Physics experts come to chaos theory, what is chaos mechanics

The first is that the future is uncertain. If you know for sure one day, you've bumped into it.

Second, the development of things is achieved through a self-similar order. When you see a cloud, you know that he is a cloud, and when you see a mountain, you know that it is a mountain. It's self-alikeness. These are the two basic concepts of chaos theory.

Chaos theory also has a development personality, he has three principles, one is that the development of things always moves in the direction of his least resistance. The second principle is that when things change direction, there is some structure to them.

With such a little bit of something

It's that when you burn the ravioli, the wontons are in different positions at different times, and there are a lot of physical phenomena in that.

Encyclopedia is available.

Explanation of the noun chaos theory.

1.Chaos dynamics is an important branch of complexity science, and understanding chaos dynamics is first to understand the emergence of chaos.

2.Chaos refers to seemingly random irregular movements that occur in a deterministic system. A system described by a deterministic theory behaves as uncertain, unrepeatable, and unrepeatable, which is the phenomenon of chaos.

Chaos is an inherent characteristic of nonlinear systems, and it is a common phenomenon of nonlinear systems, and Newton's deterministic theory can deal with most linear systems, and most linear systems are simplified from nonlinear systems.

3.The dynamical properties of chaotic motion have proven to be very useful in describing and quantifying a large number of complex phenomena, including the dynamics of electronic circuits. However, due to the sensitivity of the system output inherent in the chaotic system to the initial value of the state and the complexity and singularity of the chaotic system and the chaotic phenomenon, the research of the chaotic control theory is more challenging.

Chaos theory is one of the three greatest discoveries of the 20th century, along with relativity and quantum mechanics, and it has completely subverted Newton's classical kinematics that everything moves in regular motion. To put it simply, a seemingly irregular performance of a thing now is actually caused by unpredictable consequences for the future after continuous accumulation and amplification, there is a famous saying in the West: "Lose a nail, break a shoe, break a shoe, break a war horse, break a war horse, and hurt a knight; Lost a battle; Death of an Empire", most people think that this is just a truth, but in fact, its essence is the explanation of chaos theory!!

Another example of the nuclear front theory of chaos is the "butterfly effect". You can take a look at the related books for a deeper understanding. There is also a recent movie called "Chaos War", which also mentions related theories.

Hope my answer is useful to you, thanks!

This is actually very easy to do Mainly a problem of t Just don't stare at it First of all, it is recommended to clean up the group of monsters that can be skipped in front of the boss. In boss fights, since the lightning range of the small ball of light is only 15 yards under normal circumstances, the tank can drag the boss and kite him backwards, note that the boss can be dragged away from his platform. When the boss casts the rift charge, because the lightning range of all the small light balls becomes infinite distance, at this time, ** pay attention to the group blood to survive the 40 seconds, and DPS pay attention to killing the small light balls released by the mobs.

Lightning will only hit the 3 people closest to it, so if someone can't hold it, you can step back and replace it with another person, ** it's better not to stand in front. (The concept of the rock mountain is the front and back, which can refer to the boiling blood cast by the blood boiling in the Black Temple). There's a lot of pressure in this battle, and if the support dps has the ability, it's best to help.

The Mage's magic suppression will work wonders during this battle.

Chaos theory, a scientific revolution that has only emerged in the past 30 years, is listed as the greatest discovery and scientific work of the 20th century, along with the theory of relativity and quantum mechanics. Quantitative mechanics questions the physical causal laws of the microscopic world, while chaos theory then rejects the deterministic causal laws that include the Laplace type of the macrocosm.

In the early 60s of the 20th century, when the American meteorologist Lorenz studied the problem of atmospheric flow in weather forecasting, he revealed the two basic characteristics of the chaotic remnant burial phenomenon is unpredictable and extremely sensitive to the initial conditions, and at the same time, he also found that the chaos that seems chaotic on the surface still has a certain order. Its extreme sensitivity dependence on initial conditions manifests itself in the butterfly effect: a butterfly in Beijing today spreads its wings and causes a vertical disturbance in the air, which could lead to a major storm in New York next month.

The discovery of chaos reveals a fundamental misconception of the relationship between laws and the resulting behaviors, that is, between cause and effect. We used to think that deterministic causes must produce regular results, but now we know that they can produce highly irregular results that can be easily misconstrued as randomness. We used to think that simple causes must produce simple effects (which means that complex causes must have complex causes), but now we know that simple causes can produce complex effects.

We recognize that knowing these laws is not the same as predicting future behavior.

This idea has been turned into a very useful practical technique by a group of mathematicians and physicists, including William Ditto, Alan Garfinkel, and Jim Yorke, who call it chaotic control. Essentially, the idea is to make the butterfly effect work for you. A small change in the initial condition produces a large change in subsequent behavior, which can be a plus; All you have to do is make sure to get the big changes you want.

An understanding of how chaotic dynamics works makes it possible to design control schemes that fully meet this requirement. This approach has had some success. One of the earliest achievements of chaos control was to make a "dead" satellite change its orbit and collide with an asteroid with only a very small amount of hydrazine left on the moon.

The US National Aeronautics and Space Administration (NASA) maneuvered the satellite five times around the moon, nudging the satellite with a small amount of hydrazine in each circle, and finally colliding.