Tag Archives: Equilibrium

Understanding Consciousness through Entropy and Equilibrium

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Is consciousness a collection of discrete states that we move between?

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What is consciousness? This is perhaps the greatest mystery remaining in the human brain. No wonder it's known as the “hard problem.” We also cannot agree on whether consciousness is one thing or whether it is various states. But a new way to explore that question sheds interesting light on this most elusive of concepts.

We use words like “blacking out” to describe fainting or falling asleep, but researchers believe that consciousness is much more than simply flipping a metaphorical switch from “on” to “off.” I have long understood that it is complicated. However, there is still much debate as to whether it is a single phenomenon with many continuous shades, as imagined as a dimmer switch, or a collection of discrete states, like separate television channels. there is.

Thinking about consciousness from a physicist's perspective may help answer this question. That's because the brain is constantly transitioning between states defined by patterns of electrical signals, and physicists have metrics to study such busy, ever-changing systems. In 2014, robin carhart harris University of California, San Francisco and colleagues hypothesized that entropy may be particularly useful.

Entropy describes how chaotic a system is. One measure of entropy is how many different microscopic configurations (such as the arrangement of water molecules within a glass) exist within a particular macroscopic property (such as the volume of a glass). Researchers proposed that brain states have greater entropy when measured…

Source: www.newscientist.com

A black hole’s colossal outburst disrupts the entire galaxy’s equilibrium.

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We all have bad days, with a monumental striptease here or an expression of anger there, but have you ever thrown a tantrum so bad that it upsets the balance of the entire galaxy?

Well, thanks to you, it turned out like this One particularly badly behaved black hole Observed by XMM-Newton Space Observatory.

If you zoom in on any large galaxy, you’ll find a supermassive black hole that pulls in gas from its surroundings with its immense gravity. As the gas spirals inward, it is squeezed into what is known as an accretion disk, a flat disk of gas orbiting around a massive central object.

Over time, the gas closest to the black hole passes through the point of no return and is essentially chewed up by its immense gravity. However, there’s a twist here. The black hole consumes only a portion of this gas and spits the rest back into space.

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Sometimes, like the naughty black hole discovered by XMM Newton, a black hole doesn’t just spew out a small amount of gas, it spews out its entire meal over hundreds of days. The gas in the accretion disk is thrown off in all directions at such high velocities that it completely wipes out the surrounding interstellar gas.

The effect would be so severe that gas would be blown through space and new stars would no longer be able to form. This completely changes the landscape of the surrounding galaxy where the black hole is found.

Accretion disk surrounding black hole slowly pulls in gas – Credit: European Space Agency

Typically, only black holes with very bright accretion disks spew out gas. These brighter disks typically feature faster “black hole winds” that spew out gas.

“It is extremely rare to observe ultrafast winds, and even rarer to detect winds with enough energy to change the properties of the host galaxy,” the co-authors said. Elias CammonAstronomer at Roma Tre University in Italy.

“The fact that Markarian 817 is [the galaxy in question] These winds occurred for about a year but were not particularly active, suggesting that the black hole may be changing the shape of its host galaxy much more than previously thought. ing. ”

For scientists, this research improves our understanding of how black holes and the galaxies around them interact. Many galaxies appear to have large regions around their centers where few new stars form. This may be explained by the black hole’s wind sweeping away star-forming gas.

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Source: www.sciencefocus.com