A recently published paper has revealed a first-of-its-kind discovery that offers a fascinating insight into the evolution of complex natural systems. Scientists talk about this discovery as follows: “a law missing in nature“.

It was written by a group of renowned scientists from the Carnegie Institution for Science, California Institute of Technology (Caltech), Cornell University, and philosophers from the University of Colorado. New law challenges our understanding of the evolution and complexity of the universe.

The newly discovered law states that complex natural systems, which include everything from planets and stars to atoms, minerals and more, tend to evolve towards states of greater standardization, diversity and complexity.

New Law of Nature

Called the “Law of Functional Knowledge Augmentation,” it suggests that systems will improve when multiple configurations are chosen for one or more functions. It emphasizes three basic functions that drive evolution:

  • stability: Stable arrangements of atoms or molecules are selected to persist so as to provide a solid foundation for future evolution;
  • dynamic systems: Systems with constant energy supply also continue to evolve, adding to the complexity of the natural world;
  • News: Perhaps the most fascinating aspect of the law is that evolving systems tend to explore new configurations, often resulting in surprising new behaviors or properties.

Evolution is not something specific to Earth.  It also occurs in other complex systems such as our solar system, stars, atoms, and minerals.

Robert M. Hazen from Carnegie Science emphasized that the theory of natural selection is not limited to biology but is a universal phenomenon. Applies to: stars, atoms, minerals and other complex systemsSituations where different configurations are subject to selective pressures.

The Earth itself is a clear example of the inexorable pace of evolution. Over 4.5 billion years, many different minerals have been transformed through many physical, chemical and biological processes.

Stars exemplify this phenomenon in the universe. The first stars were composed of hydrogen and helium, which gave rise to 20 heavier chemical elements. The transformation of stars into more than a hundred different things shows how celestial bodies evolve.

This groundbreaking research opens new horizons in our understanding of evolution. It provides information about the various degrees of evolution that systems can achieve, how they can be artificially influenced, and the productive forces that shape complex phenomena in the universe. Moreover, it raises intriguing questions about information processing that differs from life.

Is there anything you want to ask? Tell us on our social networks and get the opportunity to share the article with your friends who like these topics! Also learn how a fossil monkey living in Europe could change evolutionary history.

Source: Tec Mundo

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I'm Blaine Morgan, an experienced journalist and writer with over 8 years of experience in the tech industry. My expertise lies in writing about technology news and trends, covering everything from cutting-edge gadgets to emerging software developments. I've written for several leading publications including Gadget Onus where I am an author.

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