Latest news with #planetaryScience
Yahoo
3 days ago
- Science
- Yahoo
Mars Looks Strangely Familiar in Stunning New Panorama
With just a splash of color, the red planet's horizons can look remarkably like our own – blue skies and all. A 360-degree panorama, taken by the Perseverance Rover on Mars, could just as easily have been snapped in a rocky desert somewhere here on Earth. The difference lies in a subtle tweak to the color contrast. Related: "The relatively dust-free skies provide a clear view of the surrounding terrain," says planetary scientist Jim Bell, the principal investigator of the rover's 'eyes' – the two cameras of the Mastcam-Z instrument. "In this particular mosaic, we have enhanced the color contrast, which accentuates the differences in the terrain and sky." The only time the red planet's skies should look this blue is during a sunset – the opposite of the color scheme we see here on Earth. Yet with just a hint of color enhancement, the resulting landscape is strangely familiar. Looking through Percy's eyes across the jagged rocks, ripples of sand, and rolling hills, you can almost imagine you are standing in the Atacama desert. That stark similarity is precisely why NASA scientists are testing future rovers in the Chilean desert. Already, they have successfully detected molecular evidence of life there "in one of the most biologically sparse environments on Earth," according to a 2023 paper published in Astrobiology. The hope is that one day, these new-and-improved rovers will join Perseverance, Opportunity, and Curiosity on Mars to accomplish similar feats. But seeing the red planet through an Earthly lens is like wearing rose-tinted glasses. It sure looks promising, but as you can see from the natural-color version of the image, there's a lot that sets Mars apart from the Atacama. As the fourth planet from the Sun, Mars receives less than half of the sunlight that Earth does, and the volume of its atmosphere is less than 1 percent of that of Earth's atmosphere. Whether remnants of ancient life can exist under such hostile and destructive conditions remains to be seen… possibly with Percy's own two eyes. Related News The Perseids Meteor Shower Peaks This Week: Here's When to Look Up Atlanta Home Struck by Meteorite Older Than Earth 36 Billion Suns: Record Black Hole Discovery Could Be as Big as They Get Solve the daily Crossword
Yahoo
23-06-2025
- Science
- Yahoo
Deep space asteroid sample contains unexpected ingredient
On December 5, 2020, a small capsule jettisoned from Japan's Hayabusa2 spacecraft as it made a scheduled flyby over Earth. The payload landed in the Australian outback as planned, capping a 6-year roundtrip journey to survey the asteroid Ryugu. Since then, researchers including a team at Hiroshima University, have analyzed the unprecedented mineral samples collected from the distant space rock. But according to their most recent findings, published in the journal Meteoritics & Planetary Science, one of those minerals defies planetary scientists' previous theories on Ryugu's creation. The consequences may help clarify the solar system's evolution, and the surprising complexities inside some of its most primitive asteroids. To understand Ryugu, it's important to first understand its origins. Researchers believe the half-mile wide, 496-million-ton rock belongs to a parent body that formed 1.8–2.9 million years after the birth of our solar system. This asteroid family—likely Eulalia or Polana—coalesced from icy mixtures of carbon dioxide and water at the outer edges of the solar system. Over millions of years, radioactive elements decayed and generated heat inside the parent body to likely reach around 122 degrees Fahrenheit. It's believed that a catastrophic impact with another asteroid created the carbon-heavy Ryugu, which is composed of rocks similar to the CI chondrite meteorites that frequently streak through Earth's atmosphere. But while CI chondrites are commonplace, enstatite chondrites are not. These rare asteroids form under extremely high temperature conditions inside the solar system's inner region. Enstatite chondrites contain different minerals such as djerfisherite, a potassium-laden iron-nickel sulfide. Based on everything scientists know about asteroids, Ryugu shouldn't include an ingredient like djerfisherite—but it does. 'Its occurrence is like finding a tropical seed in Arctic ice,' said Masaaki Miyahara, a science and engineering associate professor Hiroshima University and one of the study's co-authors. Miyahara and colleagues spotted Ryugu's djerfisherite while using field-emission transmission electron microscopy (FE-TEM) to better understand how terrestrial weathering affected the asteroid's mineral layers. According to Miyahara, the discovery 'challenges the notion that Ryugu is compositionally uniform' and opens new questions about primitive asteroid evolution. Experts know from past experiments that djerfisherite can be created when potassium-rich fluids and iron-nickel sulfides interact at temperatures over 662 degrees Fahrenheit. Given their understanding of enstatite chondrites, this led Miyahara's team to two potential explanations. 'The discovery of djerfisherite in a Ryugu grain suggests that materials with very different formation histories may have mixed early in the solar system's evolution, or that Ryugu experienced localized, chemically heterogeneous conditions not previously recognized,' explained Miyahara. Early evidence suggests the latter theory is more likely, but researchers can't be sure solely based on the currently available information. Regardless, the discovery revealed that the solar system's earliest eras hosted some unexpected deep space interactions. Moving forward, the team hopes to conduct isotopic studies on the samples to narrow down the minerals' origins. Meanwhile, the sample's delivery probe Hayabusa2 is currently en route for a 2031 rendezvous with its next asteroid—a small, rapidly spinning rock known as 1998 KY.
New York Times
23-06-2025
- Science
- New York Times
This Powerful Telescope Quickly Found 1,200 New Asteroids
More than a million asteroids, some of them potential threats to Earth. Asteroids with tails like comets. Interstellar objects that happen to be swinging by our sun. (Could they be alien spaceships?) More distant worlds including, perhaps, a ninth planet, which could fill in the story of our solar system's turbulent youth. Those are some of the discoveries that the Vera C. Rubin Observatory in Chile is expected to make in the cosmic neighborhood that is our solar system. (Maybe not the alien spaceships.) 'I think that we're going to completely transform our view of the solar system and rewrite that textbook over the next few years.' said Meg Schwamb, a planetary scientist at Queen's University Belfast in Northern Ireland. Rubin's scans of the night sky will also help make Earth a safer place, spotting potentially dangerous asteroids that have so far eluded detection. Most asteroids are found in the belt between the orbits of Mars and Jupiter. But some of those space rocks have been deflected onto paths that could cross paths with our planet. Astronomers are certain that there is nothing the size of the six-mile-wide asteroid that killed the dinosaurs that poses a danger of colliding with Earth anytime soon. But for smaller asteroids, they are not so certain. Want all of The Times? Subscribe.
