📰 Trending Topics
Google News - Trending
Why young America is trending socialist - Financial Times
2026-06-02 11:27
Google News - Technology
A first look at Microsoft’s Surface Laptop Ultra and Surface Dev Box - The Verge
2026-06-03 13:22
- A first look at Microsoft’s Surface Laptop Ultra and Surface Dev Box The Verge
- NVIDIA and Microsoft Reinvent Windows PCs for the Age of Personal AI NVIDIA Newsroom
- Jensen Huang says Nvidia's new RTX Spark chip will reinvent the PC Fox Business
- Nvidia's new PC chips represent CEO Huang's bid to win at every layer of AI stack CNBC
- Microsoft plans Linux tools and an RTX Spark desktop for Windows developers Ars Technica
Supernatural isn’t dead after all - The Verge
2026-06-03 15:00
New Microsoft tool lets devs spin up AI behavior tests using text descriptions - TechCrunch
2026-06-02 19:02
- New Microsoft tool lets devs spin up AI behavior tests using text descriptions TechCrunch
- Microsoft Build 2026: Securing code, agents, and models across the development lifecycle Microsoft
- Microsoft is turning to AI to combat cyber threats Yahoo Finance
- Windows platform security for AI agents Windows Blog
- Microsoft offers devs a better way to control AI agent behavior TechCrunch
Microsoft testing wearable AI gadget aimed at office workers - BBC
2026-06-02 21:47
- Microsoft testing wearable AI gadget aimed at office workers BBC
- Everything we learned from the Microsoft Build 2026 keynote Mashable
- Big Tech Still Has No Clue What to Do With AI Gadgets Gizmodo
- Build 2026: Furthering Windows as the trusted platform for development Windows Blog
- Microsoft AI chief Mustafa Suleyman says there are three labs that matter — and he wants Microsoft to be the fourth. The Verge
MacBook Neo Outsold Every Other Mac in Its Debut Quarter - MacRumors
2026-06-02 16:33
- MacBook Neo Outsold Every Other Mac in Its Debut Quarter MacRumors
- The best MacBooks of 2026: We compare the Air, Pro, and Neo Mashable
- Apple’s MacBook Neo is winning over a new generation of buyers TechCrunch
- Here’s how MacBook Neo sales compare to M5 MacBook Air and Pro 9to5Mac
- Tough Year Ahead for PC Shipments As Memory Shortage Grinds On PCMag
NASA - Breaking News
Journey to the Center of the Virgo Cluster
2026-06-03 15:48
The focus of this NASA/ESA Hubble Space Telescope image released on May 29, 2026, is an active spiral galaxy on a journey lasting hundreds of millions of years. The galaxy Messier 88 (M88), also known as NGC 4501, is located about 63 million light-years away in the constellation Coma Berenices (Berenice’s Hair).
M88 is an active galaxy, which means that its center harbors a supermassive black hole that is snacking on gas and dust. Astronomers estimate the black hole is around 100 million times as massive as the Sun, and it appears to be powering outflows of gas from the galaxy’s center.
Image credit: ESA/Hubble & NASA, D. Thilker
NASA Drains 66-Million-Gallon Reservoir to Upgrade Critical Water System
2026-06-03 13:50
A powerful but mostly unseen water system at work during rocket engine tests at NASA’s Stennis Space Center near Bay St. Louis, Mississippi, underwent an upgrade in May.
Crews brought the High Pressure Industrial Water Facility’s 66-million-gallon reservoir to its lowest level since construction in the 1960s by pumping out about 40 million gallons of water over three days.
This brought the reservoir, measuring 800 feet in diameter and about 25 feet deep, down to the level needed to replace a 3,000 gallon per minute pump that supplies water for fire suppression to the test complexes.
Before and After
Lowering the Reservoir
May 7, 2026 – May 11, 2026
For a typical RS-25 engine test supporting NASA’s Artemis missions, about five million gallons of water flow from the reservoir to the Fred Haise Test Stand. The water cools the engine exhaust that reaches up to 6,000 degrees Fahrenheit, supplies water to the flame deflector and helps with sound suppression during a test.
