How far you have to move to remain in orbit around a black hole, or to escape it, depends on the distance from the black hole, as well as the black hole's mass.
To get pulled into a black hole, you must be within the black hole's event horizon, the point of no return. Otherwise, you will still be able to escape the black hole's gravity, if you traveled fast enough. Once you cross the event horizon, though, you will not be able to escape, no matter how fast you travel.
In the case of a black hole, the gravitational pull of the black hole is greater than the speed of light. Which means that the light is not fast enough to escape the gravitational pull of the black hole.
In order to escape the gravity of a black hole, an object would have to travel faster than the speed of light - something that is impossible.
To break the pull of gravity and escape the earth's pull (escape velocity) you have to travel 7 miles per second or 25,000 mph.
1,242.7 miles per hour.
To break the pull of gravity and escape the earth's pull (escape velocity) you have to travel 7 miles per second or 25,000 mph.
To break the pull of gravity and escape the earth's pull (escape velocity) you have to travel 7 miles per second or 25,000 mph.
over 24,000 miles per hour, on the final burn, which is 7 miles per second, which speed is needed to escape earths gravitational pull.
if there is a small gap the very smal ants can escape but ants like lasius Niger (average garden ant,black and fast)cant get through small gaps
you have to be more specific you haven't even said how fast your travelling but the minimum speed you need to be travelling at to escape the atmosphere is 24,000 miles per hour
It can never escape it entirely. It can, however, travel fast enough that the increasing distance outweighs the effect of the decreasing gravity. On earth, this velocity is about seven miles per second.
2000 meters in 7 minutes and 35 seconds equates to a pace of 9.83 miles per hour.