Minggu, 30 April 2023

Mars rover Zhurong finds evidence of water at red planet's low latitudes - China Daily

File photo released on March 4, 2021 by the China National Space Administration shows a high-resolution image of Mars captured by the country's Tianwen-1 probe. [Photo/Xinhua]

BEIJING -- China's Mars rover Zhurong has provided key observational evidence of liquid water at low Martian latitudes, the warmest regions on the red planet, according to a new study published in the journal Science Advances this week.

Previous studies found evidence of a large amount of liquid water on early Mars, but dramatic climate changes led to very low pressure and water vapor content, making it difficult for liquid water to exist sustainably on the present-day planet. Scientists believe that water can now only exist there in solid or gaseous forms.

However, droplets observed on the robotic arm of NASA's Phoenix Mars lander prove that salty liquid water can appear in the summer at high latitudes on Mars. Numerical simulations also suggest that climatic conditions suitable for liquid water can briefly occur in certain areas of Mars. But evidence of liquid water at the planet's low latitudes, where surface temperatures are highest, is still lacking.

Findings from the Zhurong rover now fill that gap.

Zhurong is part of China's Tianwen-1 Mars exploration mission. It landed on the Utopia Planitia, a vast plain in the northern hemisphere of Mars, on May 15, 2021. It has traveled approximately 2 kilometers and relayed a torrent of data to Earth before switching to dormant mode. It's landing site was in a low-latitude region of Mars.

A group of more than 20 researchers at the Chinese Academy of Sciences has since used data obtained by cameras and detectors aboard the rover to study the different-scale surface features and material compositions of dunes in the landing area.

They found some important morphological features on the dune surfaces, such as crusts, cracks, granulation, polygonal ridges and a strip-like trace. Data analysis revealed that the dune surficial layer is rich in minerals including hydrated sulfates, hydrated silica and ferrihydrite.

"According to the measured meteorological data from Zhurong and other Mars rovers, we inferred that these dune surface characteristics are related to the involvement of liquid saline water formed by the subsequent melting of frost and snow falling on the salt-containing dune surfaces when cooling occurs," said lead researcher Qin Xiaoguang, who works in the academy's Institute of Geology and Geophysics.

Qin explained that salts in dunes cause frost and snow to melt at low temperatures to form salty liquid water. When the saline water dries, the precipitated hydrated minerals bind sand particles to form sand aggregates and crust. The crust is then cracked further by shrinkage. The process later repeats, resulting in the ridges and strip-like trace on the crust surface.

In the study, researchers estimated the dunes Zhurong found were formed about 400,000 to 1.4 million years ago. The exchange of water vapor between the higher and lower latitudes during this period led to repeated humid environments at low Martian latitudes, followed by the frequent occurrence of salty water when temperatures dropped in the region.

Qin said the discovery provides key proof of liquid water at Martian low latitudes, where surface temperatures are relatively warm and more suitable for life than high latitudes.

It also provides information for the design of future exploration strategies for Mars rovers. As saline water once existed at various latitudes on the surface of Mars, priority should be given to salt-tolerant microbes in future missions searching for extant life on Mars, researchers said in the study.

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2023-05-01 02:18:00Z
1973906298

Bizarre Exoplanet Breaks All the Orbital Rules - Universe Today

In our solar system, the planetary orbits all have a similar orientation. Their orbital planes vary by a few degrees, but roughly the planets all orbit in the same direction. This invariable plane as it’s known also has an orientation within a few degrees of the Sun’s rotational plane. Most planetary systems have a similar arrangement, where planetary orbits and stellar rotation are roughly aligned, but a few exoplanets defy this trend, and we aren’t entirely sure why.

Common orientation within a planetary system makes sense given how planetary systems form. The protostellar cloud out of which a star and its planets form usually has some inherent rotational momentum. As a star begins to coalesce, a protoplanetary disk forms around the star. Since the planets form within this disk, they all end up with similar orbits. Things can be more complicated with binary or multiple-star systems, but you’d expect single-star planetary systems to have an invariable plane similar to ours. However, this isn’t true for a planetary system known as WASP-131, as a recent study shows.

