- Helldivers 2 update raises level cap, adds planetary hazards Polygon
- Helldivers 2 Patch 01.000.200 Makes Significant Balance Changes, Adds More Planetary Hazards IGN
- New Helldivers 2 patch unleashes blizzards and sandstorms, and quietly increases the level cap to help you manage democracy even harder Gamesradar
- Huge ‘Helldivers 2’ Patch: New Level Cap, Massive Nerfs And Buffs Forbes
- Helldivers 2’s new balance update softens those annoying civilian defences and stratagem cooldown modifiers, buffs heavy armour, and increases the level cap to 150 PC Gamer
Tag Archives: Planetary
‘Helldivers 2’ Patch Notes: Exosuit Fixes, Planetary Hazard Nerfs And More – Forbes
- ‘Helldivers 2’ Patch Notes: Exosuit Fixes, Planetary Hazard Nerfs And More Forbes
- After calling flying bugs “propaganda” and blue lasers “not real”, Helldivers 2 director crumbles as one soldier captures both in a single screenshot Gamesradar
- Helldivers 2 Patch 1.000.103 Nerfs Planet Hazards, Patrols Spawning on Players, and More IGN
- Helldivers 2 player photographs two myths—flying bugs and blue lasers—at the same time, like getting a shot of Bigfoot next to a UFO PC Gamer
- Helldivers 2 Patch Adddresses The Game’s Exploding Mech Problem GameSpot
Sam Altman just took a nuclear energy startup public for $500 million. Its CEO wants to provide ‘energy at planetary scales for a billion-plus years’ – Fortune
- Sam Altman just took a nuclear energy startup public for $500 million. Its CEO wants to provide ‘energy at planetary scales for a billion-plus years’ Fortune
- Oklo, an Advanced Fission Technology Company, to Go Public via Merger with AltC Acquisition Corp. BusinessWire
- OpenAI’s Sam Altman Is Taking a Nuclear-Energy Startup Public – WSJ The Wall Street Journal
- OpenAI CEO Sam Altman to take nuclear energy startup Oklo public Yahoo Finance
- Nuclear fission start-up backed by Sam Altman to go public Financial Times
- View Full Coverage on Google News
Asteroid’s sudden flyby shows blind spot in planetary threat detection
WASHINGTON, Jan 29 (Reuters) – The discovery of an asteroid the size of a small shipping truck mere days before it passed Earth on Thursday, albeit one that posed no threat to humans, highlights a blind spot in our ability to predict those that could actually cause damage, astronomers say.
NASA for years has prioritized detecting asteroids much bigger and more existentially threatening than 2023 BU, the small space rock that streaked by 2,200 miles from the Earth’s surface, closer than some satellites. If bound for Earth, it would have been pulverized in the atmosphere, with only small fragments possibly reaching land.
But 2023 BU sits on the smaller end of a size group, asteroids 5-to-50 meters in diameter, that also includes those as big as an Olympic swimming pool. Objects that size are difficult to detect until they wander much closer to Earth, complicating any efforts to brace for one that could impact a populated area.
The probability of an Earth impact by a space rock, called a meteor when it enters the atmosphere, of that size range is fairly low, scaling according to the asteroid’s size: a 5-meter rock is estimated to target Earth once a year, and a 50-meter rock once every thousand years, according to NASA.
But with current capabilities, astronomers can’t see when such a rock targets Earth until days prior.
“We don’t know where most of the asteroids are that can cause local to regional devastation,” said Terik Daly, a planetary scientist at the Johns Hopkins Applied Physics Laboratory.
The roughly 20-meter meteor that exploded in 2013 over Chelyabinsk, Russia is a once-every-100-years event, according to NASA’s Jet Propulsion Laboratory. It created a shockwave that shattered tens of thousands of windows and caused $33 million in damage, and no one saw it coming before it entered Earth’s atmosphere.
