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2021 KT1, a “potentially hazardous” asteroid is passing near the Earth on Tuesday (June 1), NASA has warned. The asteroid will make a close approach to the Earth at around 10:24am EDT (7:54pm IST). The gigantic rock would fly past our planet with a distance of around 4.5 million miles. Some other asteroids are also expected to zip past the Earth later this week. However, those would be significantly smaller than the 2021 KT1.

NASA has said on its Jet Propulsion Laboratory (JPL) website that the 2021 KT1 asteroid could be around 186 metres in size. This is twice as big as the Statue of Liberty, which is 93 metres in height.

asteroid orbital viewer image nasa Asteroid

Asteroid 2021 KT1 is fly passing the Earth
Photo Credit: NASA

The asteroid is not likely to hit the Earth as it would be 4.5 million miles away at the closest point. However, NASA considers any asteroid potentially hazardous when it comes within 4.6 million miles of the Earth and is larger than 150 metres.

There aren’t any references to confirm whether or not the asteroid would affect the Earth. Nonetheless, NASA says that people should not be overly concerned about a Near-Earth Object (NEO) such as an asteroid impacting the Earth. “The threat to any one person from auto accidents, disease, other natural disasters and a variety of other problems is much higher than the threat from NEOs,” the space agency noted on its Center for Near Earth Object Studies (CNEOS) website.

Scientists, however, believe that chances of the Earth being impacted by NEOs over long periods of time are “not negligible” and thus NASA and other space agencies around the world actively monitor asteroid and comet moments.

In addition to the 2021 KT1, some smaller asteroids are passing near the Earth in the coming days. Those asteroids are expected to be of up to 21 metres in size.


It’s an all television spectacular this week on Orbital, the Gadgets 360 podcast, as we discuss 8K, screen sizes, QLED and mini-LED panels — and offer some buying advice. Orbital is available on Apple Podcasts, Google Podcasts, Spotify, Amazon Music and wherever you get your podcasts.

For the latest tech news and reviews, follow Gadgets 360 on Twitter, Facebook, and Google News. For the latest videos on gadgets and tech, subscribe to our YouTube channel.


Jagmeet Singh writes about consumer technology for Gadgets 360, out of New Delhi. Jagmeet is a senior reporter for Gadgets 360, and has frequently written about apps, computer security, Internet services, and telecom developments. Jagmeet is available on Twitter at @JagmeetS13 or Email at jagmeets@ndtv.com. Please send in your leads and tips.
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Elon Musk’s Neuralink Cleared to Start Brain Chip Trial in Canada

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Elon Musk’s Neuralink Cleared to Start Brain Chip Trial in Canada

Canada’s University Health Network said its Toronto Western Hospital would be the first non-US site of a trial for a device created by Neuralink Corp., Elon Musk’s brain-implant company. 

“We are incredibly proud to be at the forefront of this research advancement in neurosurgery,” UHN Chief Executive Officer Kevin Smith said in an announcement. He also said UHN would be the “first and exclusive” site for the trial in Canada, but did not say when it would begin.

On Wednesday, Neuralink said that it had received approval from regulators in Canada to launch clinical trials for its device in that country.

“Health Canada has approved the launch of our first clinical trial in Canada!” the company posted on X, the social media service also owned by Musk. “Recruitment is now open.”

Neuralink added that it was seeking patients with Quadriplegia due to ALS, also known as Lou Gehrig’s disease, or spinal cord injury.

Health Canada didn’t immediately provide a comment.

For months, Neuralink has been recruiting patients in the US, UK and Canada, with links to a registry on its website. Other companies in the field, such as Synchron Inc., are recruiting for their own future trials.

Neuralink’s first product aims to allow patients to control external devices, such as computers, through their thoughts. Neuralink is also working on treating other conditions such as blindness, but that project is further away. In the distant future, Musk has said Neuralink could work with healthy patients on functions such as augmenting memory.

Its first human patient, Noland Arbaugh, was implanted with Neuralink’s device earlier this year, at the Barrow Neurological Institute in Phoenix.

© 2024 Bloomberg L.P.

(This story has not been edited by NDTV staff and is auto-generated from a syndicated feed.)

