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Oct 30, 2024

NASA Sets Coverage for SpaceX 31st Station Resupply Launch, Arrival

Posted by in category: space travel

NASA and SpaceX are targeting 9:29 p.m. EST, Monday, Nov. 4, for the next launch to deliver science investigations, supplies, and equipment to the International Space Station. This is the 31st SpaceX commercial resupply services mission to the orbital laboratory for the agency.

Filled with nearly 6,000 pounds of supplies, a SpaceX Dragon spacecraft on a Falcon 9 rocket will lift off from Launch Complex 39A at NASA’s Kennedy Space Center in Florida.

Live launch coverage will begin at 9:10 p.m. on NASA+ and the agency’s website. Learn how to watch NASA content through a variety of platforms, including social media.

Oct 30, 2024

Innovative AI Tool Identifies High-Risk Prostate Tumors with 85% Accuracy

Posted by in categories: biotech/medical, robotics/AI

“Al-determined tumor volume has the potential to advance precision medicine for patients with prostate cancer by improving our ability to understand the aggressiveness of a patient’s cancer and therefore recommend the most optimal treatment,” said Dr. David D. Yang, MD.


How can artificial intelligence (AI) help medical professionals identify, diagnose, and treat prostate cancer? This is what a recent study published in Radiology hopes to address as a team of researchers developed an AI model designed to identify prostate cancer lesions, which holds the potential to help medical professionals and patients make the best-informed decisions regarding diagnoses and treatment options.

For the study, which was conducted between January 2021 to August 2023, the researchers had their AI model examine MRI scans from 732 patients, including 438 patients who underwent radiation therapy (RT) and 294 patients who underwent radical prostatectomy (RP). The goal was to compare a potential success rate of the AI model identifying tumors compared to patient treatment between 5 to 10 years after being diagnosed.

Continue reading “Innovative AI Tool Identifies High-Risk Prostate Tumors with 85% Accuracy” »

Oct 30, 2024

Charting New Territory: The South Pole Landing Regions of Artemis III

Posted by in categories: energy, space

“The Moon’s South Pole is a completely different environment than where we landed during the Apollo missions,” said Dr. Sarah Noble. “It offers access to some of the Moon’s oldest terrain, as well as cold, shadowed regions that may contain water and other compounds.”


Where will NASA’s Artemis Program precisely land astronauts near the lunar south pole? This is what the famed space agency hopes to figure out as they recently narrowed the list of potential landing regions from 13 to 9, underscoring NASA’s ongoing urgency in selecting a final landing site prior to landing astronauts on the Moon with the Artemis III in the next few years, along with landing the first woman and person of color on the lunar surface, as well. The selected regions will provide scientific opportunities based on geology, terrain, and access to water ice, the latter of which can be used for fuel, drinking, creating oxygen through electrolysis, and much more.

NASA has identified the following potential landing regions not listed in priority: Peak near Cabeus B, Haworth, Malapert Massif, Mons Mouton Plateau, Mons Mouton, Nobile Rim 1, Nobile Rim 2, de Gerlache Rim 2, Slater Plain. Each landing region consists of several square miles with more precise landing sites being determined later.

Continue reading “Charting New Territory: The South Pole Landing Regions of Artemis III” »

Oct 30, 2024

It Might Be Possible to Detect Gravitons After All

Posted by in category: particle physics

A recent proposal suggests that detecting gravitons, the elusive particles believed to carry gravity, may be feasible after all.


A new experimental proposal suggests detecting a particle of gravity is far easier than anyone imagined. Now physicists are debating what it would really prove.

Oct 30, 2024

Big batteries lead renewable charge as record 45 gigawatts of new capacity seeks grid connection

Posted by in category: energy

The Australian Energy Market Operator has reported a significant increase in the capacity of new wind, solar and storage projects seeking a grid connection, with the total now exceeding 45 gigawatts for the first time.

AEMO’s latest connection scorecard and its Quarterly Energy Dynamics report for the September quarter says that the capacity of projects going through the connection process – from application to commissioning – has jumped by more than one third to 45.6 GW.