Some astronomers consider relying only on statistical probabilities and estimates of asteroid populations an unnecessary risk, when improvements could be made to NASA’s ability to detect them.
“How many natural hazards are there that we could actually do something about and prevent for a billion dollars? There’s not many,” said Daly, whose work focuses on defending Earth from hazardous asteroids.
AVOIDING A REALLY BAD DAY
One major upgrade to NASA’s detection arsenal will be NEO Surveyor, a $1.2 billion telescope under development that will launch nearly a million miles from Earth and surveil a wide field of asteroids. It promises a significant advantage over today’s ground-based telescopes that are hindered by daytime light and Earth’s atmosphere.
That new telescope will help NASA meet a goal assigned by Congress in 2005: detect 90% of the total expected amount of asteroids bigger than 140 meters, or those big enough to destroy anything from a region to an entire continent.
“With Surveyor, we’re really focusing on finding the one asteroid that could cause a really bad day for a lot of people,” said Amy Mainzer, NEO Surveyor principal investigator. “But we’re also tasked with getting good statistics on the smaller objects, down to about the size of the Chelyabinsk object.”
NASA has fallen years behind on its congressional goal, which was ordered for completion by 2020. The agency proposed last year to cut the telescope’s 2023 budget by three quarters and a two-year launch delay to 2028 “to support higher-priority missions” elsewhere in NASA’s science portfolio.
Asteroid detection gained greater importance last year after NASA slammed a refrigerator-sized spacecraft into an asteroid to test its ability to knock a potentially hazardous space rock off a collision course with Earth.
The successful demonstration, called the Double Asteroid Redirection Test (DART), affirmed for the first time a method of planetary defense.
“NEO Surveyor is of the utmost importance, especially now that we know from DART that we really can do something about it,” Daly said.
“So by golly, we gotta find these asteroids.”
Reporting by Joey Roulette; Editing by Andrea Ricci
Our Standards: The Thomson Reuters Trust Principles.
Asteroid’s sudden flyby shows blind spot in planetary threat detection
By Joey Roulette
WASHINGTON (Reuters) – The discovery of an asteroid the size of a small shipping truck mere days before it passed Earth on Thursday, albeit one that posed no threat to humans, highlights a blind spot in our ability to predict those that could actually cause damage, astronomers say.
NASA for years has prioritized detecting asteroids much bigger and more existentially threatening than 2023 BU, the small space rock that streaked by 2,200 miles from the Earth’s surface, closer than some satellites. If bound for Earth, it would have been pulverized in the atmosphere, with only small fragments possibly reaching land.
But 2023 BU sits on the smaller end of a size group, asteroids 5-to-50 meters in diameter, that also includes those as big as an Olympic swimming pool. Objects that size are difficult to detect until they wander much closer to Earth, complicating any efforts to brace for one that could impact a populated area.
The probability of an Earth impact by a space rock, called a meteor when it enters the atmosphere, of that size range is fairly low, scaling according to the asteroid’s size: a 5-meter rock is estimated to target Earth once a year, and a 50-meter rock once every thousand years, according to NASA.
But with current capabilities, astronomers can’t see when such a rock targets Earth until days prior.
“We don’t know where most of the asteroids are that can cause local to regional devastation,” said Terik Daly, a planetary scientist at the Johns Hopkins Applied Physics Laboratory.
The roughly 20-meter meteor that exploded in 2013 over Chelyabinsk, Russia is a once-every-100-years event, according to NASA’s Jet Propulsion Laboratory. It created a shockwave that shattered tens of thousands of windows and caused $33 million in damage, and no one saw it coming before it entered Earth’s atmosphere.
Some astronomers consider relying only on statistical probabilities and estimates of asteroid populations an unnecessary risk, when improvements could be made to NASA’s ability to detect them.
“How many natural hazards are there that we could actually do something about and prevent for a billion dollars? There’s not many,” said Daly, whose work focuses on defending Earth from hazardous asteroids.
