Our world can not be understood without its content chaotic. We live surrounded by chaos. Reminds us of the complexity of things. It is quite difficult to explain in all its dimensions because, as trees, has thousands of branches.
Chaos is a word derived from Greek, usually refers to the unpredictable, as we all know by chance. The search for an explanation of natural phenomena in ways, which is what is known as chaos theory, a discipline that proposes a new way of studying reality. A chaotic system is in fact, a lawless system. Chaos laws offer an explanation for most phenomena-natural or not, from the origin of the universe to the spread of a fire or changes in society.
This theory is not the result of a single brilliant mind, but could say, is the result of historical evolution of thought and science. The subtle (and not so subtle) changes in vision in mathematics, physics and other sciences, are appearing along with changes in the consciousness of all other areas of life, whether social, political, economic, religious, in art, etc..
As chaos theory suggests, everything is interconnected with everything. This theory tells us about the cause and effect. Any insignificant event in the universe has the potential to trigger a wave of events that alter the entire system. An example we all know is the butterfly effect, which posits that the flapping of a butterfly in one corner of the world can trigger a tornado in another. Whether used in science or social networks, is a good example to illustrate the unpredictability of events.
Chaos faces a set of phenomena unless they have been neglected for a long time but are very interesting because are clear, current and real. Chaos ex plica why snow crystals grow as they do, but can not yet predict how this will come a certain Christian.
In the laboratory the chaotic behavior has been observed in a variety of systems including electrical circuits, lasers, chemical reactions and fluid dynamics. In nature, it has been observed in the dynamics of satellites in the solar system in the evolution of the magnetic field of celestial bodies in the growth of population ecology, etc.
Another example of its utility we find in the field of weather forecasting. The weather man is usually hit on the weather will do tomorrow (well who would say that even that dream ...), but wrong about the time you are going to do in an hour or within a week. In the century following the analysis of chaos, the weather forecast is likely to eventually become an exact science and never will rain on anyone's wedding.
Another well known example of the application of this theory is fractals, which are nothing more that a graphic representation of chaos theory. Instead of creating the figure from the rules, trying to determine the rules from Fig.
biology has been greatly influenced by the revolution of fractals, as in the human body can find many examples of fractal systems, such as vascular network or the neural network. Or in the field of genetics is very important now we find many similarities with fractals, as in both, information from simple, complex structures arise.
These beautiful figures also help us to understand, such as seismology and plate tectonics. In some earthquakes, the wave dispersion respects a fractal shape, which is useful for studying the nature of earthquakes and aftershocks, which occur after an earthquake.
So far, the analysis of chaos has come across a lot of dead ends and insoluble enigmas. The attempts to resolve problems that include many variables, shorter chasms sensitive to variations in the baseline, making it possible to develop the poor are so much a problem that even the most powerful or puter can solve them. But computing power will be multiplied by tens, hundreds or perhaps even a thousand already in the early twenty-first century. These problems will eventually be resolved.
science of chaos explains why the clouds are the ways they have, but still not able to predict the shape tara adopted a cloud over the next five minutes. Chaos describes how to disperse the pellets of a shot, but still can not predict exactly where each pellet will be a particular shock. But it may soon be able to do all those things.
The chaos has made us realize, looking back the history of science, we have often oversimplified the situation to try to understand them. The passion with which scientists have embraced the chaos, and the high hopes have placed in it, are perhaps a sign that science has left behind the world of child safety.
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