NASA is testing ways to crash land on Mars Digital Trends Mars HEAD TOPICS
NASA is testing ways to crash land on Mars Digital Trends
10/21/2022 6:12:00 AM NASA s Mars team is testing a new method of getting equipment onto the martian surface -- using a deliberate crash landing
Mars Jet-Propulsion-Laboratory
Source Digital Trends
NASA s Mars team is testing a new method of getting equipment onto the martian surface -- using a deliberate crash landing NASA s Mars team is testing a new method of getting equipment onto the martian surface -- using a deliberate crash landing Indeed, spectacular high-definition footage captured last year showed how the space agency deployed parachutes and jetpacks to get its Perseverance rover safely onto the surface of the red planet.Now, the Mars team at NASA’s Jet Propulsion Laboratory (JPL) in Southern California is testing a fourth method of getting apparatus onto the martian surface — using a deliberate crash landing. A video (below) released this week shows the JPL team testing its Simplified High Impact Energy Landing Device (SHIELD) lander concept, which could offer future mission planners a low-cost way of reaching Mars.NASA Tests Ways to Crash Land on Mars As you can see in the footage, SHIELD uses a collapsible, accordion-like base to absorb the energy of a hard landing. Read more:
Digital Trends » What's the Best Shielding to Protect Astronauts on Mars? Curiosity Arrives in a Salty Region of Mars. Was it Left Over From a Dying Sea? Aluminium alloy could boost spacecraft radiation shielding 100-fold NASA to restart spacewalks at ISS following safety scare Digital Trends Tina Forte Clueless AOC is out of touch Prime News
Candidate for U.S. Representative in New York, Tina Forte calls out opponent Alexandria Ocasio-Cortez for her refusal to debate, her radical leftist policies... Read more >> What's the Best Shielding to Protect Astronauts on Mars?New research shows that the best way to protect future Martian astronauts from deadly solar radiation is as simple as can be. For good shielding, they just need to put as much stuff between them and the sky as possible. We are constantly bombarded by high energy subatomic particles. One source of these particles is … Continue reading 'What’s the Best Shielding to Protect Astronauts on Mars ?' PaulMattSutter Water and caves? PaulMattSutter Lead pants. Curiosity Arrives in a Salty Region of Mars. Was it Left Over From a Dying Sea?The Curiosity rover has now reached its primary target on Mount Sharp on Mars , the mountain in the middle of Gale Crater the rover has been climbing since 2014. This target is not the summit, but a region over 600 meters (2,000 feet) up the mountain that planetary geologists have long anticipated reaching. Known as … Continue reading 'Curiosity Arrives in a Salty Region of Mars . Was it Left Over From a Dying Sea?' Aluminium alloy could boost spacecraft radiation shielding 100-foldAn aluminium alloy that is 100 times more resistant to radiation damage than a common spacecraft material could be used to improve shielding in crew capsules or build houses on Mars . Might need it for our own houses soon. Continue reading Subscribe today with a 12-week introductory offer - NO I've seen Mars, it's a shith*le. Earth still my favorite planet. NASA to restart spacewalks at ISS following safety scare Digital TrendsNASA has given the green light to restart U.S.-led spacewalks outside the ISS following a serious incident that occurred during a spacewalk in March. To get machines onto Mars, NASA has been deploying various landing methods that over the years have included air bags, parachutes, and jetpacks.Get the ad-free experience for life On the surface of the Earth we don’t have a lot to worry about.treacherous, narrow sand-lined pass to reach the sought-after region that – from orbital data – appear to be enriched with salty minerals.shielding in crew capsules or build houses on Mars. Indeed, spectacular high-definition footage captured last year showed how the space agency deployed parachutes and jetpacks to get its Perseverance rover safely onto the surface of the red planet. Now, the Mars team at NASA’s Jet Propulsion Laboratory (JPL) in Southern California is testing a fourth method of getting apparatus onto the martian surface — using a deliberate crash landing. That said, there is on average one high energy particle passing through your body every single second . A video (below) released this week shows the JPL team testing its Simplified High Impact Energy Landing Device (SHIELD) lander concept, which could offer future mission planners a low-cost way of reaching Mars. Then the rover began climbing, and along the way finding progressively younger rocks that serve as a record on how Mars has evolved from a wet, habitable planet to a cold desert environment. NASA Tests Ways to Crash Land on Mars As you can see in the footage, SHIELD uses a collapsible, accordion-like base to absorb the energy of a hard landing. This is because they have the ability to snip apart DNA strands and ionize molecules within your cells. In the test, SHIELD was sent hurtling toward the ground from the top of a nearly 90-foot-tall (27-meter-tall) tower. To fully test the integrity of the design, SHIELD landed on a steel plate to ensure the impact was even harder than what it would experience on Mars. This poses a real risk to long duration space missions like those to the .” The rovers Mars Hand Lens Imager took the inset image. That accordion-like base clearly takes a heavy hit, crumpling as it smashes onto the plate at 110 mph (177 kph). But to the team’s delight, the components inside SHIELD, which included a smartphone, remained intact. A new study has determined the best way to provide shielding for our future Martian crews. While SHIELD may not be ideal for getting something as large and delicate as a car-sized rover onto the surface of Mars, the method could certainly be used to get smaller and more robust science apparatus to the distant planet. Credit: NASA/JPL-Caltech/MSSS Now at the sulfate-bearing unit, the rover team has already used the jackhammering rotary drill at the end of its 2-meter (7-foot) arm to pulverize rock samples for analysis. As JPL continues to test and refine SHIELD, hopefully it won’t be too long before we hear about a Mars mission that plans to deploy the device for real. They found that compounds rich in hydrogen, like water, polyethylene, and liquid hydrogen performed the best. Editors' Recommendations .