AVOIDING A REALLY BAD DAY
One major upgrade to NASA’s detection arsenal will be NEO Surveyor, a $1.2 billion telescope under development that will launch nearly a million miles from Earth and surveil a wide field of asteroids. It promises a significant advantage over today’s ground-based telescopes that are hindered by daytime light and Earth’s atmosphere.
That new telescope will help NASA meet a goal assigned by Congress in 2005: detect 90% of the total expected amount of asteroids bigger than 140 meters, or those big enough to destroy anything from a region to an entire continent.
“With Surveyor, we’re really focusing on finding the one asteroid that could cause a really bad day for a lot of people,” said Amy Mainzer, NEO Surveyor principal investigator. “But we’re also tasked with getting good statistics on the smaller objects, down to about the size of the Chelyabinsk object.”
NASA has fallen years behind on its congressional goal, which was ordered for completion by 2020. The agency proposed last year to cut the telescope’s 2023 budget by three quarters and a two-year launch delay to 2028 “to support higher-priority missions” elsewhere in NASA’s science portfolio.
Asteroid detection gained greater importance last year after NASA slammed a refrigerator-sized spacecraft into an asteroid to test its ability to knock a potentially hazardous space rock off a collision course with Earth.
The successful demonstration, called the Double Asteroid Redirection Test (DART), affirmed for the first time a method of planetary defense.
“NEO Surveyor is of the utmost importance, especially now that we know from DART that we really can do something about it,” Daly said.
“So by golly, we gotta find these asteroids.”
(Reporting by Joey Roulette; Editing by Andrea Ricci)
Astronomers Discover Oldest Planetary Debris in Our Galaxy – Remnants of Destroyed Solar System
Artist’s impression of the old white dwarfs WDJ2147-4035 and WDJ1922+0233 surrounded by orbiting planetary debris, which will accrete onto the stars and pollute their atmospheres. WDJ2147-4035 is extremely red and dim, while WDJ1922+0233 is unusually blue. Credit: University of Warwick/Dr. Mark Garlick
- A new study puts an age to a faint
Most stars, including those like our Sun, will eventually turn into white dwarfs. A white dwarf is a star that has used up all of its fuel, lost its outer layers, and is now undergoing a process of contracting and cooling. Any planets in orbit will be disrupted and, in some circumstances, destroyed during this process, and their debris will be left behind to accrete onto the surface of the white dwarf.
For this study, the team of astronomers modeled two unusual white dwarfs that were detected by the GAIA space observatory of the European Space Agency. Both stars are polluted by planetary debris. One of them was found to be unusually blue, while the other is the faintest and reddest found to date in the local galactic neighborhood. Both were subjected to further analysis by the team of scientists.
The astronomers used spectroscopic and photometric data from GAIA, the Dark Energy Survey, and the X-Shooter instrument at the European Southern Observatory to calculate how long the stars have been cooling for. They found that the ‘red’ star WDJ2147-4035 is around 10.7 billion years old, of which 10.2 billion years have been spent cooling as a white dwarf.
Spectroscopy involves analyzing the light from the star at different wavelengths. This can detect when elements in the star’s atmosphere are absorbing light at different colors and helps determine what elements those are and how much is present. By analyzing the spectrum from WDJ2147-4035, the team found the presence of the metals sodium, lithium, and potassium and tentatively detected carbon accreting onto the star – making this the oldest metal-polluted white dwarf discovered so far.
The second ‘blue’ star WDJ1922+0233 is only slightly younger than WDJ2147-4035 and was polluted by planetary debris of a similar composition to the Earth’s continental crust. The science team concluded that the blue color of WDJ1922+0233, despite its cool surface temperature, is caused by its unusual mixed helium-hydrogen atmosphere.
The debris found in the otherwise nearly pure-helium and high-gravity atmosphere of the red star WDJ2147-4035 are from an old planetary system that survived the evolution of the star into a white dwarf, leading the astronomers to conclude that this is the oldest planetary system around a white dwarf discovered in the Milky Way.
