Here is Cyd's youtube presentation of The Gnostic Gospel Illuminated on Aeon Byte Gnostic Radio, with Miguel Conner. The show lasts over an hour and a half and was streamed live on June 28, 2019. This interview presents Cyd's gnostic illustrations with in-depth descriptions, why's, and wherefore's.
The Simple Explanation suggests that a "universal unit of consciousness" carries all of the information that manifests as our particular time/space continuum. This universal unit of consciousness is the primal algorithm of the set of laws that govern our universe. Some people call that God. Other people think it all can be boiled down to math and physics. [open Topical Index immediately below this title for all articles]
Pages
Monday, September 16, 2024
2019 Presentation on Aeon Byte of The Gnostic Gospel Illuminated
Tuesday, August 6, 2024
Update on the marvel of slime molds
Back in February of 2019, I wrote an article praising the brilliance of lowly slime molds. (click this link to read the article)
Now, here is an update from Scientific American that shows these creatures to be beyond brilliant. It turns out that their method of movement makes for a perfect algorithm that replicates and explains the structure of the universe itself. In my Gnostic Gospel podcast I often liken the Pleroma of the Aeons above as a slime mold colony. And I don't mean it as disrespect to the Aeons, but rather the highest compliment one can pay.
As
Below, So AboveFrom: Scientific American
<newsletters@scientificamerican.com> Sent: Tuesday, August 6, 2024 at 01:00:56 PM PDT Subject: Today in Science: Slime mold and the
formation of the universe |
Astrophysicists built an algorithm
based on the movement of slime molds to model how the structure of the
universe affects galaxy formation. Yes, you read that right, slime mold. The
organisms are experts at expanding into new territories, pushing their membranes
outward in a synchronized wave in every direction. When they find a food
source, nearby membranes relax, and the molds push more material into that
region. The scientists hypothesized that this natural behavior might serve as
a good mapping model for the movement of galaxies in the
early universe.
What the experts say: It’s been difficult to measure
how the cosmic web, with its filaments, tendrils and empty voids, affects
galaxy formation, says New York City College of Technology astrophysicist Ari
Maller. “The use of the slime-mold algorithm seems to have accomplished that
goal.” |
Thursday, June 6, 2024
Inside the Torus
Monday, May 20, 2024
Astronomers Discover the Milky Way Torus
I love to say "I told you so"! Yet another in a long line of scientific discoveries verifies the cosmology of A Simple Explanation of Absolutely Everything. Nice going, scientists! Here's a reprint from SciTech Daily, shared with us by a longtime ASEOAE reader. Thank you, Karl!
Thursday, May 16, 2024
Scientists considering a torus shaped universe
Here's a reprint of a Science News article dated May 13, 2024.
The universe may have a complex geometry — like a doughnut
Scientists previously considered only a small subset of possible topologies
- MAY 13, 2024 AT 9:00 AM
The cosmos may have something in common with a doughnut.
In addition to their fried, sugary goodness, doughnuts are known for their shape, or in mathematical terms, their topology. In a universe with an analogous, complex topology, you could travel across the cosmos and end up back where you started. Such a cosmos hasn’t yet been ruled out, physicists report in the April 26 Physical Review Letters.
On a shape with boring, or trivial topology, any closed path you draw can be shrunk down to a point. For example, consider traveling around Earth. If you were to go all the way around the equator, that’s a closed loop, but you could squish that down by shifting your trip up to the North Pole. But the surface of a doughnut has complex, or nontrivial, topology (SN: 10/4/16). A loop that encircles the doughnut’s hole, for example, can’t be shrunk down, because the hole limits how far you can squish it.
The universe is generally believed to have trivial topology. But that’s not known for certain, the researchers argue.
“I find it fascinating … the possibility that the universe might have nontrivial or different types of topologies, and then especially the fact that we think we might be able to measure it,” says cosmologist Dragan Huterer of the University of Michigan in Ann Arbor, who was not involved with the study.
