- #1
physicskid
- 75
- 0
One of my friend had asked me one question which I did not really have a good answer for. His question was: Why does the antiparticle counterpart of the virtual antiparticle pairs (those that appear due to uncertainty between time and energy) at the event horizon fall into the black hole, instead of the 'particle' counterpart of the pair (for example: a 'particle' is an electron, an antiparticle is the positron)?
My answer to this question was that it was to mantain the universal overall of matter and energy at the same amount, since the antiparticle counterpart actually annihilates the singularity's matter. Is there a better answer for this?
My answer to this question was that it was to mantain the universal overall of matter and energy at the same amount, since the antiparticle counterpart actually annihilates the singularity's matter. Is there a better answer for this?
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