WASP-131 is known to have at least one planet, 131b. It’s a hot gas planet with a mass a bit less than Saturn that orbits 131 every five days. Earlier studies of 131b found the planet unusual because of how thick its atmosphere is. Although its mass is only a quarter that of Jupiter, its diameter is 20% larger than Jupiter’s. 131b has such a low density for a gas planet that it’s known as a super-puff planet.

The planet was discovered via the transit method, which means it passes in front of its star from our point of view. It’s an effective way to find exoplanets, but it can also be used to verify the rotational motion of the star. Because of stellar rotation, light coming from the region of the star rotating toward us is slightly blueshifted, and light from the region rotating away from us is slightly redshifted. This means that spectral lines from the star are blurred a bit. The effect is known as Doppler broadening. As the planet passes in front of the star, it blocks a part of the blueshifted and redshifted regions in turn. This causes the spectral lines of the star to shift a bit. This Rossiter–McLaughlin effect as it’s known allows astronomers to measure the orientation of stellar rotation.

An illustration of the Rossiter–McLaughlin effect. Credit: Wikipedia user Autiwa

When the team analyzed the rotation of WASP-131, they found it wasn’t similar to that of its planet. The orbit of 131b is tilted about 160 degrees from the rotational plane of the star, meaning that it is in a high, almost polar retrograde orbit. Of course, this raises the question of just how the planet could have gotten such an odd orbit.

One idea is a process known as the Kozai effect. Dynamical interactions between the planet, its star, and other planets in the system can cause the orbit to shift away from the invariant planet. We see this in our own solar system with Pluto and Neptune, which has tilted Pluto’s orbit over time. The Kozai effect is more pronounced with smaller planets, however, and interaction between planet and star alone isn’t enough to explain such an inclined orbit. Another possibility is a magnetic interaction between the planet and the protoplanetary disk early in its formation period.

Although the mechanism behind the odd orbit isn’t clear, it does follow a pattern seen with many hot gas exoplanets. About a quarter of them have significantly tilted orbits. It seems that these planets sometimes get way out of line.

Reference: Doyle, L., et al. “WASP-131 b with ESPRESSO I: A bloated sub-Saturn on a polar orbit around a differentially rotating solar-type star.” arXiv preprint arXiv:2304.12163 (2023).

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2023-04-30 15:24:26Z
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China plans Mars sample return mission with 6-legged drone, robot-helicopter - Interesting Engineering

Panorama of Mars acquired by China's Zhurong Mars rover.
Panorama of Mars acquired by China's Zhurong Mars rover.

CNS 

Tianwen-3, China's forthcoming Mars sample return mission, is beginning to take shape as more information comes to light. 

China intends to use its Long March 5 rockets to launch two vehicle stacks to Mars in a tandem launch sometime in the future, maybe as early as 2028, according to multiple media reports on Saturday. 

Slides from the presentation that were posted on the Chinese social media platform Weibo show a little drone that resembles a helicopter and some sort of six-legged robot, both next to details about sample collecting for Tianwen-3.

"China just might add a helicopter and 6-legged robot to Mars sample-return mission," said a Space news article.

However, "it's not yet clear whether China or the United States and Europe will be the first to bring a piece of the Red Planet back to Earth."

The combined lander and launcher is intended to land on the surface of Mars, gather and store up to 500 grams of material, and then launch back into space, as per presentation by Liu Jizhong and Hou Zengqian's presentation at the International Conference of Deep Space Sciences. 

The landing and two-stage ascent vehicles will be in one stack, while the orbiter and return craft will be in the other stack.

Meanwhile, the orbiter will circle Mars patiently, awaiting rendezvous and sample transfer with the return vehicle that will store the sample for transport to Earth.

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2023-04-30 09:48:00Z
1994248865

Sabtu, 29 April 2023

SpaceX launches 2 communications satellites, lands rocket at sea - Space.com

SpaceX launched two satellites for the telecom company SES today (April 28) and landed the rocket at sea and you can watch the action live.

A Falcon 9 rocket carrying the SES' O3b mPower 3 and 4 satellites lifted off from Florida's Cape Canaveral Space Force Station at 6:12 p.m. EDT (2212 GMT). 