Lead author Abbigail Elms, a PhD student in the
“We’re finding the oldest stellar remnants in the Milky Way that are polluted by once Earth-like planets. It’s amazing to think that this happened on the scale of ten billion years, and that those planets died way before the Earth was even formed.”
Astronomers can also use the star’s spectra to determine how quickly those metals are sinking into the star’s core, which allows them to look back in time and determine how abundant each of those metals was in the original planetary body. By comparing those abundances to astronomical bodies and planetary material found in our own solar system, we can guess at what those planets would have been like before the star died and became a white dwarf – but in the case of WDJ2147-4035, that has proven challenging.
Abbigail explains: “The red star WDJ2147-4035 is a mystery as the accreted planetary debris are very lithium and potassium-rich and unlike anything known in our own solar system. This is a very interesting white dwarf as its ultra-cool surfac
etemperature, the metals polluting it, its old age, and the fact that it is magnetic, makes it extremely rare.”Professor Pier-Emmanuel Tremblay of the Department of Physics at the University of Warwick said: “When these old stars formed more than 10 billion years ago, the universe was less metal-rich than it is now, since metals are formed in evolved stars and gigantic stellar explosions. The two observed white dwarfs provide an exciting window into planetary formation in a metal-poor and gas-rich environment that was different to the conditions when the solar system was formed.”
Reference: “Spectral analysis of ultra-cool white dwarfs polluted by planetary debris” by Abbigail K Elms, Pier-Emmanuel Tremblay, Boris T Gänsicke, Detlev Koester, Mark A Hollands, Nicola Pietro Gentile Fusillo, Tim Cunningham and Kevin Apps, 5 November 2022, Monthly Notices of the Royal Astronomical Society.
DOI: 10.1093/mnras/stac2908This research received funding from the European Research Council under the European Union’s Horizon 2020 research and innovation program, the Leverhulme Trust Grant and the UK STFC consolidated grant.
Oldest planetary debris in our galaxy found in new study
Astronomers led by the University of Warwick have identified the oldest star in our galaxy that is accreting debris from orbiting planetesimals, making it one of the oldest rocky and icy planetary systems discovered in the Milky Way.
Their findings are published today (Nov. 5) in the Monthly Notices of the Royal Astronomical Society and conclude that a faint white dwarf located 90 light years from Earth, as well as the remains of its orbiting planetary system, are over 10 billion years old.
The fate of most stars, including those like our sun, is to become a white dwarf. A white dwarf is a star that has burnt up all of its fuel and shed its outer layers and is now undergoing a process of shrinking and cooling. During this process, any orbiting planets will be disrupted and in some cases destroyed, with their debris left to accrete onto the surface of the white dwarf.
For this study the team of astronomers, led by the University of Warwick, modeled two unusual white dwarfs that were detected by the space observatory GAIA of the European Space Agency. Both stars are polluted by planetary debris, with one of them being found to be unusually blue, while the other is the faintest and reddest found to date in the local galactic neighborhood—the team subjected both to further analysis.
Using spectroscopic and photometric data from GAIA, the Dark Energy Survey and the X-Shooter instrument at the European Southern Observatory to work out how long it has been cooling for, the astronomers found that the “red” star WDJ2147-4035 is around 10.7 billion years old, of which 10.2 billion years has been spent cooling as a white dwarf.
Spectroscopy involves analyzing the light from the star at different wavelengths, which can detect when elements in the star’s atmosphere are absorbing light at different colors and helps determine what elements those are and how much is present. By analyzing the spectrum from WDJ2147-4035, the team found the presence of the metals sodium, lithium, potassium and tentatively detected carbon accreting onto the star—making this the oldest metal-polluted white dwarf discovered so far.
