Artemis draws back her bow afresh. After scrubbing two launch attempts in rapid succession, NASA has set a new launch window for its Space Launch System’s Artemis 1 mission to the moon.
Including the scrubbed launch attempts from the past two weeks, NASA still has never done a successful test of the SLS rocket’s cryofuel systems. But it’s hoping to change that record, starting next week. The agency has planned a “kick-start bleed test” demonstration that will allow teams to confirm the hydrogen leak really has been repaired. It will also try out new propellant loading procedures designed to reduce thermal and pressure-related stress on the system, and evaluate “pre-pressurization procedures.” (Say that five times fast!)
During countdown, engineers “kick-start” thermal conditioning on the SLS rocket’s four RS-25 engines by pre-chilling them. This entails “bleeding off” a trickle of liquid hydrogen to the engines, while also filling the core stage tank. Leaks in the hydrogen system, along with a temperature sensor that said Engine no. 3 was too warm, caused the agency to scrub the Aug. 29 launch attempt during countdown.
The agency has outlined a new date for the fueling demonstration: Sept. 21. If all goes well, the SLS will launch during a 70-minute window that opens Sept. 27 at 11:37 AM EDT. However, for all the reasons, the agency has a backup launch date on Oct. 2.
Over the weekend, Artemis I teams completed repairs on the area of a hydrogen leak. NASA said in a blog post, “Engineers reconnected the ground- and rocket-side plates on the quick disconnect for the liquid hydrogen fuel feed line, where two seals were replaced last week. This week, teams will conduct tests at ambient conditions to ensure there is a tight bond between the two plates before testing again during the cryogenic tanking demonstration.” Hydrogen remains about as hard to deal with as Congress, so we’ll see if the agency can get it right in time.
‘It’s In Our DNA to Explore’
On Sept. 12, 1962, President John F. Kennedy spoke to students at Houston’s Rice University, concerning America’s nascent space program. During his remarks, Kennedy delivered an eloquent answer to the question: Why bother to go to the moon at all?
“We choose to go to the moon,” said Kennedy. “We choose to go to the moon in this decade and do the other things, not because they are easy, but because they are hard, because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one which we intend to win.”
Kennedy spoke into an atmosphere of profound tension amid the Sputnik panic. His bold idealism stood at odds with the pale underbelly of Cold War realpolitik. At the time, the nation’s newly-minted National Aeronautics and Space Administration was just getting its feet under itself, and it needed money — fast. Sixty years later, NASA administrator Bill Nelson and other NASA officials gathered at Rice University to commemorate Kennedy’s historic speech. Where Kennedy first stood up and asked America to give its blessing to “a giant rocket … on an untried mission to an unknown celestial body,” Nelson asked a weary and skeptical nation to keep the faith. Then, as now, NASA is about more than politics, or money, or primacy in space. It’s about remembering to look to the skies in the face of fear.
“We will launch when we are ready,” Nelson said at the Houston event. “But mark my words, we are going. When the final go is given, Artemis I will roar to life and soar to the moon. And every observation we make and every lesson we learn on this first Artemis journey prepares us and the way for humans to venture even further.”
“Ladies and gentlemen, Mars is calling. Why? Because it’s in our DNA to explore.”
Tonga volcano blast was unusual, could even warm the Earth – Kelowna Capital News – Kelowna Capital News
When an undersea volcano erupted in Tonga in January, its watery blast was huge and unusual — and scientists are still trying to understand its impacts.
The volcano, known as Hunga Tonga-Hunga Ha’apai, shot millions of tons of water vapor high up into the atmosphere, according to a study published Thursday in the journal Science.
The researchers estimate the eruption raised the amount of water in the stratosphere — the second layer of the atmosphere, above the range where humans live and breathe — by around 5%.
Now, scientists are trying to figure out how all that water could affect the atmosphere, and whether it might warm Earth’s surface over the next few years.
“This was a once-in-a-lifetime event,” said lead author Holger Voemel, a scientist at the National Center for Atmospheric Research in Colorado.
Big eruptions usually cool the planet. Most volcanoes send up large amounts of sulfur, which blocks the sun’s rays, explained Matthew Toohey, a climate researcher at the University of Saskatchewan who was not involved in the study.
The Tongan blast was much soggier: The eruption started under the ocean, so it shot up a plume with much more water than usual. And since water vapor acts as a heat-trapping greenhouse gas, the eruption will probably raise temperatures instead of lowering them, Toohey said.
It’s unclear just how much warming could be in store.
