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A peak resembling a man-made pyramid, situated in the snow-covered expanse of Antarctica, has captured widespread attention due to its striking symmetry. Located within the southern Ellsworth Mountains, this natural formation features four steep, symmetrical faces, drawing comparisons to ancient Egyptian pyramids. Rising approximately 4,150 feet (1,265 meters), the mountain has become a focal point of speculation since it gained internet fame in 2016, with many questioning whether its shape could be the work of ancient civilizations or extraterrestrial beings.

Natural Formation Through Erosion

As reported by Live Science, the unique geometry of the mountain is attributed to natural erosion processes. Experts suggest that the peak was likely sculpted by freeze-thaw erosion over millions of years. Mauri Pelto, a professor of environmental science at Nichols College, explained to Live Science that during this process, water fills rock crevices during the day, freezes at night, and expands, causing chunks of rock to break off gradually. This slow but consistent erosion is believed to have given the mountain its distinct pyramidal shape. Pelto noted that while three of the mountain’s sides appear to have eroded evenly, the fourth side—the eastern ridge—formed separately.

Conspiracy Theories and Expert Opinions

Speculation about the mountain’s origin surged when its images circulated online. Claims involving forgotten civilizations or extraterrestrial construction have been widely shared by conspiracy theorists. However, Eric Rignot, professor of Earth system science at the University of California, Irvine, and senior research scientist at NASA’s Jet Propulsion Laboratory, dismissed these ideas while talking to Live Science. Rignot stated that pyramid-like shapes are not uncommon in nature, citing that peaks with one or two steep faces are often observed, though fully symmetrical formations are rare.

Historical and Geological Significance

First observed during a 1935 flight by American aviator Lincoln Ellsworth, the Ellsworth Mountains hold significant geological history, including 500-million-year-old fossils. The pyramid-shaped peak adds to the intrigue of this remote region but is regarded by scientists as a testament to nature’s sculpting power rather than evidence of advanced or extraterrestrial involvement.

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Ancient Ice Core from Antarctica May Reveal Climate Mysteries from 1.2 Million Years Ago

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January 14, 2025

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Ancient Ice Core from Antarctica May Reveal Climate Mysteries from 1.2 Million Years Ago

A groundbreaking discovery has been made in Antarctica, where a team of scientists successfully extracted a 2.8-kilometre-long ice core believed to contain air bubbles and particles from 1.2 million years ago. This ancient ice sample, retrieved under extreme conditions with temperatures reaching -35 degree Celsius, holds the potential to reveal crucial insights about a critical period in Earth’s climate history. Researchers aim to study this ice to understand significant climatic shifts and their potential links to near-extinction events in human ancestry.

Historic Ice Recovery and Its Implications

According to reports from BBC News, the ice core was obtained from a drilling site named Little Dome C, situated on the Antarctic Plateau at an elevation of nearly 3,000 meters. The project, led by the Italian Institute of Polar Sciences and supported by scientists from ten European countries, took four Antarctic summers to complete. The extracted ice contains air bubbles, volcanic ash, and other particles, providing a snapshot of atmospheric conditions from up to 1.2 million years ago.

This ice core could shed light on the Mid-Pleistocene Transition, a period 900,000 to 1.2 million years ago when the glacial cycle lengthened from 41,000 to 100,000 years. Experts are particularly interested in whether this climatic shift correlates with a dramatic population decline in human ancestors.

Scientific Process and Goals

The core was transported in freezing conditions, cut into one-meter sections, and distributed to institutions across Europe for analysis. Scientists hope to uncover patterns in greenhouse gas emissions and temperature changes from this period, which could help refine climate models for future projections. Professor Carlo Barbante, a lead researcher at Ca’ Foscari University of Venice, highlighted to BBC News, the significance of handling ancient air samples and volcanic ash embedded in the ice, emphasising its potential to expand understanding of Earth’s climatic past.

