Rockin' the Universe: Jeremy England's Entropy and the Nassim Haramein's Connected Realm
Interconnected Phenomena: Gravitational Force, Entropy Increase, and Self-Organization within Systems
Hey there! Let's dive right into the fun stuff—the intertwined concepts of entropy, gravity, and self-organization in the cosmos.
So, we've talked about the history of chaotic systems and chaos theory, and now it's time to explore the links between these and the universe as Nassim Haramein sees it. Ilya Prigogine shook up the physics world by suggesting a physics of dissipative structures, and guess what? Nassim Haramein drops a bomb that stirs the pot even further—since everything's connected in his theory, there's no isolation to escape from!
Entropy, what's that got to do with a universe brimming with interconnectedness? Jeremy England gives us a hint with his simple math formula describing entropy. If you've got a gaggle of atoms surrounded by a "bath" (like the ocean or the atmosphere) and an energy source (let's say, the sun), these atoms can organize themselves to dissipate more and more energy, resulting in more and more entropy. That's right; systems far from equilibrium can keep their entropy low by bumping up their environment's energy.
Entropy and energy dissipation are all about resonance, according to England. Systems conform to their environment to resonate better, and in doing so, they dissipate a ton of energy. In the case of photosynthesis, a plant absorbs sunlight and converts it into sugars, emitting infrared light in the process. This relaxation of energy from sunlight to infrared light boosts the overall entropy of the universe. But while it's alive, the plant'll take measures to prevent itself from decomposing by holding onto its orderly structure.
Turbulent fluid vortices are a stellar example of resonance in action. They gather energy through resonance and then disperse it in droves. In fact, these dynamic systems mimic dissipative structures. And guess what else they're linked with? Black holes. Yep, you heard that right!
If you're unfamiliar with black holes, imagine them as wrinkles in space-time, with their outer edge, known as the event horizon, acting like a membrane. These babies can be described as bubbles of viscous fluid, and their behavior starts to resemble turbulent fluids as they expend energy through gravitational waves. Rate these puppies for their boss energy efficiency!
Now, let's chat about the holographic principle and how it straight-up muddies the waters when it comes to black hole entropy. First off, what happens to a black hole's surroundings when it absorbs matter? It grabs the information of the sucked-in object, and although it doesn't emit radiation, it does have a temperature—not normal, visible light temperature but one that measures the proportion of surface area to volume. Nifty, huh?
Speaking of surface area, the area represented by a black hole's event horizon can't decrease. If you can believe it, Stephen Hawking realized that the surface area of a black hole increases as it absorbs radiation, which results in evaporation over time. This brings us back to the holographic principle—the concept that all the information contained within the volume of a black hole can be expressed in terms of surface properties. Cool, huh?
Now, what about the Nassim Haramein's far-out theory? The man suggests that black holes are connected by fractals across the universe, from the smallest to the largest scales, and this hard-hitting dynamic plays out everywhere! In fact, gravity could even be the work source that Jeremy England speaks of.
Alrighty! This leads us to ponder the possibilities—can entropy and self-organization coexist within a universe dominated by gravity? Stay tuned, baby! We're cooking up some mind-blowing concepts in our next article, where we'll explore exactly that.
Sources & Notes:
- Jeremy England and Resonance: According to England's research, self-organization can play a significant role in efficient energy dissipation.
- Space-time as Information: In the article "Space-time as Information - A Principle of Ordering Living Systems" by William Brown and Nassim Haramein, they propose that information is the driving force behind the ordering of living systems, including those at a cosmological scale.
- Holography and the Holographic Principle: If you'd like a deeper dive into the Holographic Principle, you can read the article "The Holographic Universe: The Underlying Unity". It explains how this principle, although based on speculation, has some grounding in reality.
- Jeremy England's research suggests that self-organization could play a significant role in efficient energy dissipation, similar to the resonance observed in turbulent fluid vortices and black holes.
- The holographic principle, though based on speculation, proposes that all the information contained within the volume of a black hole can be expressed in terms of surface properties, challenging our understanding of black hole entropy.
- In Nassim Haramein's far-reaching theory, black holes are connected by fractals across the universe, from the smallest to the largest scales, including connections to gravity, which could be the energy source in Jeremy England's theory of self-organization and entropy.