Karen Rosenlof, a climate scientist at the National Oceanic and Atmospheric Administration who was not involved with the study, said she expects the effects to be minimal and temporary.
“This amount of increase might warm the surface a small amount for a short amount of time,” Rosenlof said in an email.
The water vapor will stick around the upper atmosphere for a few years before making its way into the lower atmosphere, Toohey said. In the meantime, the extra water might also speed up ozone loss in the atmosphere, Rosenlof added.
But it’s hard for scientists to say for sure, because they’ve never seen an eruption like this one.
The stratosphere stretches from around 7.5 miles to 31 miles (12 km to 50 km) above Earth and is usually very dry, Voemel explained.
Voemel’s team estimated the volcano’s plume using a network of instruments suspended from weather balloons. Usually, these tools can’t even measure water levels in the stratosphere because the amounts are so low, Voemel said.
Another research group monitored the blast using an instrument on a NASA satellite. In their study, published earlier this summer, they estimated the eruption to be even bigger, adding around 150 million metric tons of water vapor to the stratosphere — three times as much as Voemel’s study found.
Voemel acknowledged that the satellite imaging might have observed parts of the plume that the balloon instruments couldn’t catch, making its estimate higher.
Either way, he said, the Tongan blast was unlike anything seen in recent history, and studying its aftermath may hold new insights into our atmosphere.
—Maddie Burakoff, The Associated Press
NASA is slamming a spacecraft into an asteroid on Monday to test planetary defence – CBC.ca
On Monday, in what seems like a scene out of a science fiction movie, NASA will slam a spacecraft into a distant asteroid to see whether it can nudge its orbit — all in an effort to test a way to protect Earth from any potential future threats.
The good news is that there’s no need to panic: The asteroid, which is part of a binary — or two-bodied — system, is not a threat to our planet, and there are no known ones that are headed our way for at least the next 100 years. However, space agencies like the U.S. National Aeronautics and Space Administration want to be prepared should there ever be a threat.
NASA’s Double Asteroid Redirection Test (DART) is testing a way in which a spacecraft may be able to nudge an asteroid on a collision course with Earth out of its orbit.
At 7:14 p.m. ET on Monday, the refrigerator-sized spacecraft will plunge itself into Dimorphos — a moonlet that orbits its larger companion, Didymos — at roughly 6.6 km/s.
The goal isn’t to knock Dimorphos out of orbit but rather to change its 12-hour orbit around Didymos by 10 minutes. This means that scientists will know within roughly 12 hours whether they were successful.
So why target a binary asteroid system rather than a single asteroid to see whether you can change its orbit around the sun?
“A binary system was perfect for this test,” said Mallory DeCoster, a senior scientist at Johns Hopkins University’s Applied Physics Laboratory in Maryland and part of the DART Impact Modeling Working Group.
For one, the size of Dimorphos — about 164 metres across — is perfect to illustrate whether this would be an effective way of deflecting asteroids that pose a threat to Earth. Didymos is 780 metres across.
“But then the other piece is, if we were to impact a single asteroid, in order to characterize if we changed its orbit, we would have to wait until it completed its orbit around the sun, which could take many, many years.”
The other advantage is that the binary system is relatively close to us, astronomically speaking, at just 11 million kilometres away.
NASA’s Center for Near-Earth Object Studies says that more than 90 per cent of near-Earth objects (NEOs) bigger than one kilometre have already been discovered. But that doesn’t mean we’re out of the woods when it comes to Potentially Hazardous Asteroids (PHAs).
In 2013, the Chelyabinsk asteroid — which was roughly 20 metres in diameter— exploded over parts of Russia, injuring about 1,000 people and serving as a reminder of how even a small asteroid can be dangerous.
Basically, Earth flies through a shooting gallery in space. There are small chunks of debris that burn up in our atmosphere as meteors; bigger ones, like Chelyabinsk; and then even bigger ones that can be catastrophic — all left over from the formation of our solar system.
Mike Daly, a professor at York University’s Lassonde School of Engineering in Toronto and a co-investigator on DART, said one of the most popular concepts is deflecting asteroids before they become a real threat. But that means we need to have advance warning that one is headed our way.
“So the simplest method is the one that DART is doing, which is essentially to take a spacecraft at high speed and crash it into the asteroid and use that transfer of the energy from the spacecraft to the asteroid to move it along,” he said.
However, the science behind asteroid deflection in this manner is about more than just the combination of the spacecraft’s size and incredibly high speed, called a hypervelocity impact.
“In a hypervelocity impact, you induce this pressure wave into the target that causes a lot of new physics to happen,” Johns Hopkins University’s DeCoster said.
