What happens when you drop into the black hole? The fact is that you will turn to spaghetti. The first thing is that all particles elongate near the black hole. The elongation is the result of the energy load that the black hole loads on it. But another thing that causes this strange effect is the tunneling. The intensive speed and energy load press the particle to flat. When the particle travels in the transition disk around a black hole its energy level rises to a very high level. So the event horizon is the point where the material is visible for the last time. And another determination for that point is the energy level that cuts interaction between particles inside the event horizon and outside particles.
The second thing is this finally all particles are elongating to the 2D wires. And the survivability of an astronaut depends on the materials along with the quark's ability to return to the ball-shaped objects. The thing that happens when particles travel through a wormhole is that on the other side of that energy channel that elongated material faces the quantum gate. That quantum gate causes the sub-atomic particle will release its extra energy to that quantum field. And that thing can turn that 2D structure that looks like anyon-particle back to the ball-shaped form.
The third thing about elongating near a black hole is that elongating is not similar to elongating because something pulls you by the legs. The elongation near a black hole differs from the elongation of objects in the gravitational field of the Earth in that the black hole elongates all the particles. All particles elongate near the black hole. Because of the massive gravitational field.
Elongating in Earth's gravitational field causes the outer core of the material will be elongated. But that elongation will not affect the subatomic particles.
The black hole will turn all particles into a thing that looks like two-dimensional tape that looks a little bit like anyon-particle. But would we survive? If those elongated particles would not separate from each other that means when they are coming out from the wormhole. There is the possibility. That those particles form will turn back to a ball when that particle hits the quantum field on another side of the wormhole.
The black hole is surrounded by a material disk that shines radiation that energy level is very high. The areas near the black hole are extremely high energy. And that makes it possible that our astronaut vaporizes before that person even sees the event horizon. The radiation that comes just near from event horizon has a very high energy level. That energy level crushes particles. But they can also turn into miniature black holes.
So why do some researchers think that the spacecraft can drive through the wormhole? In those ideas, the black hole affects the spacecraft and transforms it into another black hole before it falls through the event horizon.
That thing that can save a person's life is that black hole that forms around that person. But anyway, hypothetical traveling through a wormhole requires. That the spacecraft must reach extremely high speed. That high speed minimizes the gravitational effect. And of course, the closest known black holes are very far from us.
But is it possible that the black holes are making interstellar traveling possible?
There are many opinions about interstellar travel. The fact is that interstellar travel might be possible. But the fact is that there is no way to make that thing in human life. If we can wait 300 or 1000 years we can send the interstellar spacecraft to another solar system. But that thing means this. We must wait for the first message even centuries. There are two ways to make an interstellar flight.
The first one is automatized probes or unmanned craft. And the last one is the manned system. The problem is that the journey to other solar systems takes so long that the manned system means that people should say goodbye forever to those crews. And even unmanned systems require over a hundred years of travel to other solar systems. So makers of that system will not see the data that the probe sends. And sending those probes requires that researchers can win multiple technical challenges. Even unmanned systems are enormous things. They require large-size global investments and lots of technical advances. But they are easier to make than manned systems where the aging of the crew is one of the biggest problems.
Manned interstellar systems require more advanced technology. And also the changes in the political and cultural environment on Earth. The interstellar flights are still hypothetical or theoretical events. And we are just making our first primitive models of how to make those journeys. But maybe somewhere in the future, that interstellar journey turns into reality. The first steps are always the most difficult. But if we want to conquer the entire galaxy we must dare to make the first interstellar spaceflight. But those things are far away in the future.
The main problem: How to cross the speed of light?
The only known place in the universe where all particles like photons and electrons, along with protons and neutrons are traveling at the same speed is a black hole. The massive gravitation pulls even light into it. And because escaping velocity is higher than the speed of light that causes that all particles behind the event horizon have the same speed. But how to deny elongation of the object? One version is to transform the astronaut and craft into very heavy by pumping energy into them.
So if all atoms in the astronaut's body and craft turn into a black hole that can make it possible for the object can travel through the event horizon without stretching. The fact is that heavy objects that have their powerful gravitational field stay in a form longer than lightweight objects. That's why heavy exoplanets can orbit their central star closer than light planets because their strong gravitational field keeps them in form.
There is the possibility that all material can turn to neutrons or even black holes. But the return of the material to its original form is the problem. Only the energy pump should be enough for that thing.
The problem with crossing the speed of light is that the energy flow should continue to the spacecraft when it reaches the speed of light. That thing can solve by driving craft against the energy flow that transfers energy to it.
When we are thinking that speed is the energy flow from surrounding material to the object we are facing an interesting thing. When energy flow from the environment stops. The acceleration stops. The problem with the speed of light is that no particle can transfer energy to a craft that travels with the speed of light or the speed of photons.
Nothing can cross the speed of light. Because there are no particles that can transfer energy to that object. After all, that particle should travel faster than a photon. The fastest known particles are photons that have no mass at all. And when the object accelerates energy of flowing to the object from faster particles. At the first, the acceleration is fast because the energy flow is strong.
But when the object reaches the cosmic speed limit the only particle that can pump energy to the object is the photon. And when the object reaches the speed of photon energy and flows stops. At that speed also time stops. Because energy flow away from the object ends. And that stops aging.
But crossing the speed of light means that something needs to start the energy flow to the object again. One version of the hypothetical possibility to make sure that the energy flow to the object continues after the craft reaches the speed of light is simply to shoot photons from the front of that craft.
Impacting with those photons causes the energy flow will continue after its speed is almost the speed of photons. Another version is to accelerate the speed of the object. So close to the speed of light as possible. And drive it straight course to the wave motion. That means if the speed of the object is high enough it can transform into a black hole before it impacts the event horizon. And that denies the elongation.
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