• Business
  • Entertainment
  • Health
  • News
  • Sport
  • Tech
  • World
Newsy Today
news of today
Home - asteroid belt
Tag:

asteroid belt

Tech

Asteroid Donaldjohanson: A Wobbly, Peanut-Shaped World with a Watery Past

by Chief Editor June 22, 2026
written by Chief Editor

NASA’s Lucy spacecraft has confirmed that the main-belt asteroid Donaldjohanson exhibits a complex “tumbling” rotation, spinning on two axes while traveling through space. Data published June 18, 2026, in the journal Science reveals the asteroid rotates end-over-end every 10.5 days, while simultaneously wobbling around a horizontal axis every 26.5 days, according to Dr. Simone Marchi of the Southwest Research Institute.

Why does Donaldjohanson wobble through space?

The asteroid’s non-steady rotation is a direct result of its physical structure and history. According to the Lucy mission team, the object is composed of two distinct, heavily cratered lobes connected by a narrow, smoother neck. This “peanut” shape, measuring roughly 8.8 km by 4.4 km by 3.1 km, creates an uneven distribution of mass. Dr. Marchi states that this bilobed configuration, confirmed by images taken during the April 20, 2025, flyby, prevents the asteroid from maintaining a simple, singular rotation pattern.

Why does Donaldjohanson wobble through space?
Did you know?

The crater density on Donaldjohanson suggests it is a remnant of the Erigone asteroid family. This group formed 155 million years ago following a catastrophic collision that shattered a much larger parent body.

What do iron-rich clays tell us about early solar history?

Lucy’s instrumentation detected iron-rich clay minerals on the surface of Donaldjohanson, providing evidence of past exposure to liquid water. Researchers conclude these minerals formed within a larger, water-rich parent body before the 155-million-year-old breakup event. By identifying these materials, scientists can trace the migration of volatile-rich objects in the early Solar System. According to Dr. Marchi, comparing these findings to other “peanut-shaped” asteroids like Bennu and Ryugu allows researchers to refine models of how planetary building blocks were distributed during the system’s formation.

AAS Journal Author Series: Simone Marchi on 2025PSJ…..6…59M

How does this mission prepare NASA for the Trojan asteroids?

The flyby of Donaldjohanson serves as a high-stakes rehearsal for Lucy’s primary objective: exploring the Trojan asteroids. These two swarms of ancient objects orbit the Sun in the same path as Jupiter, effectively acting as time capsules from the era of planet formation. While Donaldjohanson is a fragment of a relatively recent collision, the Trojans are expected to have vastly different histories. Dr. Marchi notes that once the spacecraft reaches these populations, the data will likely challenge existing theories regarding the movement and evolution of objects in the outer Solar System.

How does this mission prepare NASA for the Trojan asteroids?
Pro Tip: Understanding Asteroid Shapes

Scientists often look for “bilobed” structures—like the one found on Donaldjohanson—because they suggest the object formed through a gentle collision of two smaller bodies or the fragmentation of a single, larger parent. Comparing these shapes helps categorize asteroid families.

Frequently Asked Questions

  • What is the shape of Donaldjohanson? It is an elongated, bilobed asteroid measuring 8.8 km by 4.4 km by 3.1 km, often described as resembling a peanut.
  • How long does it take for the asteroid to rotate? It has a complex rotation: it turns end-over-end every 10.5 days and wobbles on a horizontal axis every 26.5 days.
  • What did the Lucy spacecraft find on the surface? The spacecraft detected iron-rich clay minerals, which indicate the asteroid’s parent body once contained liquid water.
  • Why is this mission important? It provides a baseline for comparing main-belt asteroids with the Trojan asteroids, which are expected to reveal more about the early history of our Solar System.

The findings from the Lucy mission were published in the journal Science (doi: 10.1126/science.aec0503). To stay updated on the latest discoveries from the Lucy mission as it heads toward the Trojan asteroids, subscribe to our weekly space newsletter or explore our archives on planetary science.

June 22, 2026 0 comments
0 FacebookTwitterPinterestEmail
Tech

Lunar Meteorite Reveals Evidence of Massive Asteroid Impact

by Chief Editor June 10, 2026
written by Chief Editor

Planetary scientists have identified evidence of a massive asteroid impact on the Moon occurring 3.5 billion years ago, providing a vital timeline for the bombardment of the inner Solar System. By analyzing the lunar meteorite Northwest Africa (NWA) 12593, researchers led by Dr. Carolyn Crow at the University of Colorado, Boulder, linked this lunar event to concurrent impacts on Earth and the asteroid Vesta. The findings, published May 12, 2026, in the journal Geology, offer a new window into the environmental conditions present as early life emerged on Earth.

How do meteorites reveal ancient impact history?