“So what will happen, or what we think will happen, is that the size of the spacecraft might actually not matter that much. It might actually be: How does the asteroid respond to this pressure wave that is induced due to the hypervelocity impact? And we think that it will likely spew out a lot of material in the form of ejecta. And this ejecta might actually have a major component for changing the orbit. So much ejecta might get spewed out that that piece might matter more than the incoming energy from the spacecraft in changing its orbit.”
The DART team hopes that an onboard camera, called DRACO, will show the close approach and then suddenly go black, which would be indicative of an impact.
But there’s a straggler tagging along behind DART, by about three minutes: the Italian Space Agency’s Light Italian Cubesat for Imaging of Asteroids, or LICIACube. Its job is to photograph the impact, study the plume of ejecta and help determine the morphology of the asteroid, as they can be made of iron, rock or just rocky clumps held together by gravity.
As this is the first test of a form of planetary defence, scientists are eagerly anticipating not only the impact of the event itself but what they will learn from it and, most importantly, what this may mean for the future of protecting Earth in the future. Telescopes from around the world will be observing the event and collecting followup data.
“We’re really the first generation that can protect ourselves from these potentially catastrophic impacts,” York University’s Daly said. “And, you know, fortunately the really catastrophic ones don’t happen very often, but they could happen, and never before have we been able to change our fate. So I think it’s really up to us, given the potentially large consequences of not paying attention and our ability to do it.”
The event will be broadcast on NASA TV, which is available online and through its app.
‘Planetary defence’: NASA targets asteroid in space collision – Al Jazeera English
After NASA deliberately smashes a car-sized spacecraft into an asteroid next week, it will be up to the European Space Agency’s Hera mission to investigate the “crime scene” and uncover the secrets of these potentially devastating space rocks.
NASA’s Double Asteroid Redirection Test (DART) aims to collide with the asteroid moonlet Dimorphos on Monday night, hoping to slightly alter its trajectory – the first time such an operation has been attempted.
While Dimorphos is 11 million kilometres (6.8 million miles) away and poses no threat to Earth, the mission is a test run in case the world someday needs to deflect an asteroid from heading our way.
Astronomers around the world will watch DART’s impact and its effect will be closely followed to see if the mission passed the test.
The European Space Agency’s Hera mission, named after the ancient Greek queen of the gods, will follow in its footsteps.
The Hera spacecraft is planned to launch in October 2024, aiming to arrive at Dimorphos in 2026 to measure the exact impact DART had on the asteroid.
Scientists are not only excited to see DART’s crater, but also to explore an object very much out of this world.
‘A new world’
Dimorphos, which orbits a larger asteroid Didymos as they hurtle together through space, provides not only a “perfect testing opportunity for a planetary defence experiment, but it is also a completely new environment”, Hera Mission Manager Ian Carnelli said.
Hera will be loaded with cameras, spectrometers, radars and even toaster-sized nano-satellites to measure the asteroid’s shape, mass, chemical composition and more.
NASA’s Bhavya Lal said it was critically important to understand the size and composition of such asteroids.
“If an asteroid is made up of, for example, loose gravel, approaches to disrupt it may be different than if it was metal or some other kind of rock,” she told the International Astronautical Congress in Paris this week.
So little is known about Dimorphos that scientists will discover “a new world” at the same time as the public on Monday, Hera mission Principal Investigator Patrick Michel said.
“Asteroids are not boring space rocks – they are super exciting because they have a great diversity” in size, shape and composition, Michel said.
Because they have low gravity compared with Earth, matter there could behave completely differently than expected. “Unless you touch the surface, you cannot know the mechanical response,” he said.
‘Behaved almost like fluid’
For example, when a Japanese probe dropped a small explosive near the surface of the Ryugu asteroid in 2019, it was expected to make a crater of two to three metres. Instead, it blasted a 50-metre hole.
“There was no resistance,” Michel said. “The surface behaved almost like a fluid [rather than solid rock]. How weird is that?”
One way the Hera mission will test Dimorphos will be to land a nano-satellite on its surface, in part to see how much it bounces.
Binary systems such as Dimorphos and Didymos represent about 15 percent of known asteroids, but have not yet been explored.
With a diameter of just 160 metres – around the size of the Great Pyramid of Giza – Dimorphos will also be the smallest asteroid ever studied.
Learning about the impact of DART is not only important for planetary defence, Michel said, but also for understanding the history of our solar system, where most cosmic bodies were formed through collisions and are now riddled with craters.
That is where DART and Hera could shine a light not just on the future but on the past.
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