The SpaceX launch came after a one-hour delay during a countdown in which a dismal weather outlook with only a 20% chance of favorable weather improved to a more encouraging 70% chance of good conditions.

Related: 8 ways that SpaceX has transformed spaceflight

SpaceX launched 2 SES communications satellites on from  Florida's Cape Canaveral Space Force Station on April 28, 2023. (Image credit: SpaceX)

The Falcon 9's first stage returned to Earth just under nine minutes after liftoff with a vertical touchdown on the SpaceX droneship Just Read the Instructions, which was be stationed in the Atlantic Ocean off the Florida coast.

"That landing marked SpaceX's 188th recovery of an orbital class rocket, including first-stage landings of Falcon 9 and Heavy," SpaceX propulsion engineer Youmei Zhou said during launch commentary.

A SpaceX Falcon 9 rocket first-stage booster nears its landing droneship Just Read The Instructions after successfully launch two SES 03b mPower satellites  into orbit from Florida on April 28, 2023. (Image credit: SpaceX)

It was the second liftoff and touchdown for this particular booster, acccording to a SpaceX mission description (opens in new tab). It previously launched Crew-6, SpaceX's most recent astronaut mission to the International Space Station for NASA.

The Falcon 9's upper stage, meanwhile, continued hauling O3b mPower 3 and 4 to medium Earth orbit. The two satellites were successfully deployed seven minutes apart about two hours after launch.

SES' two 03b mPower satellites are seen stacked atop SpaceX's Falcon 9 rocket for launch. (Image credit: SES)

Related stories:

As their names suggest, the two satellites launching today will become the third and fourth members of SES' O3b mPower constellation, which will provide low-latency communications services to customers around the word, according to Luxembourg- and France-based SES.

The 11-satellite network is being assembled at an altitude of 5,000 miles (8,000 kilometers). Two satellites are already up there — O3b mPower 1 and 2, which launched on a Falcon 9 last December. That was a landmark mission for SpaceX, the 200th orbital flight for the company since its 2002 founding. 

Friday's liftoff was the 29th of 2023 for SpaceX and its 229th launch overall. It was also the second launch of the week, following a successful launch of 46 Starlink internet satellites

The company attempted to launch its powerful Falcon Heavy rocket for the sixth time ever on the same day, but aborted that attempt about 1 minute before liftoff. The next attempt for that mission will be on April 30., weather permitting, from NASA's Pad 39A at the Kennedy Space Center in Florida.

Editor's note: This story was updated on April 29 to include more details about the successful launch of SpaceX's 03b mPower mission for SES.

Mike Wall is the author of "Out There (opens in new tab)" (Grand Central Publishing, 2018; illustrated by Karl Tate), a book about the search for alien life. Follow him on Twitter @michaeldwall (opens in new tab). Follow us on Twitter @Spacedotcom (opens in new tab) or Facebook (opens in new tab).

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2023-04-29 13:56:08Z
1971732302

Jumat, 28 April 2023

Apr 29: Apples for a warmer world, Rosalind Franklin and DNA, birds' belly canteen and more… - CBC.ca

Quirks and Quarks54:02Apples for a warmer world, Rosalind Franklin and DNA, birds’ belly canteen, moustranaut microbiome and Brian Cox on black holes


On this episode of Quirks & Quarks with Bob McDonald:

How do you like them apples? A researcher breeds climate-change tolerant fruit

Quirks and Quarks8:16How do you like them apples? A researcher breeds climate-change tolerant fruit

Through a combination of crossbreeding and selection over more than 30 years, Christopher Walsh, professor emeritus in the Department of Plant Science and Landscape Architecture at the University of Maryland, has come up with two perfect apples for a warmer world. The two new varieties are heat-tolerant, blight-resistant, and are easy to harvest. His research is part of the Maryland Tree Architecture Program.