A universe with nontrivial topology might be a bit like Pac-Man. In the classic arcade game, moving all the way to the right edge of the screen puts the character back at the left side. A Pac-Man trek that crosses the screen and returns the character to its starting point likewise can’t be shrunk down.
Scientists have already looked for signs of complex topology in the cosmic microwave background, light from when the universe was just 380,000 years old. Because of the way space loops back on itself in a universe with nontrivial topology, scientists might be able to observe the same feature in more than one place. Researchers have searched for identical circles that appear in that light in two different places on the sky. They’ve also hunted for subtle correlations, or similarities, between different spots, rather than identical matches.
Those searches didn’t turn up any evidence for complex topology. But, theoretical physicist Glenn Starkman and colleagues argue, there’s still a chance that the universe does have something in common with a doughnut. That’s because earlier research considered only a small subset of the possible topologies the universe could have.
That subset includes one type of nontrivial topology called a 3-torus, a cube that loops back on itself like a 3-D version of the Pac-Man screen. In such a topology, exiting any side of that cube brings you back to the opposite side. Searches for that simple 3-torus have come up empty. But scientists haven’t yet searched for some 3-torus variations. For example, the sides of the cube might be twisted relative to one another. In such a universe, exiting the top of the cube would bring you back to the bottom, but rotated by, for example, 180 degrees.
The new study considered a total of 17 possible nontrivial topologies for the cosmos. Most of those topologies, the authors determined, haven’t yet been ruled out. The study evaluated the signatures that would appear in the cosmic microwave background for different types of topologies. Future analyses of that ancient light could reveal hints of these complex topologies, the researchers found.
The search is likely to be computationally challenging, probably requiring machine learning techniques to speed up calculations. The researchers also plan to hunt for signs of nontrivial topology in upcoming data from surveys of the distribution of galaxies in the cosmos, for example from the European Space Agency’s Euclid space telescope (SN: 12/20/23).
There’s good motivation to look for nontrivial topology, says Starkman, of Case Western Reserve University in Cleveland. Some features of the cosmic microwave background hint that the universe isn’t the same in all directions (SN: 12/23/08). That kind of asymmetry could be explained by nontrivial topology. And that asymmetry, Starkman says, is “one of the biggest new mysteries about the universe that hasn’t gone away.”
Wednesday, May 15, 2024
rotating torus gif
Sunday, March 3, 2024
It all starts with a torus!
Hello, friends! This blog's longtime reader in Spain sent me this torus cartoon. Too funny! Thanks, Jesus!
Monday, January 29, 2024
Another longtime Simple Explanation hypothesis upheld...
It's been too long since I posted here, right? The action is all happening over on my two podcasts. This site has almost become legacy.
However, I am happy to report that I read an article this morning out of Scientific American that proves one of the basic tenets of A Simple Explanation of Absolutely Everything. Which one? That consciousness is not based in the brain, and most definitely not confined to humans as a by-product of the brain or otherwise.
Scientists have been studying single-celled creatures like slime molds and simple animals like planaria worms and they have come up with a new branch of cognitive studies called basal cognition. That is the notion that consciousness is a first-cause and not a by-product.
I'm going to quote some passages out of the Scientific American article called Brains are not required:
Until recently, most scientists held that true cognition arrived with the first brains half a billion years ago. Without intricate clusters of neurons, behavior was merely a kind of reflex. But Levin and several other researchers believe otherwise. He doesn't deny that brains are awesome, paragons of computational speed and power. But he sees the differences between cell clumps and brains as ones of degree, not kind. In fact, Levin suspects that cognition probably evolved as cells started to collaborate to carry out the incredibly difficult task of building complex organisms and then got souped-up into brains to allow animals to move and think faster.
That position is being embraced by researchers in a variety of disciplines, including roboticists such as Josh Bongard, a frequent Levin collaborator who runs the Morphology, Evolution, and Cognition Laboratory at the University of Vermont. “Brains were one of the most recent inventions of Mother Nature, the thing that came last,” says Bongard, who hopes to build deeply intelligent machines from the bottom up. “It's clear that the body matters, and then somehow you add neural cognition on top. It's the cherry on the sundae. It's not the sundae.”
