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Congratulations to Osinakachi Gabriel for his launch of the first publication the TAFFD’s “Magazine of the Future” — Also thanks for the Bioquark (page 37) and Regenerage (page 72) profiles — https://issuu.com/taffds/docs/taffd_s_magazine_2019 #Futurism #Longevity #Transhumanism #Biotechnology #Health #Wellness #Regeneration #LifeExtension #Aging #Immortality #IraPastor #Bioquark #Regenerage #Ideaxme #Singularity #Consciousness #AI #JasonSilva #ArtificiaIIntelligence #SENS

In this first issue by Trandisciplinary Agora For Future Discussions, we approach reality from a transdisciplinary perspective in order to find unity and greater understanding of the world as we enter a new paradigm in technological advancements that will lead us to transcending our own biology while enhancing our mental and physical limitations. We explore all topics that relate to transhumanism, cybernetic singularity, energy, consciousness, international policy, electromagnetic forces, language, AI, digitalization, ethics, philosophy, biotechnology, futurism and more.

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A Yale University experiment, led by neuroscientist Nenad Sestanwhich reawakened the brains of slaughtered pigs has raised speculation that human trials could be next, renewing ethical concerns over the pursuit of immortality. In the experiments, the pigs did not regain consciousness but Sestan acknowledged that restoring awareness is a possibility and that the technique could work on humans, keeping the brain alive indefinitely.

Nottingham Trent University ethics researcher Benjamin Curtis says ending up as a disembodied brain might just be a “living hell.” Writing in The Conversation he suggested that living without any actual contact with reality could be a fate worse than death. “Some have argued that even with a fully functional body, immortality would be tedious. With absolutely no contact with external reality, it might just be a living hell,” Curtis wrote.

Curtis explained that the brain is highly integrated with the rest of the body in both humans and animals. It is constantly receiving and sending signals from and to it. “We have no idea what experiences would occur within a disembodied brain. But those experiences may well be deeply disturbing,” he said.

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In a surprising study, Oregon State University researchers found that no matter how much stress they placed on mice from either a high-fat diet or strenuous exercise, the animals’ mitochondria were able to adapt and continue their normal processes.

The findings could have major implications for the study of diseases like diabetes, Parkinson’s and Alzheimer’s, all of which are associated with an impairment in the breaking-down and clearance of damaged mitochondria.

Mitochondria are the structures that house cellular respiration, the process used to turn nutrients into energy. Dysfunction in mitochondria may lead to lower energy production, greater inflammation and tissue damage. Yet as central as mitochondria are to living organisms, scientists still don’t know exactly what keeps them healthy—or makes them unhealthy.

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Circa 2004

On the largest scales, matter in the Universe is arranged in a vast network of filamentary structures known as the ‘cosmic web’, its tangled strands spanning hundreds of millions of light years. Dark matter, which emits no light, forms the backbone of this web, which is also suffused with primordial hydrogen gas left over from the Big Bang. Galaxies like our own Milky Way are embedded inside this web, but fill only a tiny fraction of its volume.

Now a team of astronomers led by Khee-Gan Lee, a post-doc at the Max Planck Institute for Astronomy, has managed to create a three-dimensional map of a large region of the far-flung cosmic web nearly 11 billion light years away, when the Universe was just a quarter of its current age. Similar to a medical CT scan, which reconstructs a three-dimensional image of the human body from the X-rays passing through a patient, Lee and his colleagues reconstructed their map from the light of distant background galaxies passing through the cosmic web’s hydrogen gas.

The use of the combined starlight of background galaxies for this purpose had been thought to be impossible with current telescopes – until Lee carried out calculations that suggested otherwise. Lee says: “I was surprised to find that existing large telescopes should already be able to collect sufficient light from these faint galaxies to map the foreground absorption, albeit at a lower resolution than would be feasible with future telescopes. Still, this would provide an unprecedented view of the cosmic web which has never been mapped at such vast distances.”

Continue reading “‘CT Scan’ of Distant Universe Reveals Cosmic Web in 3D” | >

Essentially based on myth the sirius cat people live here. O,.,o.

Sirius, Alpha Canis Majoris (α CMa), is the brightest star in the night sky and one of the nearest star systems to Earth. It has an apparent magnitude of −1.46 and lies at a distance of only 8.6 light years from the Sun. It is also known as the Dog Star, in reference to its position as the luminary of the constellation Canis Major, the Greater Dog.

Sirius appears so bright both because it is intrinsically luminous, with an energy output about 25.4 times that of the Sun, and because of its proximity to the solar system. However, compared to other bright stars like Rigel (120,000 solar luminosities), Betelgeuse (90,000 to 150,000 L) and Canopus (10,700 L), or even Arcturus (170 L) and Capella (78.7 L), Sirius is not exceptionally bright.

The Sirius star system is the fifth nearest star system to Earth and it contains two of the eight nearest stars. Alpha Centauri, the nearest star system to the Sun, lies at only half the distance (4.37 light years).

Continue reading “Sirius (Alpha Canis Majoris) Facts: Star System, Location, Constellation” | >