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Oct 19, 2022
Microbrewery may be where your glass of milk will come from in the near future
Posted by 21st Century Tech Blog in category: futurism
Oct 19, 2022
Russia finds 40% of its Chinese chip imports are defective
Posted by Raphael Ramos in category: computing
As reported by The Register, pro-Putin newspaper Kommersant writes that the percentage of defective imported chips into Russia before the war was just 2%, which isn’t very good considering how many components are found in today’s electronic items. Now, almost eight months after the country invaded Ukraine, it stands at 40%.
Oct 19, 2022
Antidote saved 100% of bees from lethal pesticide
Posted by Raphael Ramos in categories: chemistry, food, particle physics
Immunizing bees against pesticides.
‘We wanted to develop a strategy to detoxify managed pollinators and found we can do it by incorporating it into their food, senior author Minglin Ma, a biomaterials engineer at Cornell University told Chemistry World.
“Managed bee colonies are constantly in need of being replenished due to losses. This relieves the stress for beekeepers to meet the ever-increasing demand for pollination,” James Webb, also a co-author of the study, told Salon by email.
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Oct 19, 2022
The Many-Worlds Theory, Explained
Posted by Dan Breeden in categories: information science, particle physics, quantum physics
Quantum physics is strange. At least, it is strange to us, because the rules of the quantum world, which govern the way the world works at the level of atoms and subatomic particles (the behavior of light and matter, as the renowned physicist Richard Feynman put it), are not the rules that we are familiar with — the rules of what we call “common sense.”
The quantum rules, which were mostly established by the end of the 1920s, seem to be telling us that a cat can be both alive and dead at the same time, while a particle can be in two places at once. But to the great distress of many physicists, let alone ordinary mortals, nobody (then or since) has been able to come up with a common-sense explanation of what is going on. More thoughtful physicists have sought solace in other ways, to be sure, namely coming up with a variety of more or less desperate remedies to “explain” what is going on in the quantum world.
These remedies, the quanta of solace, are called “interpretations.” At the level of the equations, none of these interpretations is better than any other, although the interpreters and their followers will each tell you that their own favored interpretation is the one true faith, and all those who follow other faiths are heretics. On the other hand, none of the interpretations is worse than any of the others, mathematically speaking. Most probably, this means that we are missing something. One day, a glorious new description of the world may be discovered that makes all the same predictions as present-day quantum theory, but also makes sense. Well, at least we can hope.
Oct 18, 2022
Watching Mother Struggle With Chores, 17-YO Builds Robot to Serve Food & More
Posted by Shubham Ghosh Roy in categories: food, robotics/AI
Muhammed Shiyad Chathoth, a class 12 Computer Science student from Kannur has innovated a robot called ‘Pathooty’. Here’s how he did it.
Sounds Interesting? Share it now!
Oct 18, 2022
This Could Be Our First Look At A New Stealthy Chinese Drone
Posted by Raphael Ramos in category: drones
A mystery Chinese drone that appeared in a recent video may be the elusive Star Shadow, so far seen only in model form.
Oct 18, 2022
New tool allows scientists to peer inside neutron stars
Posted by Quinn Sena in categories: information science, physics, space
Imagine taking a star twice the mass of the sun and crushing it to the size of Manhattan. The result would be a neutron star—one of the densest objects found anywhere in the universe, exceeding the density of any material found naturally on Earth by a factor of tens of trillions. Neutron stars are extraordinary astrophysical objects in their own right, but their extreme densities might also allow them to function as laboratories for studying fundamental questions of nuclear physics, under conditions that could never be reproduced on Earth.
Because of these exotic conditions, scientists still do not understand what exactly neutron stars themselves are made from, their so-called “equation of state” (EoS). Determining this is a major goal of modern astrophysics research. A new piece of the puzzle, constraining the range of possibilities, has been discovered by a pair of scholars at IAS: Carolyn Raithel, John N. Bahcall Fellow in the School of Natural Sciences; and Elias Most, Member in the School and John A. Wheeler Fellow at Princeton University. Their work was recently published in The Astrophysical Journal Letters.
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Oct 18, 2022
Mathematician Yitang Zhang Claims to Have Proven Riemann Hypothesis Problem
Posted by Quinn Sena in categories: climatology, futurism
Yitang Zhang, a Chinese-American mathematician, reportedly disclosed in an online salon organized by the Peking University Alumni Association on October 15 that he has proven the longstanding Landau-Siegel zeros theory. This finding is related to the Riemann hypothesis, a formula for the distribution of prime numbers that has remained unsolved for more than a century. However, the claim has not yet been fully verified, and it is reported that a relevant article of more than 100 pages will be sent to a preprint website in early November.
The Landau-Siegel zeros topic has represented one of the most difficult problems in number theory this century. It is a weak form of the Riemann hypothesis, which studies the existence of zeros in the DirichletL-function (a function defined on the whole complex plane). A century of research has shown that the Landau-Siegel zeros can be more difficult to solve than the Riemann hypothesis. Therefore, if Zhang Yitang has really proven that Landau-Siegel zeros exist, the Riemann hypothesis would be wrong. But for now, many people are more inclined to believe that Zhang proved the opposite result.
Regarding the news, a well-known Chinese blogger stated that “if Yitang Zhang proves the existance of Landau-Siegel zeros, then the Riemann conjecture could ‘die.’ Zhang will be the greatest mathematician in the past and future 50 years, no one else.” Others commented, “If Zhang can prove Landau-Siegel zeros, the probability can be equivalent to a person being struck by lightning twice.”
Oct 18, 2022
Shortly Before They Collided, two Black Holes Tangled Spacetime up Into Knots
Posted by Quinn Sena in categories: cosmology, physics
In February 2016, scientists at the Laser Interferometer Gravitational-Wave Observatory (LIGO) announced the first-ever detection of gravitational waves (GWs). Originally predicted by Einstein’s Theory of General Relativity, these waves are ripples in spacetime that occur whenever massive objects (like black holes and neutron stars) merge. Since then, countless GW events have been detected by observatories across the globe – to the point where they have become an almost daily occurrence. This has allowed astronomers to gain insight into some of the most extreme objects in the Universe.
In a recent study, an international team of researchers led by Cardiff University observed a binary black hole system originally detected in 2020 by the Advanced LIGO, Virgo, and Kamioki Gravitational Wave Observatory (KAGRA). In the process, the team noticed a peculiar twisting motion (aka. a precession) in the orbits of the two colliding black holes that was 10 billion times faster than what was noted with other precessing objects. This is the first time a precession has been observed with binary black holes, which confirms yet another phenomenon predicted by General Relativity (GR).
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