Meteorites like NWA 12593 act as geologic time capsules, preserving physical evidence of high-energy collisions that have long since been erased from Earth’s surface by erosion and tectonic activity. According to the study published in Geology, the team identified three distinct impact events within the sample. The first, occurring 3.5 billion years ago, generated enough heat to create a melt sheet and trace amounts of cubic zirconia—a mineral that requires extreme temperatures to form and survive.

Did you know?
Cubic zirconia is often associated with jewelry, but in planetary science, its presence in meteorites serves as a “phase heritage” indicator of intense, uncontrolled heat from massive asteroid impacts.

Why does the 3.5 billion-year timeline matter?

The timing of these impacts coincides with the rise of early life on Earth. Dr. Carolyn Crow notes that understanding the frequency of these catastrophic events is essential to determining how life took hold during the planet’s infancy. By mapping the “cadence” of impacts, scientists can better reconstruct the hazardous environment that early organisms faced. The study suggests that the inner Solar System was transitioning during this era from a period of constant planetary formation collisions to a more sporadic, asteroid-driven bombardment phase.

Why does the 3.5 billion-year timeline matter?

How does the lunar record compare to Earth and Vesta?

The research highlights a rare alignment of impact data across three different celestial bodies. While Earth’s geologic record is frequently wiped clean by subduction and burial, the Moon and the asteroid Vesta act as preserved archives. By comparing the radiometric dating of the NWA 12593 melt sheet with established impact records from Earth and Vesta, the team established a cross-body correlation. This consistency across three distinct locations suggests a widespread period of intense solar system activity rather than isolated, local events.

How does the lunar record compare to Earth and Vesta?

Pro Tips for Understanding Impact Geology

  • Look for Breccia: Meteorites like NWA 12593 are often “breccias,” which are rocks composed of angular fragments fused together by the pressure of an impact, much like concrete.
  • Follow the Isotopes: Radiometric dating remains the gold standard for assigning specific ages to these ancient impact events.
  • Contextualize the Surface: Remember that lunar craters are preserved for billions of years, whereas Earth’s surface is constantly being reshaped, making lunar samples critical for terrestrial history.

Frequently Asked Questions

Why are older rocks so hard to find on Earth?

Earth is a geologically active planet. Processes such as plate tectonics, subduction, volcanic activity, and constant weather-driven erosion destroy or bury rocks from the planet’s early history.

CASA Moon Planetary Sample Science Seminar Series: Carolyn Crow

What is a lunar breccia?

A breccia is a type of rock made up of smaller, broken fragments of various materials that have been fused together by the intense heat and pressure of an impact event.

How do we know the impact happened 3.5 billion years ago?

Researchers used radiometric dating techniques on the NWA 12593 meteorite to measure the decay of isotopes, allowing them to pinpoint the age of the molten material generated by the initial impact.


For more updates on planetary research and the history of our solar system, subscribe to our weekly science newsletter or explore our archive of lunar geology reports. Have questions about how asteroid impacts shaped early Earth? Leave a comment below.

June 10, 2026 0 comments
0 FacebookTwitterPinterestEmail
Business

NASA’s Psyche spacecraft buzzing Mars on its way to a rare metal asteroid

by Chief Editor May 14, 2026
written by Chief Editor

The ‘Slingshot’ Strategy: Masterclass in Deep Space Navigation

Navigating the void of space isn’t about driving in a straight line; it’s about the art of the curve. The current trajectory of NASA’s Psyche mission highlights a fundamental pillar of deep space exploration: the gravity assist. By swinging past Mars, the spacecraft isn’t just taking photos—it’s stealing a bit of the planet’s orbital momentum to hurl itself deeper into the solar system.

The 'Slingshot' Strategy: Masterclass in Deep Space Navigation
Metal asteroid surface view

This “slingshot” maneuver is a cornerstone of modern astrophysics. Without it, the amount of fuel required to reach the outer asteroid belt would make most missions prohibitively heavy and expensive. We’ve seen this strategy yield incredible results in the past, from the Voyager probes’ grand tour of the outer planets to the Cassini-Huygens mission to Saturn.

Pro Tip: Gravity assists are essentially cosmic billiards. By entering a planet’s “sphere of influence” at a specific angle, a spacecraft can increase or decrease its velocity relative to the Sun without burning a single drop of propellant.

Unlocking the Vault: Why Metal Asteroids are the New Frontier

While most asteroids are essentially “dirty snowballs” or floating rocks, the target of the Psyche mission is different. It is a rare, metal-rich entity—potentially the exposed nickel-iron core of a protoplanet that lost its rocky crust billions of years ago during the chaotic dawn of our solar system.

This isn’t just a scientific curiosity; it’s a glimpse into the “engine room” of a planet. Because we cannot drill through 3,000 miles of rock and magma to reach Earth’s own core, studying a metal asteroid is the closest we will ever get to seeing the heart of our own world. This “planetary archaeology” allows scientists to test theories about how magnetic fields form and how life-sustaining environments are created.

