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The scientific experiments proposed by Einstein are flawed, such as the mass-energy equation proposed by Einstein, which has been proved by non-mainstream scientists, and the mass-energy equation is indeed flawed and not completely correct.
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The scientific experiments proposed by Einstein are flawed, and many sciences were not developed in the last century, and what Einstein proposed was not perfect.
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I think that the scientific experiments proposed by Albert Einstein are flawless, and if there are flaws, future generations will definitely find them.
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Yes, nothing is perfect, and no matter how good a scientific experiment is, there are flaws, and flaws will only bring the truth closer to perfection.
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No, the theory of relativity he proposed has now been confirmed by experiments and is consistent with his theory.
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Einstein's scientific experiments are flawed, and although Einstein was a great man, he was also a human being, so he would have flaws and make mistakes.
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I think everyone makes mistakes, but scientific experiments have been proven by various scientists thousands of times, and there should be no flaws.
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In my opinion, Einstein's theory of relativity should be revised.
The reason is that the theory of relativity is based on the speed of light as the core and the conclusion is reasoned. Personally, I believe that his limit to the speed of light is not accurate, not 300,000 kilometers per second, but instantaneous. 300,000 kilometers per second, which refers to the speed at which light is advancing forward.
You think, the light can move forward, and it can go backwards. The speed of reversal does not take time, it only takes an instant.
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There is never objectivity and feasibility in using the Western local static method to understand the overall dynamic law of things.
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What is the definition of time, space?
Objects can be bent.
How does time bend? Is today bent to yesterday?
How does space bend? Does A bend to B?
How can you believe in any space-time bending?
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Chen Jiesi theory believes that only the view of time and space is wrong, and everything else is correct.
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Hello dear, refutation of Einstein's ideal experiment: Einstein's equivalence principle (EEP) states that a reference frame (Riemannian regular coordinates) can be selected within the local area of the rock pat family, so that the spatiotemporal gauge is locally equal to the Min's gauge (degraded to the special relativity case). The above are all mathematical terms, and in the vernacular, it means that choosing a frame of reference can only erase the influence of gravity at some points, but cannot eliminate gravity globally.
So the gravitational force and the acceleration are different crude things. In fact, the framework of the broad phase can be established without EEP, and you can think of EEP as something like Bohr's atomic model, which plays a role mainly in the enlightenment of the initial stage of the theory.
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Albert Einstein was born in Ulm, Württemberg, Germany, and graduated from ETH Zurich as a physicist of Jewish descent. He mainly invented:
Relativity. The theory of relativity gives the law of motion of an object in high-speed motion, suggests that mass is equivalent to energy, and gives the mass-energy relation. These two results are not obvious for low-speed moving macroscopic objects, but they show extreme importance in the study of microscopic particles.
Because the speed of microscopic particles is generally relatively fast, some close to or even reaching the speed of light, the physics of particles is inseparable from the theory of relativity. The mass-energy relationship not only creates the necessary conditions for the establishment and development of quantum theory, but also provides a basis for the development and application of nuclear physics.
Conservation of energy. According to Einstein, the mass of matter is a measure of inertia, and energy is a measure of the motion of the Huirang bond; Energy and mass are not isolated from each other, but are interconnected and inseparable. The change of the mass of the object will cause the energy to change accordingly; The change of the energy of the object will also cause a corresponding change in the mass.
From the height of renewal, Einstein clarified the essence of the law of the immortality of matter and the law of conservation of energy, and pointed out the close relationship between the two laws, which made mankind's understanding of nature one step deeper.
Photoelectric effect. In 1905, Einstein proposed the photon hypothesis, and was the first to successfully explain the photoelectric effect, that is, the effect of emitting electrons from metal surfaces under light irradiation, and the emitted electrons are called photoelectrons;
Einstein's discovery opened the door to quantum physics, and Einstein was awarded the Nobel Prize in Physics in 1921 for "his achievements in theoretical physics, especially the discovery of the law of the photoelectric effect."
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Without this, Einstein's research was not technical but theoretical, so it was impossible to do experiments, but it needed to be verified, and most of the theories of relativity were based on astronomical observations. Mathematical calculations must also be tested in the end. Einstein did not make mistakes, but derived the theory of relativity from the data of astronomical observations and known theories, and the calculation results of the theory of relativity were tested by astronomical observations, correcting the errors and consolidating the correctness.
Not all sciences can be measured by experiments, some are research, and some are pilots, such as social sciences.
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Yes, it's not a fantasy, it's well-founded.
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Many things are regular, they are regular, just like our chemical elements, there are many elements, which do not exist in nature, but through our analysis of the atomic structure, we can get some other elements, and finally they are all confirmed, or can be synthesized, so Einstein inferred hypotheses and conjectures through some existing theories.
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Because he has enough basic knowledge, he can put forward a lot of theories about his existing knowledge structure, and then do experiments to confirm these theories.
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It's not that he hasn't experimented, he's experimenting with his own brain, it's just that you don't know.
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Because he has a high IQ and observes a lot of things, normal people need to study, and geniuses are easier than normal people.
