2006-08-16 04:06:03 · 8 answers · asked by Mani 1 in Science & Mathematics ➔ Astronomy & Space
No the intensity of the pull is so immense that density or no density the acttraction will be the same
2006-08-16 04:11:44 · answer #1 · answered by Practical 3 · 0⤊ 0⤋
I believe the answer is...maybe. The equation E=MC^2 states that as you approach the speed of light, your mass also increases. When you get pulled towards a black hole, you begin increasing in speed. This increase would therefore increase you mass "relative" to other objects. Although it is probably not that significant until you get beyond the event horizon.
Some studies recently released have been trying to understand how and why matter is pulled into a black hole, because oddly the computer models were showing that matter would reach a sort of stable orbit. But it is believed that the magnetic force created by a black hole (and fluctuations in the field) are causing matter to destablize out of these orbits and then are able to fall in.
But during that time frame the matter is accellerated at a pretty darn fast velocity.
2006-08-16 04:16:17 · answer #2 · answered by Doob_age 3 · 0⤊ 0⤋
I do not know the rate of conversion from identifiable matter to black hole matter but there are probably laws governing this action...that is, number of hydrogen atom equivalents converted per second based upon the age density. It seems feasible to me. We do not know much about black holes but from observing the event horizon we should be able to find out.
2006-08-16 04:30:18 · answer #3 · answered by FrogDog 4 · 0⤊ 0⤋
As others have noted, in case you have 2 comparable milk cartons each and each containing 5 pounds, the customary density is rather the comparable. the actual difference often is the rotational inertia of the two cartons. If one is greater probable to tumble that could impact the way it falls: laminar flow is slower than turbulent flow so the only that is greater probable to tumble (or flutter?) greater could fall speedier. as a results of fact the carton with lead has greater of its mass focused around its center of mass, it has much less rotational inertia... the unfilled component to the carton can vibrate interior the air whilst the carton packed sturdy for the time of could desire to no longer. So my wager is that the lead carton could desire to fall fairly speedier, yet that maintains to be in elementary terms a wager... it may desire to count on how the air interacts with the floor of the carton, case in point.
2016-12-17 11:51:10 · answer #4 · answered by cheathem 4 · 0⤊ 0⤋
According to current physics, a black hole is infinitely dense, so it can't get any denser. Black holes do get bigger, so to speak, when you add mass to them. Actually it's the event horizon that gets bigger, we have no idea what actually happens to the matter once it reaches the black hole itself.
The event horizon is not a physical surface, it is just the point of no return - if you cross the event horizon, you will never ever get out again, as not even light can escape from beyond the event horizon.
2006-08-16 04:18:22 · answer #5 · answered by kris 6 · 0⤊ 0⤋
NO.
the corrected theory about black hole says, blackhole doesnt simple take in and absorb whatever found in its influencing area.It vommits it out after a certain period in a different form.
so, if the matter doesnt exist at all in the black hole, how could it effect its density?
2006-08-17 23:29:14 · answer #6 · answered by avik r 2 · 0⤊ 0⤋
Yes. Once they are part of the blackhole.
2006-08-16 04:25:06 · answer #7 · answered by Dr M 5 · 0⤊ 0⤋
yeah i guess so...
2006-08-16 21:00:24 · answer #8 · answered by angel r 2 · 0⤊ 0⤋