What happens when 2 black holes collide? Watch astrophysicist and astronomers discussion. Find out what LIGO is, when the collision occurred, and the results of the collision.
A black hole is a place in space where gravity pulls so much that even light can not get out. The gravity is so strong because matter has been squeezed into a tiny space. This can happen when a star is dying. Because no light can get out, people can’t see black holes.
Every symmetry of physics laws leads to a conservation law, and every conservation law arises from a symmetry in the laws of physics.
Symmetry is the casual structure built into the creation module. The creation module has a two-way arrow of time that is built into it. All current information is always passed back into the versatile storage unit. These informational totals can’t be changed or deleted.
The closed sub-atomic quantum system is a duplicate of the macro quantum system. The two systems interact on a binary basis.
The triune combined functions of consciousness, quantum gravity, and quantum entanglement act as one from the underside of the fabric of space-time.
THE LAW THAT CONTROLS ALL PARTICLE INTERACTIONS IS THIS:
ALL THINGS ARE TRIUNE, WITH BINARY INTERACTIVES. THIS IS THE LINKAGE BETWEEN MATTER AND FORCE CARRYING PARTICLES. THE LINKAGE BETWEEN THE PARTICLE ZOO IS CONTROLLED BY FERMIONS AND BOSONS.
THE REALITY OF HOW LIFE FORMS CAME ABOUT ON THIS REMOTE BLUE MARBLE IS THIS: THE EVENT ORIGINATOR WROTE THE CODE, PRODUCED THE BLUEPRINT, AND USED AN EVOLVEMENT PROCESS TO OBTAIN THE REQUISITE RESULT. IT’S ALL JUST A BINARY SOFTWARE PROGRAM.
Symmetry is the causal structure built into the creation module. The creation module has a two-way arrow of time that is built into it. All current information is always passed back into the versatile storage unit. These informational totals can’t be changed or deleted.
The closed subatomic quantum system is a duplicate of the macro quantum system. The two systems interact on a binary basis.
CONSCIOUSNESS CREATES SPACE/TIME.
This picture from the NASA/ESA Hubble Space Telescope sets the scene for the story of the hunt for an elusive missing object hidden amid a complex tangle of gaseous filaments in one of our nearest neighboring galaxies, the Small Magellanic Cloud. The wisps of gas forming the supernova remnant 1E 0102.2-7219 show up in blue near the center of the picture. Part of the massive star-forming region, N 76, also known as Henize 1956, appears at the lower right in green and pink.
A black hole is a tremendous amount of matter crammed into a very small — in fact, zero — the amount of space. The result is a powerful gravitational pull, from which not even light can escape — and, therefore, we have no information or insight as to what life is like inside.
Evidence supporting the idea of black holes has continued to be found.
Light can’t escape a black hole. They are infinitely dense entities in space-time.
But, what if something else -other than a black hole- could produce these same effects?
What if, instead of black holes, they are a class of objects with “dark energy” interiors known as GENERIC OBJECTS OF DARK ENERGY (GEODEs).
Such objects are possibly viable stellar remnants. (The endpoint of massive stars).
This alternative model postulates that the interiors of black holes are described in an equation of state that describes the state of matter in terms of its pressure, temperature, and volume.
Massive stars, instead of collapsing into black hole singularities, would collapse into non-singular “dark energy” objects (GEODEs). They only appear to be black holes from the outside.
The current understanding of a black hole is that of a singularity, which is a mathematical construct, and the physicality of such is yet to be understood.
In order to incorporate into the framework of an expanding universe, they can’t be singularities.
This “dark energy” provides the energy for the universe to accelerate.
The radiation coming from the GEODEs could be a supplemental component for life to thrive.
WHITE HOLES.
A black hole is one prediction of Einstein’s theory of general relativity. Another is known as a white hole, which is like a black hole in reverse: Whereas nothing can escape from a black hole’s event horizon, nothing can enter a white hole’s event horizon.