What would you like to do?
It cant and never will. The moon is just a big rock
It depends. First, we need to figure how to measure the size of a black hole. For these purposes we will use the size event horizon. The problem is that size varies with t…he mass of the black hole. The smallest known black holes are about 3 times the mass of the sun with event horizons about 5 miles in radius, which gives a volume of about 520 cubic miles.The sun is about 460,000 miles in radius which gives a volume of about 4.1*10^17 (410 quadrillion) cubic miles. BY a simple volumetric ration you cold fit 780 trillion such black holes into the sun. The problem here, is that in such a circumstance the black holes would become a single black hole of 2.3 quadrillion solar masses, with an event horizon about 490 light years across. The largest known black hole is about 12 billion times the mass of the sun with an event horizon 44 billion miles across, far larger than the sun and several times larger than the orbit of Pluto.
Although the gravitational pull near a black hole is so great that not even light can escape, the gravitational force scales with distance, so it is entirely possible that bla…ck holes have natural celestial bodies orbiting them. Please refer to the related link below.
No. The moon cannot become a black hole. A black hole is formed when a star1 collapses in on itself. But not all collapsed stars become black holes either, in fact, only a sma…ll percentage do. The majority of them become novas or supernovas. The moon is way too small and inactive (cold "dead" rock2) to expand or contract as a star does so, no it cannot become a black hole by itself (it can be absorbed into one if one ever comes close enough.) 1 composed of hydrogen, helium, oxygen, nitrogen, and and carbon (nothing more complex) 2 composed of light rock - mostly the ores of orthopyroxene, clinopyroxene, and olivine, including ilmenite and ferrite (iron and titanium.)
yes and no depends on size of hole :]
It depends on where the black hole appeared, but irrespective of that bit of minutia, the same things would happen on the Earth as on the Moon if a black hole appeared somewhe…re, that being nothing with regards to a specific person.
There will not be a black hole in the moon today, tomorrow or forever (whenever that happens!)
The bus disappearing into a "black hole" happened in Japanese episode 10 (English dub episode 7), when Jadeite has a youma drive the bus from the top of Sendai Hill into anoth…er dimension to drain the energy of the passengers inside. This is also the episode that marks the first appearance of Rei Hino/Sailor Mars in the series.
The event horizon of any stellar mass black hole would be more than a mile across.
It depends on the mass of the black hole. and what you are fitting the Earths into. Supermassive black holes range from about 1 million to 12 billion times the mass of the… sun (330 billion to 4 quadrillion Earth masses). The mass of any black hole is contained in a singularity that has zero volume. The radius of the event horizon is directly proportional to the mass and so the volume is proportional to the cube of the mass. A 1 million solar mass black hole would have an event horizon about 5.9 million kilometers (3.6 million miles) in diameter or with a volume of 200 quintillion cubic miles. Such a volume would fit about 100 million Earths The black hole at the center of our galaxy is 4 million solar masses, which would fit about 6.4 billion Earths. A 12 billion solar mass black hole would fit about 1.7 quintillion Earth volumes in its event horizon.
yes... it can because a black hole can even suck light in :) lol hope it helped.................................. c it can suck in nearley everything
Yes, everything can be sucked in to a black hole, even light
No - Since all matter in the galaxy revolves about the black hole, there is no individual satellite (or moon) for which the black hole is primary. Note: A natural satellite,… or moon, is a celestial body that orbits a planet or smaller body, which is called its primary.
One might quickly conclude that black holes don't belong on HR diagrams since the latter is designed for stars, and black holes generally aren't considered stars. Further,… given that a spectral type would be necessary to plot any given entity on an HR diagram, a black hole would have to have such typification, which it does not have - given that, due to relativistic effects, it emits no significant light. If it were assigned a spectral type, it would still need to have an agreed-upon absolute magnitude, which some might argue was "infinite" for the same reason - reflecting the observer's inability to detect any (intrinsic) light. It is, however, generally accepted that black holes emit a kind of black-body radiation owing to quantum effects (Hawking radiation) for a temperature that may vary with its surface gravity. Even if a consensus could be built regarding its luminosity and its spectral type, its presence on an HR diagram may not be 'useful,' despite its significance in theories of stellar evolution to which the HR diagram so abundantly contributes.