the occupied highest band is the heavy band, the band prior below it is ligh band, the distance between two extremal points of those band is split-off band. At those points, hole is situated to be corresponding holes.
it is heavy
I am not aware of light calculating anything in a black hole.
The escape velocity of a black hole is equal or greater than the speed of light, so light cannot escape
If the ozone hole is big, the light will burn us. The light here is UV.
Jupiter is very heavy.
A black hole has gravity so heavy it traps light.
It emits light so is not "black". A "black hole" is a stellar body so massive that nothing can escape its gravity. Light actually consists of a stream of photons, so a sufficiently massive body can prevent light escaping from its surface. The sun, like most stars, is not massive, or heavy, enough to be a "black hole".
non heavy. light.
it is heavy
Compared to Osmium it is light, compared to Hydrogen it is heavy
I am not aware of light calculating anything in a black hole.
light has no mass and therefore no weight. Light cannot be "pulled" into a black hole. The escape velocity from a black hole is greater than the speed of light, so no light can escape from a black hole. Spacetime in the vicinity of a black hole is greatly distorted by the hole's gravity, and light may travel along curved geodesics that intersect the black hole. But it is not pulled in.
Obvisouly it is not a black hole! :)
The escape velocity of a black hole is equal or greater than the speed of light, so light cannot escape
if there is light surrounding a black hole it is normally from material entering into the event horizon of the black hole.
Only around a black hole. There is a sphere around every black hole where light orbits the black hole.
If the ozone hole is big, the light will burn us. The light here is UV.