Lifeboat Foundation

Micro Electro Mechanical Systems (MEMS) are miniature devices that integrate mechanical elements, sensors, actuators, and electronics on a single silicon chip. These systems serve diverse applications, such as accelerometers in smartphones, gyroscopes in navigation systems, and pressure sensors in medical devices. MEMS devices can detect and respond to environmental changes, enabling the creation of smart, responsive technologies. Their small size, low power consumption, and ability to perform various functions make MEMS crucial in fields like telecommunications, healthcare, automotive, and consumer electronics. Learn more about this tiny machines with this video!

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QuEra is cofident that by 2026 it would have built a commercial quantum computer that can beat supercomputers of today with ease.

Californian students from the Art Center College had to imagine four concepts of cars of the future for Lincoln, by 2040. One of them, a four-seater sedan, was entitled to the realization of its 1:1 scale model, presented during Monterey Car Week, completed this weekend. Connected, autonomous, shared (“shared”), and electric, as suggested by the acronym “CASE” used by Ford’s luxury brand, which is found in this sedan called “Anniversary”

Reconfigurable massively parallel computer.

Shared with Dropbox.

Drugs known as antidepressants target the serotonin transporter in nerve cells and are among the most commonly prescribed medicines worldwide, but are sometimes associated with significant side effects. As part of a study, a research group led by Thomas Stockner from MedUni Vienna identified the basic principles of serotonin transport and thus created a possible basis for the development of novel drugs with improved selectivity and with fewer undesirable effects. The results were recently published in the renowned scientific journal “Nature Communications”

While the desired effects of drugs unfold through the interaction with the relevant target structures, the undesirable side effects are often due to a lack of selectivity and therefore due to interactions with other target structures. Accordingly, developing drugs that can differentiate between the various physiologically relevant targets (e.g. transporters and receptors) is one of the challenges for research. A team led by Ralph Gradisch under the supervision of Thomas Stockner from MedUni Vienna’s Center for Physiology and Pharmacology set out to find a way to increase selectivity for the serotonin transporter while reducing interaction with other targets at nerve cells in the brain.

Dr. Janice Brahney: “Only recently have we started to see troubling outbreaks of toxic algal blooms in mountain environments. So, these changes are happening fast and are really concerning. It’s important we get to the bottom of this.”

What impact does atmospheric dust have on algae? This is what a recent study published in Global Change Biology hopes to address as a team of researchers from Utah State University (USU) investigated how increased dust concentrations in the Earth’s atmosphere could lead to larger algae blooms, impacting life on both land and in the oceans. This study holds the potential to help scientists better understand the acceptable amounts of dust and algae on the Earth and their impact on aquatic life, specifically in mountain ranges across the globe. The reason mountain headwater regions were the focus of the study was because they provide approximately 50% of the world’s population with fresh water.

“Only recently have we started to see troubling outbreaks of toxic algal blooms in mountain environments,” said Dr. Janice Brahney, who is an associate professor in the Watershed Sciences Department at USU and a co-author on the study. “So, these changes are happening fast and are really concerning. It’s important we get to the bottom of this. Toxic blooms in mountain lakes like the ones we’ve seen recently in remote mountain lakes are unprecedented.”

Continue reading “Algae Growth Linked to Atmospheric Dust: Insights from Pioneering Research” »

Bayreuth scientists are investigating the structure and long-term behavior of galaxies using mathematical models based on Einstein’s theory of relativity. Their innovative approach uses a deep neural network to quickly predict the stability of galaxy models. This artificial intelligence-based method enables efficient verification or falsification of astrophysical hypotheses in seconds.

The research objective of Dr. Sebastian Wolfschmidt and Christopher Straub is to investigate the structure and long-term behavior of galaxies. “Since these cannot be fully analyzed by astronomical observations, we use mathematical models of galaxies,” explains Christopher Straub, a doctoral student at the Chair of Mathematics VI at the University of Bayreuth.

“In order to take into account that most galaxies contain a black hole at their center, our models are based on Albert Einstein’s general theory of relativity, which describes gravity as the curvature of four-dimensional spacetime.”

In May of last year, Ford CEO Jim Farley made a surprise announcement during an online event co-hosted by Tesla’s Elon Musk: the Blue Oval would adopt the Tesla-developed North American Charging Standard (NACS) port. Starting this spring, that unlikely pairing will become a reality, with Ford’s EVs (F-150 Lightning trucks, Mustang Mach-E SUVs, and E-Transit vehicles) plugging in to the Supercharger network.

Farley promised a fast charging adapter for its EV customers in the U.S. and Canada, and he indicated online this week that they’ll be available to order soon. The Ford boss didn’t nail down a date, promising more details are imminent.

“When we announced Ford EVs would get access to Tesla Superchargers, I said we’d send customers a Fast Charging Adapter. I’m pleased to confirm that eligible Mustang Mach-E & F-150 Lightning owners in the U.S. + Canada can reserve a complimentary adapter starting soon,” Farley says via X, formerly Twitter.

Apple Vision Pro is the third Apple product to use a Digital Crown. Apple Watch originally introduced the dial input method before AirPods Max adapted it as a volume knob. Now the Digital Crown is taking on its third life as one of two physical controls on Apple Vision Pro. Here’s everything you can do with the Digital Crown and top button on Apple Vision Pro.

Open Home View

Press the Digital Crown.