What would you see if you walked through a wormhole? What about crossing a black hole? wormholes, bl

If you travel through a wormhole, you will see a past or future universe or other parallel universes. Passing through a black hole, in fact, cannot be said to be a crossing, but entering the black hole horizon, you can only see the mirror image of the future universe, the speed is amazing, maybe a few seconds is the ultimate scene of the universe, of course, it is also the end. There are too many problems with the landlord, so I can only make it simple.

A wormhole is a tiny tube connecting a black and white hole, which Einstein called Schwarzschild throat.

A black hole is a special solution to the general relativity equation, a star greater than 20 times the mass of the Sun collapses into a gravitational object that makes no light escape, and when the star collapses to its Schwarzschild radius, it forms a black hole, but it will continue to shrink into a singularity, accompanied by an event horizon, and the matter after entering the event horizon will have no return.

The white hole is also a special solution to the equation, but it has not been discovered so far. It is likely that the white hole has two forms. One is the black hole itself, that is, the time of the black hole ** is the moment when the white hole is born.

The other is that the current black hole is gravitationally large, which can open the wormhole in the space within the event horizon and then connect with the white hole of the distant or another universe.

Dark matter is a mystery, but it is distributed in the central region of galaxies, and its existence can be indirectly proved by gravity, which like a batter mass causes ordinary matter to accumulate and form galaxies. It accounts for 23% of the matter in the universe and 4% for ordinary matter.

Dark energy is also a mystery, but it will increase with the increase of space, accounting for 73% of the total matter in the universe, and is the absolute dominance of the laws of the universe. However, perhaps its existence has a lot to do with dark matter.

Antimatter is composed of antiparticles, which are annihilated immediately when they meet with the positive matter in our universe, and emit a very large amount of energy, which shows that it will not coexist peacefully with our positive matter. Some scientists also call it our mirror material.

Space-time is stretched from extreme curl to flatness when the universe is large, and the flatness here is relatively flat than before. We often refer to them as the space-time dimension.

Parallel universes produce countless particles due to the size of the universe, and then separate universes are generated, and they never intersect, but they can be so similar that you will be stunned. I understand that it is due to the multiplicity of quanta, etc., and can be thought of as an entangled state or oscillation.

The singularity usually refers to the singularity before the universe and the singularity hidden in the black hole. It's just that there is still an essential difference between these two kinds of singularities, one has no time and space and the temperature is extremely high, and the other has time and space in the periphery and a horizon, and the temperature is extremely low. Although they are all infinitely small in size, infinitely dense in one place, and extremely large in mass.

At least the singularity before the universe is the eldest of the bosses.

I think I saw eggs or something.

Wormholes were discovered by Albert Einstein and his friend Nathan Rosen when they were studying the gravitational asset equations, wormholes are like fast tracks in the universe, as long as we can find wormholes, then we need to travel from one planet to another planet tens of light-years away from the place of departure will be greatly reduced. The concept of wormholes has not been proven, while the concept of black holes has been proven. The difference between a black hole and a wormhole is that a black hole is a dead end.

1. Wormholes. The wormhole is actually a white hole in the black hole, in people's traditional impression, the black hole can absorb all celestial bodies, and after entering the black hole, you don't know where it will go** The black hole can even absorb light, but if there is a white hole in the black hole, then the things that enter the black hole can come out of it, so this whiteness is called a wormhole. The existence of wormholes has not been confirmed.

2. Black holes. A black hole is a celestial body with a strong gravitational pull inside, which makes it impossible for light to escape. In Einstein's general theory of relativity, it is believed that when matter is squeezed into a very small space, a black hole is formed, and black holes are actually not directly observable, but scientists have confirmed their existence, mainly based on the observation of the matter around them.

3. The difference between wormholes and black holes.

A black hole can absorb any object, and the object does not know where it will go after entering the black hole, but the wormhole has two openings, and it can move from one space to another through the wormhole. The time of discovery of dragon cave and black hole is not the same, wormhole is described in the theory of relativity as a high-speed train-like existence in the universe, and black hole is a demonic existence in the universe. At present, scientists have no way of knowing what the inner region of a black hole looks like, and likewise they cannot monitor wormholes.

