Our universe began at the singularity, an infinitely hot and dense point in space. According to CERN experts like James Beecham, black holes in our universe may be characterized in the same way as they are in science.

**What Causes A Black Hole To Form?**

When massive stars die and collapse into an unimaginably dense mass, they generate black holes from which no light can escape. The event horizon, according to NASA, is the boundary in space beyond which no light can leave or any object can return.

The event horizon is not a new concept; it occurs in every visible universe. In the first trillionth of a second after the Big Bang, the universe began expanding at a rate faster than the speed of light. There was no such thing as an absolute speed restriction before this time because there was no such thing as outer space. The expansion of the cosmos slows with time.

There is a curvature in the space-time surrounding a black hole in accordance with Einstein’s theory of relativity. If it weren’t for the light and heat pulled into black holes, it would be almost impossible to see them. The event horizon expands in tandem with the black hole as more stuff is drawn into it.

The rate of material fall slows as the black hole expands. Things seem to be moving at a standstill to an observer due to the immensity of gravity. The theory of relativity says that time seems to be normal from the viewpoint of anything being drawn into a black hole.

**Are We Inside A Black Hole?**

In our reality, the event horizons of three-dimensional black holes are two-dimensional. According to this logic, our universe would need to be a fourth-dimensional black hole in order to be an event horizon. The singularity of a black hole is a mathematical impossibility, which is why calculating the event horizon yields infinity. The event horizon records the information that is sucked into the black hole by falling matter.

As the event horizon expands, the surface area of a black hole is just the proper size to hold all of the information that has fallen into it since the Big Bang. This type of data constitutes the entirety of our universe. It turns out that the arithmetic works and answers some of the most important questions concerning the universe and black holes. In 2014, the Perimeter Institute and the University of Waterloo published research that suggested.

It’s tough to imagine our globe residing within another black hole. According to the black hole theory, our cosmos may be considerably larger and more chaotic than we previously imagined. It connects all of the loose ends that scientists and professionals have been attempting to figure out for decades.