Academic research on solar system objects has increased dramatically over the last twenty years. However, information on most of the estimated 1.2 million objects discovered in our solar system has been spread throughout various databases and research papers. Putting all that data into a single data store and making it easy to access would allow researchers to focus on their research rather than on where to collect data. That is the idea behind the Solar System Open Database Network (SsODNet), a project by data scientists at the Observatoire de Paris.
Continue reading “The Properties of 1.2 Million Solar System Objects Are Now Contained In A Machine-Readable Database”Evolutionary Biology: Why study it? What can it teach us about finding life beyond Earth?
Universe Today has had the incredible opportunity of exploring various scientific fields, including impact craters, planetary surfaces, exoplanets, astrobiology, solar physics, comets, planetary atmospheres, planetary geophysics, cosmochemistry, meteorites, radio astronomy, extremophiles, organic chemistry, black holes, cryovolcanism, planetary protection, dark matter, supernovae, neutron stars, and exomoons, and how these separate but unique all form the basis for helping us better understand our place in the universe.
Continue reading “Evolutionary Biology: Why study it? What can it teach us about finding life beyond Earth?”Moon and Mars cave exploration could be easier with ReachBot
How will future robotic explorers navigate the difficult subterranean environments of caves and lava tubes on the Moon and Mars? This is what a recent study published in Science Robotics hopes to address as a team of researchers from Stanford University investigated the use of a novel robotic explorer called ReachBot, which could potentially use its unique mechanical design to explore deep caves and lava tubes on the Moon and Mars in the future.
Continue reading “Moon and Mars cave exploration could be easier with ReachBot”Astronauts’ Muscle Loss Mimics Age-Related Muscle Loss
One of the hazards astronauts must contend with is muscle loss. The more time they spend in a microgravity environment, the more muscle loss they suffer. Astronauts use exercise to counter the effects of muscle atrophy, but it’s not a perfect solution. Researchers want to develop drugs to help, and understanding the muscle-loss process in space is a critical first step.
Continue reading “Astronauts’ Muscle Loss Mimics Age-Related Muscle Loss”We Might Find Life Just Under the Surface on Europa
What does it take to have life at another world? Astrobiologists say you need water, warmth, and something for life to eat. If it’s there, it’ll leave signs of itself in the form of organic molecules called amino acids. Now, NASA scientists think that those “signatures” of life—or potential life—could exist just under the icy surfaces of Europa and Enceladus.
Continue reading “We Might Find Life Just Under the Surface on Europa”Taking a High-Resolution Ultraviolet Image of the Sun’s Corona Will Require VISORS
Sometimes, brainstorming does work. In 2019, America’s National Science Foundation (NSF) held the CubeSat Ideas Lab, a shindig that brought together some of the world’s best CubeSat designers. One outcome of that shindig is the Virtual Super-Resolution Optics with Reconfigurable Swarms, or VISORS, mission. Expected to launch in October, this mission will be a proof of concept for many swarming technologies in CubeSats. Hopefully, It will also capture a pretty impressive picture of the Sun’s corona.
Continue reading “Taking a High-Resolution Ultraviolet Image of the Sun’s Corona Will Require VISORS”What could a future sovereign Mars economy look like?
What would the economy of a future Mars society look like, and how could it be self-sustaining while being completely sovereign from Earth and its own economy? This is what a recent study submitted to Space Policy hopes to address as a sole researcher discusses a model that could be used for establishing economic freedom on Mars, enabling both monetary and political stability across all Red Planets settlements. This study holds the potential to help scientists, economists, and world leaders better understand plausible governmental systems used by human settlers on other worlds while maintaining sovereignty from Earth and its own governmental law and order.
Continue reading “What could a future sovereign Mars economy look like?”Having Trouble Traversing the Sands of Mars? A Lizard Robot Might Help
Mars exploration vehicles typically have wheels, allowing them to traverse some challenging terrain on the Red Planet. However, eventually, their systems start to wear down, and one of their wheels gets stuck. The “Free Spirit” campaign in 2009 was the most widely known case. Unfortunately, that campaign wasn’t successful, and now, 15 years later, Spirit remains stuck in its final resting place. Things might have been different if NASA had adopted a new robot paradigm developed by Guangming Chen and his colleagues at the Nanjing University of Aeronautics & Astronautics Lab of Locomotion Bioinspiration and Intelligent Robots. They devised a robot based on a desert lizard, with adaptable feet and a flexible “spine” that, according to their calculations, would be well suited to traversing over Martian regolith.
Continue reading “Having Trouble Traversing the Sands of Mars? A Lizard Robot Might Help”Giant Collision Decouples Dark Matter from Regular Matter
Dark matter is a mysterious and captivating subject. It’s a strange concept and we don’t really have a handle on what it actually is. One of the strongest pieces of evidence that dark matter is a particle comes from cosmic collisions. These collisions chiefly occur when clusters of galaxies interact such as the famous Bullet Cluster. Gravitational lensing reveals how the dark matter component couples from gas and dust in the cluster but now, astronomers have found another galaxy cluster collision but it is different, showing the collision from a new angle.
Continue reading “Giant Collision Decouples Dark Matter from Regular Matter”Kepler Sketched the Sun in 1607. Astronomers Pinpointed the Solar Cycle
Johannes Kepler is probably most well known for developing the laws of planetary motion. He was also a keen solar observer and in 1607 made some wonderful observations of our nearest star using a camera obscura. His drawings were wonderfully precise and enabled astronomers to pinpoint where the Sun was in its 11-year cycle. Having taken into account Kepler’s location and the location of sunspots, a team of researchers have identified the Sun was nearing the end of solar cycle-13.
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