But if we can create a wormhole by ourselves, it will mean a real revolution in space-time physics, because we can go to other planets through wormholes, and we will not be limited by the distance of hundreds of millions of light-years. <>

A wormhole is a connection channel that connects two different space-times, just like a high-speed train in the universe, which is very fast and can quickly transmit matter to another space.

A wormhole is a spatial hole. Wormholes don't necessarily exist because no evidence has been found. The difference is that the situation that appears is different, the way it appears is different, the quality of the composition is different, and the damage caused to other planets is different.

Wormholes, also known as space-time holes, were proposed by Albert Einstein. He envisioned a wormhole as a tunnel connecting two space-times, through which the purpose of space-time travel could be achieved.

Also known as space-time holes, they are narrow tunnels that may exist in the universe. Exists in cosmic space, is a celestial body, and the gravitational pull of a black hole is very large.

A wormhole is a narrow tunnel in the universe that connects two different space-times. A black hole is a celestial body in the universe with a very large gravitational pull.

A wormhole is a narrow tunnel in the universe that connects two different space-times. A black hole is an ultra-high-density object in space.

Black holes are dense celestial bodies, and they are different.

Wormholes and black holes have nothing to do with each other. Wormholes are a physical term, and scientists have not yet observed evidence of their existence. A black hole is a celestial object with a curvature of space-time that cannot be escaped by light.

1. Wormholes. Theoretically, a wormhole is a spatial tunnel connecting two distant space-times, like a whirlpool in the sea, which is ubiquitous but fleeting. These space-time vortices are caused by a combination of star rotation and gravity.

Just as a whirlpool can bring a local water surface closer to the bottom of the water, two local spaces that are far apart can instantly get closer together.

However, some people hypothesize that a strange substance can keep the wormhole open, and others hypothesize that if there is a strange substance called phantom matter, because it has both positive energy and negative mass, it can create a repulsive effect to prevent the wormhole from closing. To date, scientists have not observed evidence of the existence of wormholes. In order to distinguish it from other types of wormholes, the commonly referred to as "wormholes" should be called "space-time holes".

2. Black holes. A black hole is a celestial body that exists in the universe in modern general relativity. The gravitational pull of a black hole is extremely strong, allowing the escape velocity within the event horizon to be greater than the speed of light.

The cave cannot be directly observed, but its existence and mass can be known indirectly, and its influence on other things can be measured. Information about the existence of a black hole can be obtained by relieving the rounding of the black hole due to frictional rounding caused by the acceleration caused by the gravitational pull of the black hole before the object is sucked in.

The nature of wormholes and black holes

The main one of wormholes is described in the theory of relativity, which is used as a high-speed train in the universe. However, the second important property of wormholes, which is what quantum theory tells us, clearly tells us: wormholes cannot become a high-speed train of the universe.

The existence of wormholes depends on a strange nature and matter, and this strange nature is negative energy. Only negative energy can maintain the existence of wormholes, and keep the decomposition surface between wormholes and the outside world continuously open.

Depending on the frame of reference, negative energy is very easy to achieve. When an object approaches a wormhole at nearly the speed of light, the energy around the wormhole naturally becomes negative. Therefore, it is possible to enter the wormhole at a speed close to the speed of light, and if the speed is too far from the speed of light, then the object cannot enter the wormhole anyway.

This is one of the special properties of wormholes.

According to the physical characteristics of the black hole itself, the mass, angular momentum, and charge division, black holes can be divided into four categories: black holes that do not rotate and do not carry charges: its space-time structure was found by Schwarzschild in 1916 and is called Schwarzschild black holes.

Non-rotating charged black holes: Called r-n black holes. The spatiotemporal structure was developed by Reisner and Naztun in 1916-1918.

Rotating uncharged black holes: Called Kerr black holes. The structure of space-time was found by Kerr in 1963.

Rotating charged black holes: Called Kerr-Newman black holes. The structure of space-time was developed by Newman in 1965.

The above content refers to: Encyclopedia - Wormhole (a physical term).

Encyclopedia - Black holes (celestial bodies with such a large curvature of space-time that no light can escape).