The biggest jump came in battery storage, which nearly doubled from the same period a year earlier to 14.7 GW, confirming that it remains the strongest part of Australia’s sometimes faltering green energy transition (the storage number for batteries varies from project to project and in some early development cases is not settled).

Oct 30, 2024

Gene for cold tolerance in rice offers new opportunities for breeding resilient varieties

Posted by in category: food

A gene called COLD6 contributes to cold tolerance in rice, potentially offering a pathway to use molecular design to breed a rice variety with higher resistance to cold stress. This work appears October 30 in Molecular Cell.

Oct 30, 2024

SpaceX rocket launch sends 20 Starlink satellites into low-Earth orbit

Posted by in categories: internet, satellites

Twenty Starlink satellites were launched into space early Wednesday morning when a SpaceX rocket launched from the Santa Barbara County coast.

The rocket soared over the Southern California coast after the 5:07 a.m. launch from Vandenberg Space Force Base northwest of Santa Barbara.

Oct 30, 2024

Astronauts could hitch a ride on asteroids to get to Venus or Mars

Posted by in category: space

Asteroids that regularly fly between Earth, Venus and Mars could provide radiation shielding for human missions to explore neighbouring planets.

By Jonathan O’Callaghan

Oct 30, 2024

Space Oddity: Most Distant Rotating Disc Galaxy found

Posted by in categories: evolution, space

Researchers have discovered the most distant Milky-Way-like galaxy yet observed. Dubbed REBELS-25, this disc galaxy seems as orderly as present-day galaxies, but we see it as it was when the Universe was only 700 million years old. This is surprising since, according to our current understanding of galaxy formation, such early galaxies are expected to appear more chaotic. The rotation and structure of REBELS-25 were revealed using the Atacama Large Millimeter/submillimeter Array (ALMA), in which the European Southern Observatory (ESO) is a partner.

The galaxies we see today have come a long way from their chaotic, clumpy counterparts that astronomers typically observe in the early Universe. “According to our understanding of galaxy formation, we expect most early galaxies to be small and messy looking,” says Jacqueline Hodge, an astronomer at Leiden University, the Netherlands, and co-author of the study.

These messy, early galaxies merge with each other and then evolve into smoother shapes at an incredibly slow pace. Current theories suggest that, for a galaxy to be as orderly as our own Milky Way – a rotating disc with tidy structures like spiral arms – billions of years of evolution must have elapsed. The detection of REBELS-25, however, challenges that timescale.

Oct 30, 2024

A Novel Method to Split Water to Create Hydrogen — a Clean Source of Fuel

Posted by in categories: materials, particle physics

Researchers have developed a novel method using facet-selective, ultrafine cocatalysts to efficiently split water to create hydrogen – a clean source of fuel. Scientists are urgently searching for clean fuel sources – such as hydrogen – to move towards carbon neutrality. A breakthrough for improving the efficiency of the photocatalytic reaction that splits water into hydrogen has been made by a team of researchers from Tohoku University, Tokyo University of Science and Mitsubishi Materials Corporation.

“Water-splitting photocatalysts can produce hydrogen (H2) from only sunlight and water,” explains Professor Yuichi Negishi, the lead researcher of this project (Tohoku University), “However, the process hasn’t been optimized sufficiently for practical applications. If we can improve the activity, hydrogen can be harnessed for the realization of a next-generation energy society.”

The research team established a novel method that uses ultrafine rhodium (Rh)-chromium (Cr) mixed-oxide (Rh2-xCrxO3) cocatalysts (the actual reaction site and a key component to stop H2 reforming with oxygen to make water again) with a particle size of about 1 nm. Then, they are loaded crystal facet-selectively onto a photocatalyst (uses sunlight and water to speed up reactions). Previous studies have not been able to accomplish these two feats in a single reaction: a tiny cocatalyst that can also be placed on specific regions of the photocatalyst.

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