The second “blue” star WDJ1922+0233 is only slightly younger than WDJ2147-4035 and was polluted by planetary debris of a similar composition to the Earth’s continental crust. The science team concluded that the blue color of WDJ1922+0233, despite its cool surface temperature, is caused by its unusual mixed helium-hydrogen atmosphere.
The debris found in the otherwise nearly pure-helium and high-gravity atmosphere of the red star WDJ2147-4035 are from an old planetary system that survived the evolution of the star into a white dwarf, leading the astronomers to conclude that this is the oldest planetary system around a white dwarf discovered in the Milky Way.
Lead author Abbigail Elms, a Ph.D. student in the University of Warwick Department of Physics, said, “these metal-polluted stars show that Earth isn’t unique, there are other planetary systems out there with planetary bodies similar to the Earth. 97% of all stars will become a white dwarf and they’re so ubiquitous around the universe that they are very important to understand, especially these extremely cool ones. Formed from the oldest stars in our galaxy, cool white dwarfs provide information on the formation and evolution of planetary systems around the oldest stars in the Milky Way.”
“We’re finding the oldest stellar remnants in the Milky Way that are polluted by once Earth-like planets. It’s amazing to think that this happened on the scale of 10 billion years, and that those planets died way before the Earth was even formed.”
Astronomers can also use the star’s spectra to determine how quickly those metals are sinking into the star’s core, which allows them to look back in time and determine how abundant each of those metals were in the original planetary body. By comparing those abundances to astronomical bodies and planetary material found in our own solar system, we can guess at what those planets would have been like before the star died and became a white dwarf—but in the case of WDJ2147-4035, that has proven challenging.
Abbigail explains, “The red star WDJ2147-4035 is a mystery as the accreted planetary debris are very lithium and potassium rich and unlike anything known in our own solar system. This is a very interesting white dwarf as its ultra-cool surface temperature, the metals polluting it, its old age, and the fact that it is magnetic, makes it extremely rare.”
Professor Pier-Emmanuel Tremblay of the Department of Physics at the University of Warwick said, “when these old stars formed more than 10 billion years ago, the universe was less metal-rich than it is now, since metals are formed in evolved stars and gigantic stellar explosions. The two observed white dwarfs provide an exciting window into planetary formation in a metal poor and gas-rich environment that was different to the conditions when the solar system was formed.”
More information:
Abbigail Elms et al, Spectral analysis of ultra-cool white dwarfs polluted by planetary debris, Monthly Notices of the Royal Astronomical Society (2022). DOI: 10.1093/mnras/stac2908
Provided by
University of Warwick
Citation:
Oldest planetary debris in our galaxy found in new study (2022, November 5)
retrieved 6 November 2022
from https://phys.org/news/2022-11-oldest-planetary-debris-galaxy.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.
Results of DART Planetary Defense Test & Stunning New Webb Image
The results of
And more new imagery from the Webb Space Telescope … a few of the stories to tell you about – This Week at NASA!
Data Confirms DART Impact Changed Asteroid’s Motion
Data from the intentional impact of NASA’s DART spacecraft with asteroid Dimorphos confirm that …
“DART successfully changed the targeted asteroid’s trajectory.” — Bill Nelson, NASA Administrator
In fact, this first-ever planetary defense test altered Dimorphos’ orbit around a larger asteroid by 32 minutes, which far exceeded expectations.
The SpaceX Dragon Freedom crew ship carrying four astronauts splashes down in the Atlantic Ocean off the coast of Florida. Credit: NASA/Bill Ingalls
NASA’s
NASA’s SpaceX Crew-4 mission safely returned from the International Space Station after nearly six months of conducting research and technology demonstrations to prepare for human exploration beyond low-Earth orbit and to benefit life on Earth.
The two stars in Wolf-Rayet 140 produce shells of dust every eight years that look like rings, as seen in this image from NASA’s James Webb Space Telescope. Each ring was created when the stars came close together and their stellar winds collided, compressing the gas and forming dust. Credit: NASA, ESA, CSA, STScI, JPL-Caltech
Webb Sees Star Duo’s “Fingerprint”
A new Webb Space Telescope image shows a series of dust rings from a pair of stars. The stars’ orbits bring them together about once every eight years. So, like the rings of a tree trunk, the dust loops mark the passage of time.