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People with high IQ have reached a qualitative breakthrough from quantitative to qualitative level, and they are already one step ahead in their imagination.
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The theory certainly comes from a solid line, but the starting point of the theory is the assertion of genius, like Newton's three laws, Einstein's speed of light does not change. The starting point is here, and without logical argument, it's like a singularity**, what a singularity is meaningless.
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The brain can simulate, a necessary skill for top scientists, and I remember one person who lost this ability after a car accident and said that he couldn't read what he had written.
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Because Einstein has profound skills, he can reduce the micro-element d by making work
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In 1915, Albert Einstein published the electrodynamic theory of moving objects. In layman's terms, he called it a special theory of relativity. In 1916, the general theory of relativity was officially published.
Both theories were written on paper by Albert Einstein. The two basic starting points of special relativity are: the principle of the constant speed of light and the principle of relativity.
These two principles were not unique to Einstein. It can be said that Einstein came up with the special theory of relativity because Einstein stood before his predecessor.
The principle of the constant speed of light, which was already germinating in front of Einstein. When Maxwell came up with the equation of electromagnetism, the speed of light could be solved according to the simultaneous equation. That is, the speed of light c = 1 0 0, 0 and 0 represent vacuum permissibility and vacuum permeability, respectively.
Both of these are constant, so the speed of light must be constant.
Another inspiration came from Michelson Morey's experiments. This experiment, conducted by Morey and Michelson in 1887, amply proves this fact:The speed of light is fixed in any inertial system and in any direction.
There is no absolute static frame of reference for the ether. However, the interesting thing about this experiment is that they were originally used to measure the speed of the Earth's movement in the ether. You read that right.
Like most scientists, they believe that the aether exists and is the result of experiments. Contrary to what they think, it proves that the ether does not exist.
Inspired by these, Einstein boldly adopted the principle of the invariance of the speed of light as the basic principle of special relativity. The theory of relativity was first proposed by Galileo. Later, Einstein extended the theory of relativity, which applies only to classical mechanics, to electromagnetism, and extended the classical Galilean transform to the Lorentz transform, which is the theory of relativity.
It can be seen that the special theory of relativity was proposed by Einstein based on the experience of his predecessors. The general theory of relativity is the sublimation of Einstein's personal thought. He creatively pointed out that gravity is a geometric effect due to mass or energy distorting space-time.
He came up with the gravitational field equation that describes how matter moves. Later, many people studied the gravitational field equation. A number of new terms have been introduced:
Gravitational waves, black holes, wormholes, gravitational lensing effects, and gravitational redshifts.
Einstein wrote down theories describing the universe on paper and came up with various **. Gravitational waves and black holes have been identified. When light passes through a large gravitational field, it will undergo deflection and the redshift of gravity can also be confirmed.
With the passage of time, science and technology have evolved, and humans have been able to verify the theories proposed by Einstein at that time. After verifying these prophecies one by one, he became more and more aware of Einstein's greatness. In addition, Einstein's ** of lasers manufactured in 1916 has not only been confirmed, but has been widely used in various industries.
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I think Einstein was able to come up with such an advanced theory not only because of his high intelligence, but also because solving a problem often requires not only excellent academic methods, but also some philosophical thinking to provide himself with a general direction. In 1801, the Italians discovered an asteroid, but it was soon discovered. Gauss was confused, so he looked for it.
As a result, he calculated the orbit of the asteroid using three formulas.
However, it is important to remember that Tycho had spent most of his life drawing star catalogs, and Kepler had spent most of his life deriving Kepler's three laws. However, we often overlook the fact that although mathematicians can solve very complex problems, they are not necessarily very creative and imaginative.
Albert Einstein once said, "It is more important to ask a question than to solve it." ”Because solving a problem requires powerful computational methods that can be trained, and proposing a problem requires creativity, which is much more difficult than simply solving a problem.
This marks a real advance in science and a real need for talent. Albert Einstein was such an imaginative man. Imagination is more important than knowledge because knowledge is limited and imagination can cover the whole world.
If you only think about the problem from the level where it arises, you will never solve it. When Einstein was thinking about what gravity is and why planets revolve around stars, he relied on rigorous deductive reasoning. The calculations are not very complicated.
If you use today's computer to calculate, it only takes a few minutes. However, a theoretical breakthrough comes from an ideological breakthrough. As a tool, the computer doesn't have any groundbreaking significance for thinking, but it can play a good role in validation.
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This is probably because Einstein was a little smarter than we are.
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Because Einstein was very intelligent, he could accomplish all kinds of things through his imagination.
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Because it's actually very intelligent, it can use a lot of known theories to reason.
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First of all, he has a lot of knowledge and a strong ability to deduce these theories.
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Why could Einstein come up with various theories without experimental validation?
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Einstein experimented with imagination, that is, imagining extreme conditions and making associations and inferences from everyday phenomena. Just like the theory of relativity, the extreme conditions of the speed of light itself cannot be experimentally verified.
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Some of the theories are inferred from the experiments of predecessors, and some are speculated by various formulas and algorithms.
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This is because Einstein read a lot of books, and the theories he synthesized are relatively scientifically based.
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