what are your ideas of the results from sending a quark into a blackhole?

Question

and apply changes to the particle with quantum teleportation while its "on the other side" or on the "white hole" side
http://en.wikipedia.org/wiki/Quantum_teleportation
http://en.wikipedia.org/wiki/White_hole

well, any mass traveling that fast basically becomes high energy (E=mc squared)

Some..... mass makes it inside.

ok. then we send millions towards it and 1 makes it inside. then what

Answer 1

White holes don't exist; it is an old theory that has been disproved.

According to Wikipedia: http://en.wikipedia.org/wiki/White_hole
"White holes appear as part of the vacuum solution to the Einstein field equations describing a Schwarzschild wormhole. One end of this type of wormhole is a black hole, drawing in matter, and the other is a white hole, emitting matter. While this gives the impression that black holes in this universe may connect to white holes elsewhere, this turns out not to be the case for two reasons. First, Schwarzschild wormholes are unstable, disconnecting as soon as they form. Second, Schwarzschild wormholes are only a solution to the Einstein field equations in vacuum (when no matter interacts with the hole). Real black holes are formed by the collapse of stars. When the infalling stellar matter is added to a diagram of a black hole's history, it removes the part of the diagram corresponding to the white hole."

Since black holes are formed by stars there are no white holes. Black holes are dead ends and thanks to Hawking Radiation they will eventually evaporate. Einstein was creating a thought experiment with an outlet for the black hole, he predicted them, but didn’t know about them. Steven Hawking is the most famous physicist who has worked on black holes, and he has changed our understanding of them. We now know that they are just like a huge bucket of gravity. They suck in all that they can. The bucket has a bottom and sometimes the contents splash outside of the rim. This doesn’t happen very often, but Hawking Radiation has been observed. If you starved a black hole of new matter to suck in then the Hawking Radiation going out of the black hole would reduce its mass and cause it to eventually disappear.

Quantum Teleportation is something different. There is an interesting property that a signal sent through solid matter can appear at the other end at a speed faster than that of light. String Theory says that on the subatomic level the universe is not even there is a quantum foam. This foam is actually formed of small short wormholes. If you send a signal down a short wormhole then it comes out on the other side at the same time as it went in. If you are able to line up these “strings” then you can send a message faster than the speed of light.

The teleportation aspect comes from the fact that a travel time through a wormhole is zero. As soon as you enter one end you are exiting the other; which can be teleportation. Now if you can get a lot of these strings of wormholes lined up then you can send a signal faster than the speed of light. These kind of wormholes are more like the ones that Einstein was thinking of with his thought experiment. The original theory of White Holes said that black holes did this, but we know that is wrong. However, on the subatomic level they do.

It is possible to send a signal, a stream of photons from a laser through these strings thus creating a light signal that moves faster than the speed of light. The problem is getting those quantum strings to line up. If you could band them together and somehow have them all lead to the same spot then you would have a practical faster than light means of travel. We can’t do that though, we can’t wire up the strings together, we can’t even manipulate them, and we can’t predict where they are going to go. The distances involved are short, again on the subatomic level, so we aren’t talking about a fast telegraph system. However, in experiments they have gotten the solid matter and the quantum strings inside of it to line up properly. Then by shooting a laser into that solid block of matter, most of the signal comes out the other side at a speed faster than that of light.

The effect has not been observed outside of the lab, it has not been on a level larger than the subatomic and there is no way that we know to control it. The idea of how this can work could either be a proof of string theory or of quantum entanglement. According to that theory the two particles are related to each other and stimulating one will send that same stimulate to another. If there is enough distance between the two then you get a faster than light message without the need to teleport the object. The original signal is lost, but it is repeated on the other side. Then the problem becomes how to predict the quantum entanglement and how to get a few entangled particles and then ship them to some other place so that we can send signals through those entangled particles faster than the speed of light.

You are working in the high, rarified atmosphere of quantum physics, air that only a few people can breathe (understand). I confess I don’t understand the math, it would take someone like Steven Hawking or Einstein to understand the math, but even people of that caliber are arguing about what is actually going on.

In conclusion:
White holes don’t exist in relation to the normal black holes that we detect in space. White holes do exist on the subatomic level at the quantum foam level, according to string theory. The strings have a tiny black hole at one end and a tiny white hole at the other. If you could line up these strings then you could travel down them in an instant; thus creating faster than light travel. We have sent signals through the method, but is it because of string theory, quantum entanglement theory or something else? Some scientists disagree that it exists, but I have heard an experiment where a string of classical music was transmitted at a speed faster than that of light. The entire string of music wasn’t there, some pieces were missing and there was some distortion, but to me at least it was clear a message was sent. Of course I am talking about sending a faster than light signal a few meters; not really a faster means of communication. But, we all have to start somewhere and we have proved that it is possible to cheat Einstein and exceed the speed of light by not crossing all the space (taking a shortcut). In this case the shortcut could be through a quantum string.

Einstein always said it was possible to avoid the e=mc^2 limit. It would require wormholes or a way to fold space time and travel outside of space time to another point. But, these are thought experiments not actual experiments. It would be like normal space is a huge mountain that you have to go up one side and down the other to get where you are going. If you could leave the road, tunnel through the mountain then you could do the journey much faster. But, in the frame of the universe that we understand the speed of light is a limit and we can’t leave the road. We can’t go through the mountain; we even think that mountain is actually a flat road. We don’t see the drop and fall of it. So trying to go through that mountain is going to take some extra work.

String Theory claims that there are over 20 dimensions, but we only know the normal four; length, width, depth, and time. Travel through the mountain may require going through another dimension. Maybe we can’t see the mountain because we can’t see the other dimensions. The method being used to send signals at a speed faster than that of light could involve the higher dimensions, we don’t know; we are learning though; we are learning.

Answer 2

A quark is the most fundamental aspect of matter,and emerged before any other particles,after the first space-time pulse.
If a black hole could exist any matter that approached the event horizon would have to be disassembled to it's most basic form before it could penetrate the surface.
The one way membrane would have to be less than one-tenth of a mm thick and anything that crossed it would have to travel faster than the speed of light.

Answer 3

When high energy enters a black hole a jet stream of intense radio and gamma radiation is emitted.

Answer 4

Everyone in the world would for some reason get addicted to start trek , and everyone would break out into a fengie orgy

Answer 5

"sending a quark into a black hole"
Does it survive the entry?????????

"and apply changes......while.."
There are temporal anomalies involved in crossing an event horizon as well.

Answer 6

If it's the Aflac Quark ,,,,......be my guest