Man in red jacket and straw hat stands beside an apple tree bearing yellow fruit
Christopher Walsh beside a yet-to-be-named new variety of heat resistant apple. The trees are also bred to be shorter to make then easier to harvest and resistant to a common disease aggravated by warmer temperatures. (Kathleen Hunt)

New documents retell the story of Rosalind Franklin's contribution to DNA science

Quirks and Quarks9:46New documents retell the story of Rosalind Franklin’s contribution to DNA science

This week marks the 70th anniversary of the publication of the groundbreaking paper in the journal Nature that described the discovery of the structure of DNA. That work led to the 1962 Nobel Prize for three scientists. But not recognized was the scientist whose data and x-ray image of DNA provided the eureka moment for the discovery. That was Rosalind Franklin, a chemist and x-ray crystallographer from Kings College, London. But today, new evidence, uncovered by Matthew Cobb, a zoologist from The University of Manchester, supports Franklin's role as an equal collaborator in the discovery. His research was published in Nature.

Black and white photo of woman looking through a microscope
Rosalind Franklin ( Henry Grant Collection/Mol/Shutterstock)

Desert birds have special belly feathers for carrying water for their chicks

Quirks and Quarks8:14Desert birds have special belly feathers for carrying water for their chicks

The African sandgrouse are uniquely adapted to the dry environments in which they live. Unlike other birds, the sandgrouse are really good at collecting water — they can soak up to 15 per cent of their weight in water with their abdominal feathers and then carry it for many kilometres back to their chicks. Lorna Gibson, Matoula S. Salapatas professor of materials science and engineering at the Massachusetts Institute of Technology, teamed up with Johns Hopkins University's Jochen Mueller to learn more about the unique structure of the sandgrouse feathers by studying them using powerful microscopes and micro CT scans. Their findings about the unique water-retaining structures in the feathers are published in the Journal of The Royal Society Interface.

An extremely magnified view of a bird feather.
The abdominal feathers of sandgrouse have unique structures that allow them to absorb and retain water. (Johns Hopkins University)

Space mice give insight into how our microbiome could protect us from bone loss

Quirks and Quarks8:12Space mice give insight into how our microbiome could protect us from bone loss

Mice who travelled to the International Space Station lost bone mass, as astronauts also do, but a new study published in Cell Reports suggests their gut bacteria might have worked to slow the process down. Joseph Bedree, then a PhD student at the University of California, Los Angeles and the Forsyth Institute, was part of the team that studied the moustranauts after they returned from their space journeys. The researchers found changes in the microbial communities that live inside the mice, which seemed to be linked to bone growth. This small step for the mouse may take scientists closer to a leap in fighting bone loss in microgravity. 

A gloved hand keeps hatches open on a medium-sized blue box
Mice that spent over two months in microgravity on the International Space Station returned with more diverse gut microbiomes than their earthling counterparts, with particular bacteria associated with bone growth. On the ISS, the mice lived in special rodent housing shown here. (NASA/Dominic Hart)

UK science star Brian Cox's new book explores how we might live in a black hole

Quirks and Quarks16:47UK science star Brian Cox’s new book explores how we might live in a black hole

Physicist Brian Cox has become a globally famous science communicator because of his gifts for making complex subjects approachable. In his latest book, Black Holes: The Key to Understanding the Universe, Cox tackles the enormous challenge of reconciling the fundamental clash of principles between gravity on a large scale and quantum theory. The professor of particle physics from the University of Manchester and the Royal Society told Quirks & Quarks host Bob McDonald how advances in his field are forcing us to consider a deeper view of reality.

A close up image of Brian Cox shows him looking off into the distance in front of a rugged dark landscape with a futuristic flying machine and a vision of space in the sky.
Particle physicist Brian Cox explores the mind bending new physics of black holes where general relativity and quantum theory collide. (Mark Harrison)

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2023-04-28 21:11:49Z
CBMiQ2h0dHBzOi8vd3d3LmNiYy5jYS9yYWRpby9xdWlya3MvcXVpcmtzLXF1YXJrcy1hcHItMjktMjAyMy0xLjY4MjYwNzDSAQA

UM Today | Research and International | UM Café Scientifique: Windows on the Universe - UM Today

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UM Today | Research and International | UM CafĂ© Scientifique: Windows on the Universe  UM Today
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2023-04-28 18:22:45Z
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What makes humans unique? Scientists compare genomes of 240 species to uncover secrets of mammalian evolution - Down To Earth Magazine

Mammals diversified when continental landmasses began drifting apart, notes study

Scientists have analysed the DNA of 240 mammalian species to provide insights into human evolution. They compared the genomes of humans and other mammals to understand more about what makes humans unique.

