Connect with us

Published

on

An intense wave of Arctic weather is predicted to sweep through the eastern United States (US), with meteorologists warning of the coldest temperatures in more than a decade. A polar vortex surge, accompanied by significant atmospheric pressure changes, is expected to drive temperatures far below seasonal norms. Regions including the Appalachians, Great Lakes, and Northeast may face heavy snowfall and disruptive winter storms, while wind chills in the southeastern US could pose serious safety risks.

Record-Breaking Cold Weather Anticipated

According to weather reports, the polar vortex — a mass of cold, low-pressure air circulating the Arctic — has expanded southwards. This shift, combined with high-pressure systems in Canada, is forecast to bring sub-freezing temperatures as far as the Gulf Coast and Florida. Reports indicate that some areas might experience temperatures 17 degrees Celsius below average, with the potential for rare phenomena such as iguanas in Florida becoming immobilised by the cold.

Long-Lasting Arctic Conditions

As reported by Live Science, the Arctic blast is likely to persist through mid-January, with analysts projecting that January 2025 could rival the coldest months recorded in over a decade. Paul Pastelok, AccuWeather’s lead long-range forecaster, has highlighted the likelihood of multiple Arctic high-pressure systems descending into the US, sustaining the freezing conditions over several days to Live Science.

Potential Disruptions and Safety Concerns

Reports suggest that widespread disruptions are expected due to heavy snow and icy conditions. Power grids in vulnerable areas may face strain, while poorly insulated homes in southern states could suffer from frozen pipes. Analysts have also noted the possibility of record-breaking cold in states such as Virginia, Georgia and Florida.

Preparations and vigilance are advised for affected areas, with officials emphasising the importance of safety measures during this period of extreme weather.

For the latest tech news and reviews, follow Gadgets 360 on X, Facebook, WhatsApp, Threads and Google News. For the latest videos on gadgets and tech, subscribe to our YouTube channel. If you want to know everything about top influencers, follow our in-house Who’sThat360 on Instagram and YouTube.


China Proposes Further Export Curbs on Battery, Critical Minerals Tech



Scientists Develop New Infrared Photodiode Technology That Delivers Improved Responsiveness

Continue Reading

Science

NASA’s RASSOR Robot Digs Deep into Moon Mining Future with Successful Test

Published

on

By

NASA’s RASSOR Robot Digs Deep into Moon Mining Future with Successful Test

NASA’s RASSOR (Regolith Advanced Surface Systems Operations Robot) was recently tested on simulated lunar soil at Kennedy Space Center’s Granular Mechanics and Regolith Operations LabThe excavator is built to dig and haul Moon-like regolith, preparing technology for sustained lunar missions. On May 27, NASA mechanical engineer Ben Burdess observed RASSOR’s counterrotating bucket drums churn through the soil simulant and carve a three-foot berm. This trial focuses on RASSOR’s digging drums and directly informs development of NASA’s next-generation Moon-mining excavator, the In-Situ Resource Utilization Pilot Excavator (IPEx)

RASSOR’s Counterrotating Drums and Regolith Excavation

According to NASA’s official website, each of RASSOR’s arms carries a bucket drum that spins in the opposite direction of its mate. Engineers note that this opposing rotation gives RASSOR extra traction even in weak gravity. In the Kennedy lab test, those counterrotating drums anchored the robot into the simulant and effectively dug soil – proof that RASSOR can grip and move regolith reliably on the Moon. With that traction, RASSOR can dig, load, haul and dump loose soil.

The collected regolith can then be processed into hydrogen, oxygen and water, resources critical to sustaining astronauts on the Moon. In short, the test showed RASSOR effectively excavating lunar soil simulant while its drum design demonstrated how future machines can operate in the Moon’s low gravity.

Toward the Moon with IPEx Excavator

NASA engineers say this RASSOR test was primarily to check the bucket-drum design slated for the In-Situ Resource Utilization Pilot Excavator (IPEx). RASSOR serves as a prototype for IPEx, which will be far more autonomous and capable.

IPEx is engineered as a combined bulldozer and dump-truck robot that can mine and transport large volumes of lunar soil. Ultimately, IPEx will dig up regolith and feed it into on-site processing units to extract oxygen, water and fuel from the Moon’s soil. Using these local resources is a cornerstone of NASA’s strategy for supporting a sustained human presence on the Moon and eventually Mars.

