What are Einstein s prophecies? Is it all realized?

Albert Einstein was a great scientist who came up with many inscrutable theories, such as the theory of relativity, the photon hypothesis, the photoelectric effect, and many more. He also made a lot of achievements in the field of nuclear science, of course, the most famous is the theory of relativity. Until now, it has become a classic theoretical doctrine.

Many people think that Einstein had the highest level of brain development, which is why he was able to come up with these great theories.

With the continuous development of science and technology, many of Einstein's hypotheses have been confirmed. In 2016, scientists verified the gravitational waves proposed by Albert Einstein. At that time, after Einstein proposed gravitational waves, he was unable to verify the existence of gravitational waves due to technical limitations, and Einstein died after that, so gravitational waves became an unsolved mystery.

However, when there was a new breakthrough in science and technology, scientists tried to test Einstein's hypothesis, and sure enough, with the efforts of many parties, gravitational waves were finally discovered. In addition, Einstein also proposed another hypothesis to the public, which is time travel.

In many science fiction movies and science fiction**, there is time and space travel, and they will use wormholes to shuttle. Albert Einstein believed that a wormhole is a medium based on two space-times, and we can complete space-time travel as long as we find the wormhole. Traveling from one plane to another is able to break the limits of distance and travel to distant planets.

Scientists have found many habitable planets in the universe, but they are all too far away, hundreds of light-years away, if we can really find the wormhole predicted by Einstein, then we can reach hundreds of light-years away in a short time.

But unfortunately, until now, scientists have not found the so-called wormhole, perhaps the wormhole is illusory. However, scientists still want to try to find it, after all, time travel is very helpful for humans to get out of the earth. We can also travel to the past and see our loved ones who have never seen before, or go to the future and see the future world.

Can the predictions of Einstein, the great man of physics, come true?

Hello, dear, I have helped you find the results: Einstein's three predictions are: 1

The speed of light is the highest speed in the universe: Albert Einstein proposed the famous "law of the speed of light", that is, the speed of light in a vacuum is constant, the highest speed in the universe, and is not affected by the mass and energy of the object. 2.

Gravitational waves: Einstein predicted the existence of gravitational waves, i.e., gravitational waves are waves produced by the motion of an object, which can travel through the universe and can be detected.

Hello! We will be happy to answer your questions. The three predictions of Einstein are the theory of relativity, the photoelectric effect, and the Bose-Einstein condensation.

1.Relativity: Einstein's theory of relativity treats space-time as a whole, presenting the relativity of time and space.

This theory proposes the famous mass-energy formula e=mc, which reveals the close relationship between mass and energy, and has become a cornerstone of modern physics. Only rotten 2Photoelectric Effect:

Under the action of electromagnetic waves, some substances will release electrons spontaneously. The photoelectric effect is another important physical phenomenon discovered by Einstein, in terms of explaining the photoelectric effect, Einstein proposed that light energy is released from the shell of particles in units of "photons", and proved that the rate of electron production is proportional to the intensity of light. 3.

Bose-Einstein condensation: is the result of Einstein's continued research on gravity. This theory is related to the quantum statistics of bosons, revealing a large number of wonderful quantum coherence phenomena between finger seepage bosons, which has an important impact on cold atom physics.

Einstein's prophecy is as follows:

The first scientific prediction: the gravitational drag effect.

The gravitational drag effect is a famous theory proposed by Albert Einstein in the general theory of relativity, which mainly reveals the phenomenon of space-time distortion. The scientific definition of gravitational drag effect is as follows: when a massive celestial body is rotating, the resulting rotation speed and angular momentum will cause a certain distortion to the surrounding space, that is, space-time distortion.

The second scientific prediction: gravitational deflection of light.

In people's traditional impression, light travels in a straight line and will not be affected by any factors, but in Einstein's general theory of relativity, the gravitational deflection theory of light is proposed, to the effect that light is not affected by any factors, if the light passes through a massive celestial body, due to the space-time distortion around the celestial body, the light will emit refraction, just like the reflector we usually use.