The analyses, published in a series of 11 papers in journal Science on April 29, 2023, were conducted by more than 150 researchers from 50 institutions. These researchers are a part of the Zoonomia project, an international collaboration focussed on uncovering new ways of understanding mammalian evolution and humans.


Also read: ‘Changing climatic conditions induce vegetation changes, which shapes human evolution’


“The human genome was sequenced more than 20 years ago. Despite that, it has been hard to understand the functional elements in the genome,” Kerstin Lindblad-Toh, professor of comparative genomics at Uppsala University, Sweden, said in a press briefing.

The human genome contains more than 20,000 genes, she added. Some 10 per cent of the genes are functional. These include genes that code proteins (instructions in the gene are used to make proteins) or regulatory elements (DNA sequences that regulate how much of the instructions in the genes are converted into a functional protein).

The international team of researchers compared 240 mammalian species, representing only 4 per cent of all mammals. They also included 50 endangered species, Elinor Karlsson, director of the Vertebrate Genomics Group at the Broad Institute of Massachusetts Institute of Technology and Harvard, said at the briefing.

Mammals comprise roughly 6,500 living species and represent over 180 million years of genome evolution.

The analysis was based on the theory that if a region in the DNA is essential for biological function, it will be preserved. This means biologically important parts of DNA do not undergo too many mutations. The researchers saw that more than 100 million sites in the DNA show little to no changes across placental mammals.

The genome also contains neutral regions where changes are expected. And then, there are regions called accelerators, where many changes occur. “This suggests that a portion of the DNA has something to do with how the species adapts to its environment,” Karlsson said.

Mammalian evolution

One paper suggested that mammals diversified when continental landmasses began drifting apart. “The diversification accelerated when the dinosaurs went extinct (Cretaceous–Paleogene extinction event, 66 million years ago),” Karlsson said. 

Another paper looked at the link between enhancers and traits such as large brains relative to body size, solitary living, and vocal learning across 222 mammals. Enhancers are parts of the DNA whose role is to regulate how much of the instructions in the DNA are copied into RNA.

Humans have larger brains relative to the size of the body. The researchers identified multiple enhancer candidates associated with this feature. Many of these enhancers sit close to mutated versions of genes that are responsible for microcephaly (baby’s head is much smaller than expected) or macrocephaly ( overly large heads) in humans.

As for solitary living, the team identified enhancers near a gene implicated in separation anxiety. They also detected enhancers linked with the evolution of vocal learning ability. 


Also read: Human evolution didn’t stop at split from chimpanzees, 155 tiny new genes identified: Study


Another paper looked at stretches of DNA called human-accelerated regions (HAR), a part of the human genome. Human HARs possess an unexpected amount of differences compared to all other mammals, raising questions about their role in making humans unique.

HARs are the fastest-evolving regions in the human genome. “Typical HAR is 5-10 times different from chimpanzees. By comparison, chimpanzee HAR sequences are nearly identical to the HAR sequences of other mammals,” Katie Pollard, professor at the University of California, San Francisco, told Down To Earth.

Most HARs are enhancers. The new study revealed that more than 30 per cent of HARs are located near DNA regions bearing significant structural differences compared to chimpanzees.

DNA folds within cells like origami. This folding can decide the area where the enhancer winds up. Consider an enhancer close to a gene involved in controlling blood hormone levels. If the DNA folds, the enhancer could end up near a gene involved in another function.

“We realised that these human-specific structural changes may have created the right environment for HARs to evolve fast in the human ancestor after remaining almost the same over millions of years of mammal evolution,” said Kathleen Keough, first author of the study and former postdoctoral scholar in the Pollard lab at Gladstone.

Another experiment revealed that human HARs sat close to genes involved in brain development. They control genes that regulate embryonic development, including the formation of the brain, bones, and other tissues, Pollard explained. Many of these regulatory genes, she added, are linked to diseases, such as schizophrenia and atherosclerosis, that are unique to humans.

Still, understanding what makes humans unique is incomplete. “We know a great deal about humans, a little about primates. But we know surprisingly little about other species,” This makes it hard to compare humans with other species, she explained.

