Hello All,
I was thinking about quasars this week and what they might be and
stumbled across something interesting that I thought I might share
with you. Firstly, my thought was that a quasar might just be a black
hole with a white hole at the centre. Probably NOT a new thought, but
it led me to work out what a white hole MIGHT be. I thought that,
perhaps, a white hole is an area of space that is completely filled.
But how could that happen? Well, if the pressures inside the black
hole are strong enough to compress the energy inside to the smallest
wavelength possible, that of the Planck length, then THAT would
completely fill that area of space-time with tiny, but incredibly
powerful photons.
SO, here’s some of the maths: Start with the speed of light:
299,792,458 metres per second. Now, divide that number by the Planck
length of 1.616252^-35. That comes out to a frequency of 1.8548621^
+49 Hz. () Now, assuming that area is a bog-standard “black body”,
it would produce a temperature of 5.3749609522385^+39 degrees Kelvin.
And THAT, my friends, is, technically, the hottest temperature
allowable in this universe and, thus, the opposite end of the Kelvin
scale. Well, at least the highest temperature one could expect to
find in THIS universe.
So, if a white hole, as described above, were to exist inside a
super-massive black hole, when any matter from the black hole’s
accretion disc fell into the black hole, it would approach the white
hole and get thrown out at right angles (i.e., the matter would spew
from the poles, as black holes are spinning) and THAT seems to fit the
observations we see of what quasars do. Any thoughts, anyone?
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