NASA’s Space Launch System rocket will launch with Orion atop it from Launch Complex 39B at NASA’s modernized spaceport at Kennedy Space Center in Florida. Credit: NASA
New Target Date for Next Artemis I Launch Attempt
The next launch attempt of NASA’s Artemis I Moon mission is now targeted for November 14. The uncrewed flight test of our Space Launch System rocket and Orion spacecraft will thoroughly test all systems before making Artemis flights with astronauts.
That’s what’s up this week @NASA …
NASA’s DART spacecraft hits target asteroid in first planetary defense test
Sept 26 (Reuters) – NASA’s DART spacecraft successfully slammed into a distant asteroid at hypersonic speed on Monday in the world’s first test of a planetary defense system, designed to prevent a potential doomsday meteorite collision with Earth.
Humanity’s first attempt to alter the motion of an asteroid or any celestial body played out in a NASA webcast from the mission operations center outside Washington, D.C., 10 months after DART was launched.
The livestream showed images taken by DART’s camera as the cube-shaped “impactor” vehicle, no bigger than a vending machine with two rectangular solar arrays, streaked into the asteroid Dimorphos, about the size of a football stadium, at 7:14 p.m. EDT (2314 GMT) some 6.8 million miles (11 million km) from Earth.
Register now for FREE unlimited access to Reuters.com
The $330 million mission, some seven years in development, was devised to determine if a spacecraft is capable of changing the trajectory of an asteroid through sheer kinetic force, nudging it off course just enough to keep Earth out of harm’s way.
Whether the experiment succeeded beyond accomplishing its intended impact will not be known until further ground-based telescope observations of the asteroid next month. But NASA officials hailed the immediate outcome of Monday’s test, saying the spacecraft achieved its purpose.
“NASA works for the benefit of humanity, so for us it’s the ultimate fulfillment of our mission to do something like this – a technology demonstration that, who knows, some day could save our home,” NASA Deputy Administrator Pam Melroy, a retired astronaut, said minutes after the impact.
DART, launched by a SpaceX rocket in November 2021, made most of its voyage under the guidance of NASA’s flight directors, with control handed over to an autonomous on-board navigation system in the final hours of the journey.
Monday evening’s bullseye impact was monitored in near real time from the mission operations center at the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland.
Cheers erupted from the control room as second-by-second images of the target asteroid, captured by DART’s onboard camera, grew larger and ultimately filled the TV screen of NASA’s live webcast just before the signal was lost, confirming the spacecraft had crashed into Dimorphos.
DART’s celestial target was an oblong asteroid “moonlet” about 560 feet (170 meters) in diameter that orbits a parent asteroid five times larger called Didymos as part of a binary pair with the same name, the Greek word for twin.
Neither object presents any actual threat to Earth, and NASA scientists said their DART test could not create a new hazard by mistake.
Dimorphos and Didymos are both tiny compared with the cataclysmic Chicxulub asteroid that struck Earth some 66 million years ago, wiping out about three-quarters of the world’s plant and animal species including the dinosaurs.
NASA’s Double Asteroid Redirection Test (DART) spacecraft prior to impact at the Didymos binary asteroid system showed in this undated illustration handout. NASA/Johns Hopkins/Handout via REUTERS
Smaller asteroids are far more common and present a greater theoretical concern in the near term, making the Didymos pair suitable test subjects for their size, according to NASA scientists and planetary defense experts. A Dimorphos-sized asteroid, while not capable of posing a planet-wide threat, could level a major city with a direct hit.
Also, the two asteroids’ relative proximity to Earth and dual configuration make them ideal for the first proof-of-concept mission of DART, short for Double Asteroid Redirection Test.