The analysis of this ice core is expected to provide pivotal data, offering scientists a clearer picture of how historical climatic changes shaped the planet and influenced early human evolution.

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This Is Why This Supermassive Black Hole Flashed Twice Causing a Rare Event

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January 14, 2025

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This Is Why This Supermassive Black Hole Flashed Twice Causing a Rare Event

Astronomers recently observed a rare cosmic event where a supermassive black hole, located approximately 408 million light-years away, consumed one star from a binary system while the other narrowly escaped. This unusual phenomenon, known as a double-flash tidal disruption event (TDE), occurred in the galaxy WISEA J122045.05+493304.7. These powerful events, visible from billions of light-years away, typically involve a single flare, but the designated event ASASSN-22ci is notable for producing two flares, sparking interest in its origins and implications for black hole research.

A Unique Event Observed

According to a study published in the pre-print journal arXiv, ASASSN-22ci was first detected in February 2022, appearing as a typical TDE. However, a second flare was observed 720 days later, making it one of the few documented instances of repeated TDEs.

Researchers theorise this might have resulted from a process called Hills capture, where a supermassive black hole disrupts a binary star system. In such cases, one star is ejected at high velocity, while the other remains bound in an elongated orbit around the black hole, undergoing repeated tidal disruptions.

Investigating the Black Hole’s Activity

Data from ultraviolet and X-ray observations revealed the black hole responsible for ASASSN-22ci has an estimated mass of about three million times that of the sun. While the star involved in these flares likely has a mass similar to the Sun, it remains uncertain if it had a companion that escaped. Scientists believe the similarity between the two flares indicates that the same star might have been disrupted twice during its orbit.

Looking Ahead to 2026

Researchers predict a third flare could occur in early 2026 if the star survives another close encounter with the black hole. This anticipated event would provide astronomers with a rare opportunity to observe and study the earliest phases of a TDE in unprecedented detail, shedding light on the mechanics of black hole interactions with stars

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Satellite Images Reveal the Widespread Destruction of Los Angeles Fires from Space

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January 14, 2025

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Satellite Images Reveal the Widespread Destruction of Los Angeles Fires from Space

The ongoing wildfires in Southern California have caused extensive destruction, with over 34,000 acres burned and significant damage to homes, businesses, and infrastructure reported. At least 10 fatalities have been confirmed, and numerous individuals have been injured since the fires ignited earlier this week. The largest of these fires, the Palisades Fire, has ravaged nearly 20,000 acres, becoming the most destructive wildfire in Los Angeles history. Fire containment efforts are ongoing, with only a small percentage of the affected areas brought under control.

Massive Scale Captured by Satellite Images

According to satellite data provided by Maxar Technologies, the extent of damage caused by the fires has been captured in vivid detail. Infrared imaging has revealed active fire hotspots and burning buildings despite the dense smoke covering affected regions. The Palisades Fire has left vast portions of the Pacific Coast Highway and nearby Malibu neighbourhoods charred, with entire homes reduced to ash. A false-colour satellite image shared by Planet Labs highlights vegetation loss, with smoke plumes towering above the devastated areas.

Efforts to Protect Key Infrastructure

As reported by space.com, reports from the California Department of Forestry and Fire Protection have confirmed that the Eaton Fire, which scorched approximately 10,600 acres, reached the base of Mount Wilson. The area houses transmitters and antennas critical to communication systems and the historic Mount Wilson Observatory. Reports indicate that firefighters successfully prevented significant damage to the observatory and restored power to the facility.

Similarly, the Jet Propulsion Laboratory (JPL), located at the base of the San Gabriel Mountains, was safeguarded by emergency responders. In a statement shared via social media, JPL Director Laurie Leshin acknowledged the bravery of firefighters who shielded the facility while expressing concern for over 150 JPL employees who lost their homes in the disaster.

Emergency services remain deployed across the region to contain the fires and support affected communities.

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