No. No planet is massive enough to become a black hole. A black hole is the remains of a dead, supermassive star.
It's the conflict between (1) the idea that at the quantum level, information can't get lost; and (2) the assumption that information about anything falling into a black hole DOES get lost.
They're Mexican or Hispanic
No living thing ever goes into a black hole survives. One needs food, water and air to suvive which surely is not in that. And also, due to the extremely dense gravity, anybody will die before knowing. You can't get lost, since you won't be alive to get lost.
What is at the centre of a black hole is very speculative. It is theorised that by Stephen Hawking that at the centre of a black hole there is a thing called a singularity. This is a place where the mathematics to do with black holes totally break down and all sense is lost. Hope it helps. Its a very hard subject
They'll be lost for life...! And would never be found!
def not
Light that passes near a black hole but does not cross the event horizon is bent toward it in what is called gravitational lensing. The closer the light passes to the black hole, the more it is bent. For someone with an up-close view, this lensing would result in a highly distorted image of whatever is behind the black hole. Photons that cross the event horizon are lost inside of it forever, and their energy is added to the mass of the black hole.
This is a common cause of confusion. In a way, if no mass got lost in the creation of a black hole, then it will have exactly the same gravity than before. For example, if our Sun converted to a black hole (not that it is planning to do so...), our Earth would continue orbiting this black hole, in the same orbit as before. What makes a black hole different is that the mass is very concentrated; so, it is possible to get much closer to the black hole - and remember that gravity gets stronger at shorter distances.
Return to the Lost Planet was created in 1954.
The Lost Planet was created on 1953-06-04.
After the sun runs out of fuel is will become a white dwarf, a neutron star, or a black hole.
One common term used is black hole evaporation. This relates to a mechanism wherein the black hole's mass is gradually lost through Hawking radiation; but the rate of loss is inversely proportional to the black hole's size and thus accelerates as it shrinks. At the moment it vanishes it is thought to do so with a burst of gamma radiation; the Fermi space telescope is intended to search for such gamma flashes.