Continue Reading

Science

Europa May Host Life When Sun Becomes Red Giant, Say Cornell Researchers

Published

on

By

Europa May Host Life When Sun Becomes Red Giant, Say Cornell Researchers

Life in the solar system may not entirely end when the sun begins its dramatic transformation into a red giant star. Instead, a brief window of potential habitability may open on Europa, Jupiter’s icy moon, according to new research. Scientists now suggest that as the sun expands and its habitable zone shifts outward, Europa could temporarily offer conditions suitable for life, though the opportunity would last only a few hundred million years, fleeting on cosmic timescales, but not insignificant.

Europa May Host Microbial Life for 200 Million Years After Sun Becomes a Red Giant

As per a new study from the Carl Sagan Institute at Cornell University, soon to be published in the Monthly Notices of the Royal Astronomical Society, the red giant sun’s energy output could reach as far as Jupiter’s orbit. While Jupiter itself will remain inhospitable, its moon Europa may receive enough combined heat from both solar radiation and Jupiter’s increased reflection to melt parts of its icy crust. This warming could expose or even evaporate subsurface oceans long believed to exist beneath its frozen shell.

Researchers estimate that Europa’s surface will sublimate significantly on the side facing Jupiter, while equatorial regions will suffer water loss due to convective heat transport. Yet, the northern and southern regions on the side opposite Jupiter might retain more water, creating a modest water-vapour atmosphere. Scientists note that this could preserve the conditions needed to sustain life for as long as 200 million years.

The briefer span of Earth history might have been long enough for microscopic life to flourish or endure, in particular if life thrives somewhere below Europa’s ice. This finding could open new paths for astrobiological investigation, including future telescopes with the capability of fishing for biosignatures on ice-covered moons that orbit red giant stars.

Findings such as the exomoon discovery could open a new chapter in that search, with the possibility that after humans die out or destroy themselves, Europa might be all that remains of life in the solar system.

Continue Reading

Science

Greenland’s Hidden Mega-Tsunamis Confirmed by NASA’s SWOT Satellite

Published

on

By

Greenland’s Hidden Mega-Tsunamis Confirmed by NASA’s SWOT Satellite

In September 2023, an unusual seismic signal reverberated around the globe every 90 seconds for nine consecutive days and was then repeated a month later. Scientists were initially unable to identify the source. Almost a year later, two scientific studies proposed that the cause of these seismic anomalies were two mega tsunamis which were triggered in a remote East Greenland fjord by two major landslides which occurred due to warming of an unnamed glacier. These events were believed to have unleashed mega-tsunamis, which then became trapped as seiches—standing waves that sloshed back and forth in the fjord, shaking the planet’s crust. Up to now no observations of these seiches existed to confirm this theory. In a new study, scientists have made the first direct observations by using novel analysis techniques to interpret satellite altimetry data.

Using the SWOT

According to the new research, the breakthrough came from the Surface Water and Ocean Topography (SWOT) satellite. Traditional satellite altimeters failed to detect the waves due to their sparse and linear data coverage. In contrast, SWOT’s Ka-band Radar Interferometer (KaRIn) offers unprecedented spatial resolution and measures surface water heights with 2.5-meter accuracy over 50-kilometer-wide swaths.

Researchers analyzed SWOT data to generate elevation maps of the fjord during and after the events. These maps revealed distinct cross-channel slopes that moved in opposing directions, providing definitive evidence of seiches. Although a Danish military vessel in the fjord during the event observed no disturbances, SWOT’s wide-swath imaging captured what human eyes and older instruments could not.

Climate-Driven Extremes

By linking these observations to seismic signals and ruling out other causes like wind or tides, the researchers confirmed that the seiches caused the nine-day-long seismic event.

“Climate change is giving rise to new, unseen extremes,” said lead author Thomas Monahan. “This study shows how satellite Earth observation can help us study them.” Co-author Professor Thomas Adcock added, “SWOT is a game changer. To fully utilize its data, we must integrate machine learning and ocean physics.”

Continue Reading

Trending