ROBOTIC SUICIDE MISSION
The mission represented a rare instance in which a NASA spacecraft had to crash to succeed. DART flew directly into Dimorphos at 15,000 miles per hour (24,000 kph), creating the force scientists hope will be enough to shift its orbital track closer to the parent asteroid.
APL engineers said the spacecraft was presumably smashed to bits and left a small impact crater in the boulder-strewn surface of the asteroid.
The DART team said it expects to shorten the orbital path of Dimorphos by 10 minutes but would consider at least 73 seconds a success, proving the exercise as a viable technique to deflect an asteroid on a collision course with Earth – if one were ever discovered.
A nudge to an asteroid millions of miles away years in advance could be sufficient to safely reroute it.
Earlier calculations of the starting location and orbital period of Dimorphos were made during a six-day observation period in July and will be compared with post-impact measurements made in October to determine whether the asteroid budged and by how much.
Monday’s test also was observed by a camera mounted on a briefcase-sized mini-spacecraft released from DART days in advance, as well as by ground-based observatories and the Hubble and Webb space telescopes, but images from those were not immediately available.
DART is the latest of several NASA missions in recent years to explore and interact with asteroids, primordial rocky remnants from the solar system’s formation more than 4.5 billion years ago.
Last year, NASA launched a probe on a voyage to the Trojan asteroid clusters orbiting near Jupiter, while the grab-and-go spacecraft OSIRIS-REx is on its way back to Earth with a sample collected in October 2020 from the asteroid Bennu.
The Dimorphos moonlet is one of the smallest astronomical objects to receive a permanent name and is one of 27,500 known near-Earth asteroids of all sizes tracked by NASA. Although none are known to pose a foreseeable hazard to humankind, NASA estimates that many more asteroids remain undetected in the near-Earth vicinity.
(This story corrects name in paragraph 6 to Pam from Palm)
Register now for FREE unlimited access to Reuters.com
Reporting by Steve Gorman in Los Angeles; Additional reporting by Joey Roulette in Los Angeles; Editing by Sandra Maler and Stephen Coates
Our Standards: The Thomson Reuters Trust Principles.
Nasa to crash spacecraft into asteroid in planetary defense test | Nasa
A multimillion-dollar spacecraft will collide head-on with an asteroid the size of a football stadium in an unprecedented full-scale planetary defense test by the US space agency Nasa on Monday evening.
The 570kg (1257lb) spacecraft named Dart – short for Double Asteroid Redirection Test – was set to crash at high speed into the asteroid Dimorphos and self-destruct about 7pm ET.
The collision between the asteroid and the spaceship – which is roughly the size of a vending machine with two rectangular solar arrays – is supposed to unfold about 6.8m miles (11m km) from Earth.
The test aims to determine if intentionally crashing a spacecraft into an asteroid is an effective way to change its course and avert a doomsday scenario for Earth. A relatively similar strategy involving a nuclear missile rather than an unmanned spacecraft failed during a key point in the plot of Morgan Freeman’s fictional 1998 planetary disaster film Deep Impact.
Dart’s planned self-destruction poses no threats to humanity, Nasa spokesperson Glen Nagle said.
Nagle said Monday’s test was the first of a series of “planetary protection missions”.
“We want to have a better chance than the dinosaurs had 65m years ago,” Nagle said, referring to the theory that the prehistoric reptiles which once ruled Earth went extinct when an asteroid struck the planet.
Nagle added: “All they could do is look up and go, ‘Oh asteroid.’”
While no known asteroid larger than 459ft (140 meters) in size has a significant chance of hitting Earth for the next century, it’s estimated that only 40% of those asteroids have been identified so far.
Cameras and telescopes will watch the crash, but it will take days or even weeks to find out if it actually altered the asteroid’s orbit.
The $325m planetary defense test culminating Monday began with Dart’s launch last fall.
Reuters and the Associated Press contributed reporting.