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Archive for the ‘cosmology’ category: Page 182

Sep 13, 2022

Voxengo plugin developer says he’s broken into “some ‘backdoor’ in mathematics itself” that proves that the universe has a ‘creator’

Posted by in categories: cosmology, mathematics, physics

Vaneev posits that: “‘intelligent impulses’ or even ‘human mind’ itself (because a musician can understand these impulses) existed long before the ‘Big Bang’ happened. This discovery is probably both the greatest discovery in the history of mankind, and the worst discovery (for many) as it poses very unnerving questions that touch religious grounds.”

The Voxengo developer sums up his findings as follows: “These results of 1-bit PRVHASH say the following: if abstract mathematics contains not just a system of rules for manipulating numbers, but also a freely-defined fixed information that is also ‘readable’ by a person, then mathematics does not just ‘exist’, but ‘it was formed’, because mathematics does not evolve (beside human discovery of new rules and patterns). And since physics cannot be formulated without such mathematics, and physical processes clearly obey these mathematical rules, it means that a Creator/Higher Intelligence/God exists in relation to the Universe. For the author personally, everything is proven here.”

Vaneev says that he wanted to “share my astonishment and satisfaction with the results of this work that took much more of my time than I had wished for,” but that you don’t need to concern yourself too much with his findings if you don’t want to.”

Sep 13, 2022

Are black holes wormholes?

Posted by in category: cosmology

Science_Hightech — operanewsapp.

Sep 12, 2022

Astronomers discover new brown dwarf with quasi-spherical mass loss

Posted by in category: cosmology

Astronomers report the detection of a new brown dwarf as part of the Ophiuchus Disk Survey Employing ALMA (ODISEA) program. The newfound object, designated SSTc2d J163134.1–24006, appears to be experiencing a quasi-spherical mass loss. The discovery was detailed in a paper published September 2 on the arXiv pre-print repository.

Brown dwarfs are intermediate objects between planets and stars, occupying the mass range between 13 and 80 Jupiter masses (0.012 and 0.076 ). They can burn deuterium but are unable to burn regular hydrogen, which requires a minimum mass of at least 80 Jupiter masses and a core temperature of about 3 million K.

A team of led by Dary Ruiz-Rodriguez of the National Radio Astronomy Observatory (NRAO) in Charlottesville, Virginia, have investigated SSTc2d J163134.1–24006, initially identified as a faint stellar object, under the ODISEA project, which is dedicated to study the entire population of protoplanetary disks in the Ophiuchus Molecular Cloud. They found that SSTc2d J163134.1–24006 is most likely a brown dwarf with a mass of about 0.05 solar masses, and an elliptical shell of carbon monoxide (CO).

Sep 12, 2022

Why are dark matter halos of ultra-diffuse galaxies so odd?

Posted by in categories: cosmology, physics

A study co-led by physicists at UC Riverside and UC Irvine has found that dark matter halos of ultra-diffuse galaxies are very odd, raising questions about physicists’ understanding of galaxy formation and the structure of the universe.

Ultra-diffuse galaxies are so called because of their extremely low luminosity. The distribution of baryons—gas and stars—is much more spread out in ultra-diffuse galaxies compared to “normal” galaxies with similar masses.

In the following Q&A, Hai-Bo Yu, an associate professor of physics and astronomy at UCRhis thoughts on the findings he and UCI’s Manoj Kaplinghat, his long-term collaborator, have published in The Astrophysical Journal about newly discovered ultra-diffuse galaxies and their halos.

Sep 12, 2022

Very Large Telescope spots galaxies trapped in the web of a supermassive black hole

Posted by in categories: cosmology, internet, physics

With the help of ESO’s Very Large Telescope (VLT), astronomers have found six galaxies lying around a supermassive black hole when the Universe was less than a billion years old. This is the first time such a close grouping has been seen so soon after the Big Bang and the finding helps us better understand how supermassive black holes, one of which exists at the centre of our Milky Way, formed and grew to their enormous sizes so quickly. It supports the theory that black holes can grow rapidly within large, web-like structures which contain plenty of gas to fuel them.

“This research was mainly driven by the desire to understand some of the most challenging in the early Universe. These are extreme systems and to date we have had no good explanation for their existence,” said Marco Mignoli, an astronomer at the National Institute for Astrophysics (INAF) in Bologna, Italy, and lead author of the new research published today in Astronomy & Astrophysics.

The new observations with ESO’s VLT revealed several galaxies surrounding a supermassive black hole, all lying in a cosmic “spider’s web” of gas extending to over 300 times the size of the Milky Way. “The cosmic web filaments are like spider’s web threads,” explains Mignoli. “The galaxies stand and grow where the filaments cross, and streams of gas—available to fuel both the galaxies and the central supermassive black hole—can flow along the filaments.”

Sep 12, 2022

Wormholes Could Be Hiding Within Dark Matter

Posted by in category: cosmology

If we combine the map of the dark matter in the Milky Way with the most recent Big Bang model to explain the universe and we…

Sep 12, 2022

Brown dwarf: A star-planet hybrid was accidentally discovered thanks to a gas shift

Posted by in category: cosmology

It appears to be experiencing a quasi-spherical mass loss.

Brown dwarfs, which are neither stars nor planets, were first introduced to us 27 years ago. Now it is time to meet a new one because astronomers have discovered a brown dwarf under the Ophiuchus Disk Survey employing ALMA (ODISEA) project.

ODISEA project, which is intended to study the entire population of protoplanetary disks in the Ophiuchus Molecular Cloud, a group of astronomers led by Dary Ruiz-Rodriguez of the National Radio Astronomy Observatory (NRAO) have investigated “SSTc2d J163134.1–24006,” which was initially identified as a faint stellar object.

Continue reading “Brown dwarf: A star-planet hybrid was accidentally discovered thanks to a gas shift” »

Sep 10, 2022

New AI program uses a decade of citizen science to find 40,000 rare ring galaxies

Posted by in categories: cosmology, cyborgs, robotics/AI, science

A Royal Astronomical Society press release revealed that during the National Astronomy Meeting (NAM) 2022, currently being hosted at the University of Warwick, scientists will announce the discovery of 40,000 ring galaxies discovered using a “cyborg” approach — a combination of human and machine intelligence.

The work will be presented by Dr. Mike Walmsley of the University of Manchester and the Galaxy Zoo collaboration — a decade-long citizen science project on the Zooniverse platform.

Volunteers for the Galaxy Zoo project look through pictures of galaxies and classify them by shape and features. Studying the morphology of galaxies is an important step in understanding how they interact with their surroundings. In the words of Galaxy Zoo’s “About” section:

Sep 10, 2022

A sneaky interloper behind our galaxy’s center complicates the search for dark matter

Posted by in category: cosmology

Well, not so fast.

Crocker’s paper, published Monday in the journal Nature Astronomy, argues that this “substructure” doesn’t belong to the Fermi bubble at all but instead a satellite galaxy behind the bubble (from our galactic perspective) called the Dwarf Sagittarius Spheroidal Galaxy, or Sagittarius dSph.

Sep 10, 2022

BREAKING: Cambridge Physicists Find Wormhole Proof

Posted by in categories: cosmology, physics, time travel

University of Cambridge physicists have developed a theoretical foundation for the existence of wormholes, which are pipelines that connect two dissimilar places in space-time. Time travel and instant communication across great distances may become possible if a piece of data or a physical object could pass through the wormhole.

“But there’s a problem: Einstein’s wormholes are extremely unsteady, and they don’t stay open long enough for something to pass over.”

In 1988, physicists reached the deduction that a type of negative energy called Casimir energy might keep wormholes open.