NRAO telescopes are open to all astronomers regardless of institutional or national affiliation. Operated under cooperative agreement by Associated Universities, Inc.įounded in 1956, the NRAO provides state-of-the-art radio telescope facilities for use by the international scientific community. The National Radio Astronomy Observatory is a facility of the National Science Foundation Which leads me to another question… Why is it that only the anti-matter particle falls in and not regular matter particle? Wouldn’t gravity affect them equally and they fall in in equal amounts thus canceling out the mass decrease? The only answer I found so far is: When virtual particles are created, only the anti-matter particle falls in, and decreases black hole’s mass. My question is… Why does the particle that falls in somehow SUBTRACTS from the black hole’s mass instead of ADDING to it? I assumed that anything falling into a black hole would add to it’s mass, be it particles or energy. One particle falls in to a black hole while it’s counterpart escapes, thus appearing as if the black hole emitted a particle and lost mass in the process. A pair of virtual particles appear right on the edge of the event horizon. (Hawking Radiation) I know that black holes ‘evaporate’ over huge time spans via process called ‘Hawking Radiation’. I have a few questions about BLACK HOLES and ANTI-MATTER which I haven’t been able to find an answer for no matter how long I searched… It seems nobody has a decent answer.
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