In recent years interest in basal cognition has exploded as researchers have recognized example after example of surprisingly sophisticated intelligence at work across life's kingdoms, no brain required. For artificial-intelligence scientists such as Bongard, basal cognition offers an escape from the trap of assuming that future intelligences must mimic the brain-centric human model. For medical specialists, there are tantalizing hints of ways to awaken cells' innate powers of healing and regeneration.
And for the philosophically minded, basal cognition casts the world in a sparkling new light. Maybe thinking builds from a simple start. Maybe it is happening all around us, every day, in forms we haven't recognized because we didn't know what to look for. Maybe minds are everywhere.
Plants can sense their surroundings surprisingly well. They know whether they are being shaded by part of themselves or by something else. They can detect the sound of running water (and will grow toward it) and of bees' wings (and will produce nectar in preparation). They know when they are being eaten by bugs and will produce nasty defense chemicals in response. They even know when their neighbors are under attack: when scientists played a recording of munching caterpillars to a cress plant, that was enough for the plant to send a surge of mustard oil into its leaves.
Plants' most remarkable behavior tends to get underappreciated because we see it every day: they seem to know exactly what form they have and plan their future growth based on the sights, sounds and smells around them, making complicated decisions about where future resources and dangers might be located in ways that can't be boiled down to simple formulas. As Paco Calvo, director of the Minimal Intelligence Laboratory at the University of Murcia in Spain and author of Planta Sapiens, puts it, “Plants have to plan ahead to achieve goals, and to do so, they need to integrate vast pools of data. They need to engage with their surroundings adaptively and proactively, and they need to think about the future. They just couldn't afford to do otherwise.”
The orthodox view of memory is that it is stored as a stable network of synaptic connections among neurons in a brain. “That view is clearly cracking,” Levin says. Some of the demolition work has come from the lab of neuroscientist David Glanzman of the University of California, Los Angeles. Glanzman was able to transfer a memory of an electric shock from one sea slug to another by extracting RNA from the brains of shocked slugs and injecting it into the brains of new slugs. The recipients then “remembered” to recoil from the touch that preceded the shock. If RNA can be a medium of memory storage, any cell might have the ability, not just neurons.
Levin's research has always had tangible applications, such as cancer therapy, limb regeneration and wound healing. But over the past few years he's allowed a philosophical current to enter his papers and talks. “It's been sort of a slow rollout,” he confesses. “I've had these ideas for decades, but it wasn't the right time to talk about it.”
That began to change with a celebrated 2019 paper entitled “The Computational Boundary of a Self,” in which he harnessed the results of his experiments to argue that we are all collective intelligences built out of smaller, highly competent problem-solving agents. As Vermont's Bongard told the New York Times, “What we are is intelligent machines made of intelligent machines made of intelligent machines all the way down.”
Levin hopes this vision will help us overcome our struggle to acknowledge minds that come in packages bearing little resemblance to our own, whether they are made of slime or silicon. For Adelaide's Lyon, recognizing that kinship is the real promise of basal cognition. “We think we are the crown of creation,” she says. “But if we start realizing that we have a whole lot more in common with the blades of grass and the bacteria in our stomachs—that we are related at a really, really deep level—it changes the entire paradigm of what it is to be a human being on this planet.”
Indeed, the very act of living is by default a cognitive state, Lyon says. Every cell needs to be constantly evaluating its surroundings, making decisions about what to let in and what to keep out and planning its next steps. Cognition didn't arrive later in evolution. It's what made life possible.
Okay. That's all I'm going to quote here. You can read the entire article by clicking on the embedded link above.
I think I will further elaborate on this concept in a Gnostic Insights podcast very soon, which will also bring in the spiritual implications. Until then, onward and upward!