A hole, by definition, has nothing in it and so its mass is zero.
A black hole, a neutron star, or a white dwarf.
There is no such thing. Do you mean definition? If so, it is the point at which the mass of an object can be considered to be effective/concentrated.
Maksim A. Burakhovich absolute time: since time is relative where on Earth time goes slower than in space since gravitational field slows time down, i guess we could designate absolute time as time at the center of mass of the heaviest object in the Universe that's not a black hole or where the difference in mass between that object and the litest black hole in terms of mass in the Universe is infinitesimal.
Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.Yes. You can increase the period by moving the pendulum to a location where the gravitational force is weaker.Alternatively, you can increase the effective length of the pendulum. The pendulum may be of fixed length, but you can still increase its effective length by adding mass to any point below its centre of gravity.
Absolutely zero. Our Sun does not have enough mass to explode as a supernova and it is those details that are required to make a black hole.
Holes have a slightly larger effective mass. I couldn't tell you what that is exactly, but the mass of an electron is:9.1094 * 10^-31 kg
The object swallowed by the black hole is destroyed; its mass is added to the mass of the black hole.
Most effective place for ozone is equator. And for ozone hole is poles.
The electrons that are missing have a negative effective mass. So the holes have a positive effective mass.
Such energy has a mass equivalent (m = e/c2). Any such mass falling into the balck hole will increase the mass of the black hole.
The mass of a black hole can be measure by the effects of its gravity on surrounding objects.
mass
Yes. Intermediate-mass blackhole is a medium size black hole. Scientists have found stellar black holes and supermassive black holes but there is no prove that Intermediate-mass black type of black holes exist. My opinion is that they do exist because when a black hole is becoming a black hole supermassiveblack hole it will need to go though this stage of intermediate-mass black hole.
Question Incomplete
a black hole
Assuming you mean the event horizon of a black hole (there are other types as well), the diameter of a black hole as measured by its event horizon is directly proportional to its mass. The larger the mass, the larger the diameter. Thus, as a black hole's mass increases, it will get bigger. The only limitation is how much mass a black hole is able to incorporate from its surroundings.
Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.