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Jun 20, 2021

Space agencies are learning how to make food on Mars and the moon

Posted by in categories: Elon Musk, food, robotics/AI, space, sustainability

As Elon Musk and Jeff Bezos rocket companies lead a new space race, NASA is working on AI and robotics to farm space plants and feed interplanetary humans.

Jun 20, 2021

Creating Tiny AI/ML-Equipped Systems to Run at the Extreme Edge

Posted by in categories: cosmology, robotics/AI, space travel

One of my favorite science fiction authors is/was Isaac Asimov (should we use the past tense since he is no longer with us, or the present tense because we still enjoy his writings?). In many ways Asimov was a futurist, but — like all who attempt to foretell what is to come — he occasionally managed to miss the mark.

Take his classic Foundation Trilogy, for example (before he added the two prequels and two sequels). On the one hand we have a Galactic Empire that spans the Milky Way with millions of inhabited worlds and quadrillions of people. Also, we have mighty space vessels equipped with hyperdrives that can convey people from one side of the galaxy to the other while they are still young enough to enjoy the experience.

Continue reading “Creating Tiny AI/ML-Equipped Systems to Run at the Extreme Edge” »

Jun 20, 2021

Astronomers Find a Blinking Star Near the Center of the Milky Way

Posted by in category: space

In this week’s edition of new unexplained astronomical phenomena, a team of astronomers led by Dr. Leigh Smith from Cambridge found a star 100 times larger than our sun that nearly disappears from the sky every few decades. They also have no idea why it does so.

The star, called VVV-WIT-08, is located 25000 light years away, and decreases in brightness by a factor of 30 rather than disappearing altogether. It’s not the first star to be discovered with this changing brightness pattern, but evidence is beginning to mount that this might just be another example of a new class of stars.

VVV-WIT-08’s name itself is calling out for an explanation. The “WIT” in the middle actually stands for “what is this”, which is what astronomers call stars that are difficult to classify into any particular established category.

Jun 20, 2021

Urban foxes self-evolve, exhibiting Darwins domestication syndrome

Posted by in categories: evolution, food

A new study finds surprising evidence of the self-evolution of urban foxes.

Jun 20, 2021

A new book uses stories from tsunami survivors to decode deadly waves

Posted by in category: futurism

In ‘Tsunami: The World’s Greatest Waves,’ two scientists chronical hundreds of eyewitness accounts to show the human cost of life at the water’s edge.

Jun 20, 2021

Why the moons of rogue planets could surprise us with alien life

Posted by in category: alien life

The search for life on exoplanets takes a fairly conservative approach. It focuses on life that is similar to that of Earth.


It’s time to think beyond “Earth-like” exoplanets and turn to some truly unusual places to find alien life: the exomoons of rogue planets in the Milky Way.

Jun 20, 2021

Biologists Raise Alarm: Brain Damage Caused by Even Small Amounts of Plasticizers

Posted by in categories: food, health, neuroscience

The plasticizers contained in many everyday objects can impair important brain functions in humans. Biologists from the University of Bayreuth warn of this danger in an article in Communications Biology. Their study shows that even small amounts of the plasticizers bisphenol A and bisphenol S disrupt the transmission of signals between nerve cells in the brains of fish. The researchers consider it very likely that similar interference can also occur in the brains of adult humans. They, therefore, call for the rapid development of alternative plasticizers that do not pose a risk to the central nervous system.

Bisphenols are plasticizers that are found in a large number of plastic products worldwide — for example, in food packaging, plastic tableware, drinking bottles, toys, tooth fillings, and babies’ dummies. In recent years, numerous health risks have already been associated with them, especially with bisphenol A (BPA). The Bayreuth research team led by Dr. Peter Machnik at the Animal Physiology research group (led by Prof. Dr. Stefan Schuster) has now for the first time investigated the effects of plasticizers on signal transmission between nerve cells in the adult brain. The study covers not only BPA, but also bisphenol S (BPS), which is often considered less harmful to health. Their findings: Both plasticizers impair communication between the nerve cells of the brain.

Jun 20, 2021

How mRNA technology is altering vaccine treatments

Posted by in category: biotech/medical

“Well, it has to do with our technology,” said Hoge. “We use something called messenger RNA, or mRNA for short. It’s really just an instruction molecule, kind of like a software program for your cells. It just sends instructions about what the virus looks like to your immune system. So just like a software program, or a Word document, we can simply edit something, change it, and then manufacture it very, very quickly.”

He makes it sound so easy, but it’s taken more than a decade of research, and many technological hurdles. Now, the company has some big plans. “We’ve had an incredible year using messenger RNA to fight a pandemic,” Hoge said. “But we think we’re just starting in the infectious disease space, And so, there’s a large number of other vaccines we’re bringing forward.”

Moderna’s research pipeline includes everything from an HIV vaccine, to heart disease treatments, to vaccines for different kinds of cancer, including lymphoma and melanoma.

Jun 20, 2021

Scientists design superfast molecular motor

Posted by in categories: chemistry, nanotechnology

Light-driven molecular motors have been around for over 20 years. These motors typically take microseconds to nanoseconds for one revolution. Thomas Jansen, associate professor of physics at the University of Groningen, and Master’s student Atreya Majumdar have now designed an even faster molecular motor. The new design is driven by light only and can make a full turn in picoseconds using the power of a single photon. Jansen says, “We have developed a new out-of-the-box design for a motor molecule that is much faster.” The design was published in The Journal of Physical Chemistry Letters on 7 June.

The new design started with a project in which Jansen wanted to understand the energy landscape of excited chromophores. “These chromophores can attract or repel each other. I wondered if we could use this to make them do something,” explains Jansen. He gave the project to Atreya Majumdar, then a first-year student in the Top Master’s degree program in Nanoscience in Groningen. Majumdar simulated the interaction between two chromophores that were connected to form a .

Jun 20, 2021

Quantum computers are already detangling natures mysteries

Posted by in categories: biological, chemistry, climatology, computing, information science, nuclear energy, particle physics, quantum physics, sustainability

As the number of qubits in early quantum computers increases, their creators are opening up access via the cloud. IBM has its IBM Q network, for instance, while Microsoft has integrated quantum devices into its Azure cloud-computing platform. By combining these platforms with quantum-inspired optimisation algorithms and variable quantum algorithms, researchers could start to see some early benefits of quantum computing in the fields of chemistry and biology within the next few years. In time, Google’s Sergio Boixo hopes that quantum computers will be able to tackle some of the existential crises facing our planet. “Climate change is an energy problem – energy is a physical, chemical process,” he says.

“Maybe if we build the tools that allow the simulations to be done, we can construct a new industrial revolution that will hopefully be a more efficient use of energy.” But eventually, the area where quantum computers might have the biggest impact is in quantum physics itself.

The Large Hadron Collider, the world’s largest particle accelerator, collects about 300 gigabytes of data a second as it smashes protons together to try and unlock the fundamental secrets of the universe. To analyse it requires huge amounts of computing power – right now it’s split across 170 data centres in 42 countries. Some scientists at CERN – the European Organisation for Nuclear Research – hope quantum computers could help speed up the analysis of data by enabling them to run more accurate simulations before conducting real-world tests. They’re starting to develop algorithms and models that will help them harness the power of quantum computers when the devices get good enough to help.