Chaos researchers created an algorithm that gives hints that there is no going back when systems start to organize
There is a point where the system cannot stop the organization process. And there is the algorithm that can predict that point. Chaotic systems are not dangerous. The organization makes the system dangerous.
Chaos researchers created an algorithm that gives hints that there is no going back when systems start to organize. The thing that makes a particle system dangerous is organization. When the system begins to organize itself, there is a point where there is no going back.
Chaos theorists have created a model that can use for calculating the point there is no beginning in complex systems. Things like avalanches and storms are dangerous things. And the researchers are developing a model that calculates when the system reaches the point where it will start to move in one direction.
When we are looking at the models we must say that chaos is not dangerous. The system must unionize before it turns powerful. Before the avalanche forms, the snow's energy level must rise. Or there must come some other effect that makes snow travel in one direction. So the gravitation must win the side coming wind so that the avalanche can travel in one direction.
The organized system can be chaotic internally. That means the entirety is traveling in the same direction. A good example of the chaotic systems that turn dangerous is light. White light is the chaotic thing where photons and wave motion are jumping in all directions. But when photons turn organized and the light turns coherent it turns dangerous.
When the system organizes its particles will impact to the same point all the time. One of the examples of organized systems is the river. The river is the organized entirety of water molecules. Normally water is harmless. But in rivers, the water molecules get an organized form.
Same way when air molecules are in chaotic form there is no storm. But then something happens and the wind starts to blow. In that case, the effect that causes the one-direction movement of the air molecules must happen in an area that is large enough.
And the energy level of those air molecules must be high enough that the wind starts to blow. That denies that the effect that comes from sideways can turn the flow of the air molecules.
Image Scientific American |
The thing that forms the tropic hurricane is the difference in the temperature or energy levels between clouds and water.
When a tropical hurricane is forming. The situation is that the hot air from the sea is starting to rise into clouds. The upper level of clouds is rising high. And then the airflow that turns into a spiral will create the eye of the storm. The eye of the storm is calm. But the winds are blowing at extremely high speed. The second image shows how the air flows in the hurricane.
The hot air rises. And the cold air falls in the eye of the storm. That cold air forms an air cushion where friction is extremely low below the hot air. That thing causes the conditions where the storm gets more energy from the sun than it uses in friction.
The hurricane's wind speed rises until energy starts to flow away from it. All components are important in the tropic storm.
The thing is that difference in energy levels is the thing that gives the power to the storms and avalanches. But there is the point where the system starts to turn organized and that thing cannot stop.
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