end all at once, therefore the local irregularities could have formed. Random fluctuations must be present in order to have life. This does not solve all of the problems though, such as, is the universe expanding at an increasing rate?, we can not see matter, we can not see past the Big Bang, so what happened before it occurred? Astronomers have had many theories about what happened before the Big Bang. maybe the universe was created out of the collapse of a previous universe. Maybe black holes suck everything in, and then when there is nothing left perhaps it just pushes everything out. Maybe the Heat Death fluctuation model is correct and we live in a universe out there or maybe our universe supercooled and expanded. We do not know a lot. We do not even know if a quark is the smallest particle. Maybe the uncertainty principle k...