Third Scientific Prediction: Gravitational Redshift Theory.

Einstein proposed in the theory of relativity that the gravitational field is extremely strong, because it is in the strong gravitational field, the vibration period of light is longer than that of the light on the earth, resulting in the spectral line to the red light band offset, this is the famous gravitational redshift theory, the 20th century 60s this theory was confirmed, in 2010 scientists through experiments to confirm the scientific nature of the gravitational redshift theory, and now the gravitational redshift theory is used to explain the expansion of the universe.

Fourth Scientific Prophecy: The Precession Problem of Mercury's Perihelion.

Prior to this, Mercury's perihelion orbit around the Sun has been producing unexplained "orbit changes", that is, Mercury's aphelion and perihelion are disproportionate, with perihelion only 46 million kilometers and aphelion as high as 70 million kilometers, which is the so-called Mercury perihelion precession.

Fifth Scientific Prediction: The Time Dilation Effect.

Einstein also proposed a theory of the time dilation effect in the theory of relativity, also known as the time dilation theory, according to which Einstein predicted that gravity is inversely proportional to time and the scale of objects, that is, the greater the gravitational force, the slower time passes, and the smaller the scale of the object. In the early 70s, scientists confirmed the effect of time dilation with two aircraft flying around the Earth for testing.

1. The speed of light is constant

The speed of light is constant, Einstein is the famous mass-energy equation e=mc2, where c represents the speed of light in a vacuum, although there are many different ways of presenting light, such as sunlight, light, red light, blue light, etc., as long as it is light, it must obey the speed limit of 300,000 kilometers per second, so even if the energy of these two photons is very different, they will also travel at the same speed, just like Newton was hit by an apple, objects of different masses fall at the same speed in a vacuum.

In 2009, the Fermi Gamma-ray Space Telescope detected two photons, one of which is a million times more energetic than the other, almost at the same time, both from the same region, created by the collision of two neutron stars about seven billion years ago.

2. Strong gravitational lens

Strong gravitational lensing, just like the sun bends the light of a star far away from it, galaxies in the universe can bend light from objects farther away. In some cases, this phenomenon is beneficial for us to observe more distant galaxies, such as the Hubble telescope's 13.7 billion years ago**, which magnified the early galaxies of the universe through a clear lens.

Otherwise, it would be difficult for us to observe such distant and ancient galaxies, and in short, a massive object that is closer to us can act as a lens, like a telescope magnifying distant objects. The difference is that when a distant object is precisely aligned with another celestial body, we see the light bending into an Einstein ring or arc, like a smiling face in space captured by the Hubble telescope, surrounded by a magnified galaxy farther away from us.

3. Strong gravitational lens

Weak gravitational lensing, compared to strong gravitational lensing, does not see objects that are particularly aligned with our line of sight, so it will cause distortion and make the object appear larger and more stretched. Although weak gravitational lensing makes it somewhat difficult to restore distant galaxies, it is of great help in studying dark matter and dark energy in the universe. Scientists can better understand what we can't see in the universe by studying galaxy distortions in weak gravitational lensing.

4. Microgravitational lensing

The first two gravitational lenses are talking about galactic lenses, and microgravitational lenses are very easy to understand, simply put, they use small celestial bodies as lenses, when the star has the effect of a hidden pathway, it will magnify the brightness of the light of the star behind it, and when there are planets around the star in front of it, the telescope can find the planets around the star through the change of light. Therefore, microgravitational lensing is generally used in the field of observation for the discovery of exoplanets. Gravitational lensing, on the other hand, was proposed by Albert Einstein more than a hundred years ago.

5. Black holes

The discovery of black holes in 2019 once again confirmed the theory of relativity, and several Nobel Prizes in physics were awarded to the team that studied black holes and observed black holes, which once again illustrated the particularity of black holes, black holes represent the most extreme case of space-time structure, and the huge gravitational distortion of space-time time and space is not easy to make here in black holes. But it took 100 years for black holes to be observed and Einstein measured the formation of black holes.