A hot fire test produces critical data to ensure an engine is safe and reliable.
Before and After
A View from the Thad Cochran Test Stand
May 7, 2026 – May 11, 2026
The water used during a test is recycled for future use as it flows back into the on-site canal system, before returning to the reservoir.
“The old pump that supported fire suppression for testing reached its end of life, so this project promotes reliability with the upgrade,” said Justin Lucas, NASA project manager.
In addition to a new pump, the piping has improved to a 14-inch-to-12-inch configuration.
Picture trying to drink water from a big cup using a tiny coffee stirrer. This is similar to how the previous pump relied on piping that narrowed from 14 inches down to 10 inches before reaching the pump. The water moved but required more work from the system.
“With the upgraded configuration, less velocity inside the pipe with the same amount of flow equals a longer lasting pipe, pump, and hardware,” said Lucas.
The water system upgrades have strengthened a vital system that supports NASA’s Artemis missions, along with commercial companies operating at NASA Stennis, home to America’s largest multiuser propulsion test site.
NASA Says Farewell to MAVEN Mars Mission, Hosts Media Call Today
2026-06-03 13:12
The first mission devoted to observing the Martian atmosphere and its evolution, NASA’s MAVEN (Mars Atmosphere and Volatile Evolution), has ended after more than 11 years in orbit at Mars and a decade beyond its primary, one-year mission. The spacecraft was heard last on Dec. 6, when it experienced an unexpected loss of signal after it passed behind the Red Planet.
NASA will host a media teleconference at 2 p.m. EDT today, Wednesday, June 3, to discuss MAVEN’s achievements.
The agency convened an anomaly review board in February to evaluate recovery efforts and assess the spacecraft’s probable current state. The review board has determined that the MAVEN spacecraft is not recoverable, and it is no longer capable of performing its science and data relay mission, which is consistent with the mission team’s findings.
Telemetry from MAVEN prior to the spacecraft’s passage behind Mars in December showed all subsystems working normally. After the spacecraft emerged, NASA’s Deep Space Network (DSN) did not observe a signal. A brief fragment of telemetry data from analysis of radio signals recorded by the DSN’s open-loop receivers indicated the spacecraft was in safe mode and rotating at an unusually high rate when it emerged from behind Mars, indicating a disruption in MAVEN’s orbit trajectory. The review board concluded that due to this rotation, the batteries on the spacecraft had drained, causing the communications system to lose power and rendering MAVEN in an unrecoverable state.
These preliminary findings do not address a potential root cause for the anomaly, which still is being investigated. The review board is expected to provide its final report later this year. NASA has begun the official process of decommissioning the MAVEN mission, following standard procedures to archive the full mission dataset for the science and exploration communities.
“The science MAVEN has given us is key to informing what kind of radiation protection and safety measures we must take before sending humans to Mars,” said Louise Prockter, director of the Planetary Science Division at NASA Headquarters in Washington. “The data collected from MAVEN will continue to provide valuable insight into Mars for decades to come.”
Launched in November 2013, the MAVEN mission explored the Red Planet’s upper atmosphere, ionosphere, and interactions with the Sun to explore the loss of the Martian atmosphere to space. Understanding atmospheric loss gives scientists insight into the history of the planet’s atmosphere and climate, liquid water, and planetary habitability.
“The MAVEN mission has truly advanced our understanding of the Martian atmosphere and evolution. This dataset has had a tremendous impact on the field,” said Shannon Curry, MAVEN’s principal investigator and a researcher at the Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder. “Our science team is exceptionally proud of all of these amazing discoveries.”
Sun’s impact on Mars
One of MAVEN’s first major results was that the erosion of Mars’ atmosphere increases significantly during solar storms. The team studied how the solar wind, which is a stream of charged particles continually streaming from the Sun, and solar storms continually strip away Mars’ atmosphere, as well as how this process played a key role in altering the Martian climate from a potentially habitable world to today’s cold, arid planet. The MAVEN mission made unprecedented strides in advancing our understanding of how the Sun and space weather affect Mars, as it was the only spacecraft that could simultaneously take measurements of both the Sun and the Martian atmospheric response.
