- #1
ugalpha
- 22
- 0
I just don't see how they can be the same, if singulariity t=0 eventually went all berserk (due to quantum repulsive force perhaps) or whatever other reason like it actually did why is it not happening inside of black holes?
A t=0 singularity refers to the beginning of time in the universe, commonly referred to as the Big Bang. It is a theoretical point of infinite density and temperature where all matter and energy in the universe originated.
The singularity in a black hole refers to a point of infinite density and zero volume at the center of the black hole, where the gravitational pull is so strong that nothing, not even light, can escape.
The main difference is that the t=0 singularity is a theoretical concept of the beginning of the universe, while the singularity in a black hole is a real phenomenon that can be observed and studied. They also differ in terms of their location and size, as the t=0 singularity is thought to exist everywhere in the universe, while the singularity in a black hole is confined to the center of the black hole.
Some theories suggest that the singularity in a black hole is a remnant of the t=0 singularity, as both involve a point of infinite density. However, this connection is still a subject of debate and further research is needed to fully understand the relationship between these two singularities.
Studying these singularities can provide valuable insights into the origins and nature of the universe, as well as the laws of physics that govern it. It can also help us better understand the behavior of matter and energy under extreme conditions, such as those found in black holes.