View this post on Instagram about Unlocking the Vault, Haul Travel One
From Instagram — related to Unlocking the Vault, Haul Travel One

Looking forward, the focus on metal-rich asteroids signals a shift toward the space economy. The concentration of heavy metals in these bodies suggests a future where “off-world mining” becomes a reality. While we are decades away from industrial-scale operations, the data gathered now will determine which asteroids are the most viable targets for future resource extraction.

Did you know? The asteroid Psyche is so metal-rich that some estimates suggest its raw materials could be worth quadrillions of dollars—though flooding Earth’s markets with that much metal would likely crash the price of nickel and iron overnight.

The Propulsion Revolution: Xenon and the Future of Long-Haul Travel

One of the most significant trends highlighted by this mission is the move away from traditional chemical combustion. The Psyche spacecraft utilizes solar electric propulsion (SEP), using xenon gas thrusters. Unlike the massive, fiery bursts of a Falcon 9 or an SLS rocket, SEP provides a low but constant thrust over years.

Psyche Spacecraft Completes Historic Mars Gravity Assist

This efficiency is a game-changer for long-duration missions. Chemical rockets are like sprinters—powerful but quick to exhaust their energy. Solar electric propulsion is the marathon runner of the cosmos. As we look toward more ambitious goals, such as permanent lunar bases or crewed missions to Mars, the integration of SEP will be critical for transporting heavy cargo across the void without needing impossible amounts of fuel.

For more on how these technologies are evolving, you can explore the latest updates on NASA’s official mission pages or dive into our internal guide on the evolution of ion drives.

Planetary Archaeology: Reading the Solar System’s History

The broader trend here is the move toward “high-fidelity” exploration. We are no longer content with grainy photos from a distance. The use of simultaneous observations—where the Psyche spacecraft coordinates with Mars rovers and orbiters—represents a new era of collaborative science.

By syncing data from multiple vantage points, NASA is creating a 3D map of atmospheric and surface interactions. This multi-asset approach is likely to become the standard for all future missions. Whether it’s searching for life in the plumes of Enceladus or mapping the craters of Mercury, the future of space exploration lies in the “network effect”—using a fleet of specialized tools rather than a single “do-it-all” probe.

Frequently Asked Questions

What exactly is a metal asteroid?
Unlike most asteroids made of silicate rock or ice, metal asteroids are composed primarily of nickel and iron. They are believed to be the remnants of the cores of early planets that were shattered by collisions.

Frequently Asked Questions
Psyche spacecraft Mars flyby

Why does the spacecraft need a gravity boost from Mars?
A gravity assist uses the gravitational pull of a planet to change the spacecraft’s speed and direction. This allows it to reach distant targets like the asteroid belt using significantly less fuel.

How does solar electric propulsion work?
It uses electricity from solar panels to ionize a propellant (like xenon gas) and accelerate it using an electric field. This creates a highly efficient, long-term thrust.

When will we know if asteroid mining is possible?
While missions like Psyche focus on science, they provide the “prospecting” data needed. Commercial interest is growing, but viable mining likely depends on the development of autonomous robotics and in-space refining technologies.

Join the Conversation

Do you think asteroid mining will be the key to humanity’s survival, or is it a distraction from fixing our own planet? Let us know your thoughts in the comments below, or subscribe to our newsletter for weekly deep dives into the future of the cosmos!

Subscribe for Space Updates

May 14, 2026 0 comments
0 FacebookTwitterPinterestEmail

Recent Posts

  • Trump Declares Iran Agreement Over Following Exchange of Strikes

    July 8, 2026
  • NATO Considers Skipping Next Summit Amid Trump Tensions

    July 8, 2026
  • Karol Strasburger Forced to Cut Vacation Short After Urgent News

    July 8, 2026
  • Cork Jewellery Brand Announces New Shopping Centre Store

    July 8, 2026
  • State of Origin Game III: Queensland vs NSW Live Updates

    July 8, 2026

Popular Posts

  • 1

    Maya Jama flaunts her taut midriff in a white crop top and denim jeans during holiday as she shares New York pub crawl story

    April 5, 2025
  • 2

    Saar-Unternehmen hoffen auf tiefgreifende Reformen

    March 26, 2025
  • 3

    Marta Daddato: vita e racconti tra YouTube e podcast

    April 7, 2025
  • 4

    Unlocking Success: Why the FPÖ Could Outperform Projections and Transform Austria’s Political Landscape

    April 26, 2025
  • 5

    Mecimapro Apologizes for DAY6 Concert Chaos: Understanding the Controversy

    May 6, 2025

Follow Me

Follow Me
  • Cookie Policy
  • CORRECTIONS POLICY
  • PRIVACY POLICY
  • TERMS OF SERVICE

© 2026 Newsy Today. All rights reserved.
For contact, advertising, copyright, issues email: [email protected]


Back To Top

For contact, advertising, copyright, issues email: [email protected]

Newsy Today
  • Business
  • Entertainment
  • Health
  • News
  • Sport
  • Tech
  • World