Electric Solid Propellant - Can it Take the Heat?

Electric solid propellants are being explored as a safer option for pyrotechnics, mining, and in-space propulsion because they only ignite with an electric current. But because all of these applications require high heat, it's important to understand how the high temperatures change the propellants' chemistry. Researchers from the University of Illinois at Urbana-Champaign, Missouri University of Science and Technology, and NASA used a computer model that simulates the thermochemical properties of high temperature materials to predict the thermochemistry of a new high-performance electric solid propellant.

Kazan University's Telescope Assists in Discovering Invisible Stars

A sizable international team published findings about the discovery of a new binary star in Astronomy & Astrophysics. A co-author from Kazan University, Professor, Corresponding Member of the Tatarstan Academy of Sciences, Chair of the Department of Astronomy and Space Geodesy Ilfan Bikmaev, explains how the new system was found.

Close-Up of Arrokoth Reveals How Planetary Building Blocks Were Constructed

New observations on the farthest, most primitive object in the Solar System ever to be visited by a spacecraft – a tiny, frozen, bi-lobed world known as Arrokoth – offer a unique glimpse into the early formation of our Solar System and perhaps the planet Earth.

Researchers Develop Smaller, Lighter Radiation Shielding

Researchers at North Carolina State University have developed a new technique for shielding electronics in military and space exploration technology from ionizing radiation. The new approach is more cost effective than existing techniques, and the secret ingredient is…rust.

SwRI Models Hint at Longer Timescale for Mars Formation

The early solar system was a chaotic place, with evidence indicating that Mars was likely struck by planetesimals, small protoplanets up to 1,200 miles in diameter, early in its history. Southwest Research Institute scientists modeled the mixing of materials associated with these impacts, revealing that the Red Planet may have formed over a longer timescale than previously thought.

Citizen Scientists Discover Rare Cosmic Pairing

Citizen scientists have uncovered a bizarre pairing of two brown dwarfs, objects much smaller than the Sun that lack enough mass for nuclear fusion. The discovery, reported in The Astrophysical Journal and confirmed by a scientific team led by astrophysicist Jackie Faherty at the American Museum of Natural History, shows that brown dwarf systems—the formation of which are still poorly understood—can be very low mass and extremely far apart yet inexorably linked.

Distant Giant Planets Form Differently Than ‘Failed Stars’

A team of astronomers led by Brendan Bowler of The University of Texas at Austin has probed the formation process of giant exoplanets and brown dwarfs, a class of objects that are more massive than giant planets, but not massive enough to ignite nuclear fusion in their cores to shine like true stars.

Scientists Show How Solar System Processes Have Impacted the Carbon Cycle Throughout Earth’s History

The world is waking up to the fact that human-driven carbon emissions are responsible for warming our climate, driving unprecedented changes to ecosystems, and placing us on course for the sixth mass extinction event in Earth’s history.