Martian light shows
The MAVEN mission discovered several types of auroras that light up when energetic particles plunge into the atmosphere, bombarding gases and making them glow. The MAVEN team showed that protons create new kinds of auroras at Mars. On Earth, proton auroras only occur in very small regions near the poles, whereas at Mars they can occur everywhere.
Mars’ atmosphere sputters into space
To better understand how Mars lost most of its atmosphere, MAVEN measured atmospheric sputtering for the first time at any planet. The team did this by observing argon, which is a noble gas, meaning it rarely reacts with other constituents in the Martian atmosphere. The only significant way it can be removed is by atmospheric sputtering, a process where ions crash into the Martian atmosphere at high enough speeds that they splash gas molecules out of the atmosphere, much like doing a cannonball into a pool. The team used 11 years of data to reveal the presence of sputtered argon at high altitudes in the exact locations that the energetic particles crashed into the atmosphere, showing sputtering in real time.
Understanding Mars’ dusty secrets
In 2018, a series of dust storms created a dust cloud so large that it enveloped the Red Planet. The MAVEN team studied how this “global” dust storm affected Mars’ upper atmosphere to understand how these events affected the escape of water to space. It confirmed that heating from dust storms can loft water molecules far higher into the atmosphere than usual, leading to a sudden surge in water lost to space.
Chasing comets
In addition to Martian science, MAVEN contributed to NASA’s effort to observe comet 3I/ATLAS at Mars. Over the course of 10 days last year, the MAVEN team designed a new observing campaign to capture 3I/ATLAS by taking multiple images of the comet in several wavelengths, much like using various filters on a camera. Then it snapped high-resolution UV images to identify the hydrogen coming from the comet. By studying a combination of these images, scientists can identify a variety of molecules and better understand the comet’s composition and history.
During the mission’s lifetime, MAVEN’s science team produced more than 800 publications, and additional publications are planned.
In addition to science, the MAVEN spacecraft was an instrumental player in NASA’s Mars Relay Network, communicating data from Mars rovers to Earth. It also holds the solar system record for most data relayed from another planet in a single day.
Audio of today’s media teleconference will stream on the agency’s website at:
Participants in the teleconference include:
- Tiffany Morgan, director, Mars Exploration Program, Planetary Science Division, NASA Headquarters
- Mike Moreau, project manager, MAVEN, NASA’s Goddard Space Flight Center, Greenbelt, Maryland
- Greg Heckler, deputy program manager for Capability Development, SCaN (Space Communications and Navigation), NASA Headquarters
- Shannon Curry, MAVEN principal investigator, Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder
To ask questions by phone, media must RSVP no later than 12 p.m. to: sarah.frazier@nasa.gov. NASA’s media accreditation policy is available online.
The MAVEN mission is part of NASA’s Mars Exploration Program portfolio. The mission’s principal investigator is based at the Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder, which also is responsible for managing science operations and public outreach and communications. NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the MAVEN mission. Lockheed Martin Space built the spacecraft and is responsible for mission operations. NASA’s Jet Propulsion Laboratory in Southern California provides navigation and Deep Space Network support.
For more information about NASA’s Mars Exploration Program, visit:
https://science.nasa.gov/planetary-science/programs/mars-exploration
-end-
Karen Fox / Alana Johnson
Headquarters, Washington
240-285-5155 / 202-672-4780
karen.c.fox@nasa.gov / alana.r.johnson@nasa.gov
Sarah Frazier
Goddard Space Flight Center, Greenbelt, Md.
202-853-7191
sarah.frazier@nasa.gov
Typhoon Jangmi
2026-06-03 04:00
From late May into early June 2026, a broad, slow-spinning storm churned north-northwest over the Philippine Sea toward southern Japan. Typhoon Jangmi’s rainbands unleashed torrential rainfall across a vast swath of the region, triggering flooding concerns in several areas.
The VIIRS (Visible Infrared Imaging Radiometer Suite) on the Suomi NPP satellite captured this nighttime image (above) of the storm at about 16:40 Universal Time on May 30 (1:40 a.m. Japan Standard Time on May 31). Around that time, the typhoon produced sustained winds of 120 kilometers (75 miles) per hour, based on 1-minute averages reported by the Joint Typhoon Warning Center (JTWC). That’s equivalent to a category 1 storm on the Saffir-Simpson hurricane wind scale.