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NASA’s Perseverance Rover Finds Organic Molecules on Mars

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NASA’s Perseverance Rover Finds Organic Molecules on Mars

NASA‘s Perseverance rover, currently exploring Mars’ Jezero Crater, has detected carbon-based molecules that may hint at ancient life on the Red Planet. These findings, reported last summer, were made using SHERLOC (Scanning Habitable Environments with Raman and Luminescence for Organics and Chemicals), an advanced instrument capable of identifying potential organic compounds. While the discovery has raised hopes within the scientific community, questions about its accuracy remain, as researchers consider alternative explanations for the data.

Detection of Organic Molecules and Its Challenges

The SHERLOC instrument utilises two techniques: ultraviolet luminescence and Raman spectroscopy. Dr Ken Farley, Project Scientist for the Perseverance mission, explained that SHERLOC can detect organic matter potentially present in Mars’ environment. Luminescence, while highly sensitive, lacks specificity, as non-organic materials can also produce similar signals. Raman spectroscopy provides more precise chemical fingerprints, but its sensitivity is limited. This combination allows researchers to hypothesise about the presence of organic molecules, but uncertainties in the data complicate definitive conclusions.

Potential Alternative Explanations

A study published in Science Advances posited that the detected signals could originate from inorganic substances, such as defects in minerals like phosphate and silicate or the presence of cesium ions. Dr Eva Scheller, a planetary scientist at MIT and co-author of the study, highlighted that multiple chemical compositions can produce similar spectral patterns. Such overlaps, known as degeneracy in spectroscopy, make it challenging to interpret data reliably. The original researchers also acknowledged these alternative explanations, underscoring the inherent difficulties of remote Mars analyses.

Implications and Future Investigations

While the presence of organic molecules might not confirm life, Jezero Crater’s history as an ancient lakebed increases the significance of the discovery. Both Farley and Scheller agree that a Mars Sample Return mission could provide the clarity necessary to determine whether these compounds originated from biological or abiotic processes. Until then, debates surrounding the findings are expected to continue, illustrating the evolving nature of scientific inquiry.

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NASA Showcases New AI Tools That Can Help In Scientific Research

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NASA Showcases New AI Tools That Can Help In Scientific Research

At the Supercomputing Conference or SC2024, NASA’s Associate Administrator for the Science Mission Directorate, Nicola Fox, detailed new computational tools intended to advance space science. NASA plans to employ a large language model across its science divisions, bolstered by foundation models tailored to Earth science, heliophysics, astrophysics, planetary science, and biological and physical sciences. This strategy was illustrated through a heliophysics foundation model, which applies extensive data from NASA’s Solar Dynamics Observatory to forecast solar wind events and track sunspot activity.

Evolution of Space Computing and the Voyager Missions

Fox recounted how NASA’s Voyager missions, launched in the 1970s, served as milestones in computing for space exploration. Operating with early semiconductor memory, these spacecraft provided unique insights, including discoveries of Jupiter’s faint ring and Saturn’s additional moons.

Although far surpassed by modern technology, the Voyager missions revealed the possibilities for future computational breakthroughs in space science. Since then, NASA’s computational requirements have expanded, with over 140 petabytes of data now stored and shared under open science policies, allowing global scientists to access and benefit from NASA’s research.

Real-Time Data and Earth Observation Advances

NASA’s Earth Information Center was presented as a prime example of federal collaboration. It integrated data on environmental changes with insights from agencies such as NOAA and the EPA.

Using data from satellite missions, Fox showcased NASA’s ability to observe natural events like wildfires in near real-time. She also noted advancements in wildfire detection from polar-orbiting satellites, allowing precise tracking of hot spots. She said that data-driven efforts like these are critical as NASA continues to enhance the monitoring of natural phenomena on Earth.

Searching for Life Beyond Earth

Towards the end, she addressed NASA’s ongoing investigations into extraterrestrial life. Recent studies of exoplanets, such as LP 791-18d, underscore this pursuit. NASA’s observatories, including the Transiting Exoplanet Survey Satellite (TESS). It has facilitated the detection of thousands of exoplanets, aiding in the search for conditions that might support life beyond Earth.

Fox concluded by highlighting the powerful role that AI and computing now play in analysing the massive datasets produced by NASA’s missions, making it possible to explore questions that were previously out of reach.

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