Journal of Theoretical, Experimental, and Applied Physics
On the Evolution of the Baby Universe Before the Big Bang
Abstract
Tai-Choon Yoon
The universe is known to have been born from the Big Bang. The Big Bang event, however, fails to explain why the total amount of energy and matter in the universe currently obeys the law of conservation of energy. Planck units, developed by Max Planck, have no known use, but can be used to specify the generation of energy or matter before the Big Bang. This matter is called pep. Pep was born from “�??�?�”(Eobsda: Not to be). When spacetime containing Planck units is born, they become entangled and acquire mass, which is called Planck mass. Pep with Planck mass is peppized, allowing them to be individually counted. Baby universe grows as multiple peps accumulate. Baby universe does not obey the law of conservation of energy. As the baby universe’s mass increases, its temperature rises, reaching the Planck temperature. When the mass of the baby universe reaches the Planck temperature, it eventually undergoes a Big Bang, forming the primordial universe. The baby universe’s mass at that time is equal to the total amount of energy and matter in the present-day universe. When the baby universe annihilates with the Big Bang, no more pep is generated. Therefore, when the primordial universe is created with the Big Bang, the law of conservation of energy holds true.