The image shows a detailed view of the eyewall and eye, with a diameter that is on the larger end of the spectrum, according to Scott Braun, a research meteorologist at NASA’s Goddard Space Flight Center. There also appears to be some low-level rotation on the eastern side of the eye, producing features known as “mesocyclones” that are partially obscured by high-level clouds. Though they appear striking, the features are fairly typical, Braun noted.
The second image shows a wider view of the same storm one day later. The VIIRS on the NOAA-20 satellite acquired this image at about 16:40 Universal Time on May 31 (1:40 a.m. Japan Standard Time on June 1), when the storm was a slightly stronger typhoon with sustained winds of 130 kilometers (80 miles) per hour.
In both images, Jangmi’s eye was still located south of Okinawa. However, the storm’s outer cloud bands already reached over land as the storm moved north. Forecasts called for the storm to make a close approach to Okinawa and then turn northeast toward the Amami region around June 1-2. It was expected to continue delivering large amounts of rain, especially along the nation’s Pacific coast, according to news reports.
NASA Earth Observatory images by Michala Garrison, using VIIRS day-night band data from NASA EOSDIS LANCE, GIBS/Worldview, and the Joint Polar Satellite System (JPSS). Story by Kathryn Hansen.
References & Resources
- The Japan Times (2026, June 1) Tropical Storm Jangmi set to lash wide area of Japan. Accessed June 2, 2026.
- Joint Typhoon Warning Center (2026, June 1) Prognostic Reasoning for Tropical Storm 06W (Jangmi). Accessed June 2, 2026.
- The New York Times (2026, June 2) Tracking Tropical Storm Jangmi. Accessed June 2, 2026.
You may also be interested in:
Stay up-to-date with the latest content from NASA as we explore the universe and discover more about our home planet.
The violent storm aimed at the U.S. Northern Mariana Islands and Guam in mid-April 2026.
Satellites observed striking upper-atmosphere phenomena generated by an intensifying tropical cyclone.
The powerful storm lashed the northern edge of the continent with damaging winds and drenching rain as it made landfall…
NASA Space Roboticist Challenge
2026-06-02 20:56
The Fly Foundational Robots (FFR) mission will launch a robotic arm, with seven degrees of freedom, to low Earth orbit. NASA is opening access to the robotic arm to a select group of U.S. researchers — principal investigators, post-doctoral researchers, professors, and highly qualified graduate students — who have a compelling experiment and the capability to execute it.
All participants must submit eligibility documentation at registration. Once your eligibility is reviewed and confirmed, you will receive access to the Phase 1 submission portal.
- Phase 0 — Eligibility Registration
Begin by completing your eligibility registration. Submission documentation is required at this stage as part of federal competition requirements. Registration closes at 12:59 p.m. ET (11:59 p.m. CT) on Sept. 23.
- Phase 1 — White Paper Submission
Submit a white paper proposing a short, focused experiment using the FFR robotic arm. Up to 15 teams advance to Phase 2. Submission closes at 12:59 p.m. ET (11:59 p.m. CT) on Oct. 2. - Phase 2 — Simulation & Validation
Invited participants conduct simulation and validation testing, including visits to Goddard Space Flight Center in Greenbelt, Maryland.
Prize: Teams that pass validation will receive an offer of on-orbit experiment time on the FFR Mission
Challenge Registration Open Date: May 20, 2026
Challenge Registration Close Date: September 23, 2026
For more information, visit: https://spaceroboticistchallenge.com/
TechCrunch - Latest
Ultrahuman says hackers accessed customers’ wellness data via internal tool
2026-06-03 17:30
Carvana ties up with Bezos-backed Slate Auto as it plans new car sales
2026-06-03 17:25
Instagram is alerting users who were targeted by hackers during AI chatbot attacks
2026-06-03 16:12
Amazon will show AI product images when you search for some reason
2026-06-03 15:50
Still facing copyright lawsuits, AI music generator Suno raises another $400M
2026-06-03 15:31
