Mass of Black Hole at Size of Tennis ball: Facts & Variations

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SUMMARY

The mass of a black hole with the size of a tennis ball, calculated using the Schwarzschild Radius formula, is approximately 2.209 x 1025 Kg. However, this mass is insufficient to form a Schwarzschild black hole, which requires a minimum mass of around 1.5 solar masses. Variations in the minimum mass have been noted, ranging from 1.4 to 3 solar masses. Theoretical discussions suggest the existence of primordial black holes formed shortly after the Big Bang, although no experimental evidence currently supports this hypothesis.

PREREQUISITES
  • Understanding of the Schwarzschild Radius formula
  • Familiarity with gravitational constant (G) and speed of light (c)
  • Basic knowledge of black hole physics and types
  • Awareness of quantum processes affecting black hole mass
NEXT STEPS
  • Research the implications of the Schwarzschild Radius in black hole formation
  • Explore the concept of primordial black holes and their theoretical foundations
  • Investigate the processes of mass gain and loss in black holes
  • Study the latest findings in black hole physics and observational evidence
USEFUL FOR

Astronomers, astrophysicists, and students of theoretical physics interested in black hole characteristics and formation theories.

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What is the mass of a black hole at the size of a tennisball? Can the mass of a black hole vary?
 
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The formula for finding the Schwarzschild Radius is:

r = \frac{2 M G}{c^2}

M is the mass in Kg
G is the gravitational constant. (6.6742*10^-11 m^3/Kg*s^2)
C is the speed of light in m/s
r is the radius in meters. This is the distance from the singularity at which the event horizon exists. If distance has any meaning in this case...

For a Schwarzschild black hole, we can find the mass with a given radius by simply arranging the above formula:

m = \frac{r c^2}{2 G}

The radius of a tennis ball is approximately 0.0328 meters (2.6 inches). Plugging that into the formula gives us 2.209 * 10^25 Kg.

This mass is too small to have formed a Schwarzschild black hole in the first place. The minimum mass this type of black hole can have is around 1.5 solar masses. I'm not sure how accurate that figure is. I've seen values that range from 1.4 to 3 solar masses.

It's been theorized that tiny black holes may exist that were created shortly after the big bang. However, there is no experimental evidence which supports this. Primordial Black Hole

A black hole can have any arbitrary mass above the minimum. A black hole's mass can increase as it pulls matter into itself. A black hole might lose mass through the quantum process of http://casa.colorado.edu/~ajsh/hawk.html.
 
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