Extinction risks

In another paper, researchers used sequencing information to predict which animals are at risk of extinction.

There is limited data on more than 20,000 species, making it difficult to assess their status, according to the International Union for Conservation of Nature.

Using machine learning, a type of artificial intelligence, the researchers concluded that species with smaller historical populations carry more damaging mutations and face extinction risk. 

Killer whales, for example, are more likely to be threatened, showed the genomic data, which also agreed with ecological surveys.

Karlsson stressed that ecological surveys of a species provide better information. But it is challenging to study when species live in remote areas. 

“Sequencing can be used as an initial assessment to determine if a species is at risk. It can help prioritise which species to put the additional resources on and confirm if it is at risk of extinction,” she noted.

However, climate change and habitat destruction are not going to be solved by genome sequencing, warned Lindblad-Toh.

Read more: 

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2023-04-28 06:49:47Z
1990517275

Kamis, 27 April 2023

From beyond the galaxy: Okanagan's CHIME telescope picks up more distant signals - Prince Rupert Northern View - The Northern View

The South Okanagan’s radio telescope has picked up more signals from far beyond our solar system.

The Candian Hydrogen Intensity Mapping Experiment, CHIME, picked up 25 new repeated fast radio burst (FRB) sources between 2019 and 2021 according to the paper, which was published in the Astrophysical Journal in April.

CHIME is located at the Dominion Radio Astrophysical Observatory at White Lake outside Kaleden, where its sensors are constantly pointed toward the stars.

The latest set of discoveries include signals that are extra-galactic, coming from beyond the Milky Way.

CHIME was the first to detect patterns of repeated FRB signals in 2020, with previous FRBs failing to produce patterns despite how long or short a period they were observed for.

READ MORE: CHIME finds four days of noise, twelve days of silence from space

Since then, however, more sensitive systems have been able to detect repetitions from previously spotted FRBs.

The paper also adds that there are 14 more sources as promising FRB sources for follow-up observations.

The sources of the signals are still a mystery, but the fact they repeat has so far ruled out events like supernovae or other cosmic cataclysms. The most likely cause at the moment, while disappointing to some, is not aliens but instead a particular type of dense star known as a magnetar.

The paper can be viewed online at iopscience.iop.org/article/10.3847/1538-4357/acc6c1/pdf.

To report a typo, email: editor@pentictonwesternnews.com.

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2023-04-27 22:10:00Z
1969477944

Selasa, 25 April 2023

Stunning close-up images of Mars’ tiny moon Deimos sparks new origin theory - Euronews

A spacecraft orbiting Mars has sent back the most detailed photos yet of the planet’s tiny moon Deimos - and the close-ups have unveiled a new theory about its origins.

The United Arab Emirates' Amal spacecraft flew within 100 km of Deimos last month taking close-up shots that were released on Monday.

Amal - Arabic for Hope - got two-for-one when Mars photobombed some of the images. It was the closest a spacecraft has been to Deimos in almost a half-century.

The spacecraft also observed the little explored far side of the odd-shaped, cratered moon, which has a radius of just 6.2 km.

The new images indicate that Deimos is not an asteroid that was captured by Mars’ gravity aeons ago, according to scientists at the UAE Space Agency.

They say that it shows the moon appears to be of Martian origin - perhaps from the planet itself, or from Mars’ other, much larger moon.

"We are not sure of the origins of Phobos and Deimos," said Hessa Al Matroushi, the EMM mission's chief scientist, in a statement.

"A long-held theory is that they are asteroids from the asteroid belt that were ‘captured’ in the Red Planet's orbit, she said. But close observations by the Amal probe point to a planetary origin.

Like its companion Phobos, the celestial body has "infrared properties closer to the basaltic rocks of Mars than to those of the meteorite that fell near Tagish Lake in Canada,often used by analogy to study Phobos and Deimos,” according to Christopher Edwards, one of the scientists behind the Emirates Mars InfraRed Spectrometer (EMIRS) instrument.

The findings were presented on Monday at the European Geosciences Union's general assembly in Vienna.

The Arab world’s first interplanetary mission

The close-up shots of Deimos were taken as part of the UAE’s mission to Mars, which launched in July 2020, reaching Martian orbit in February 2021.

The arrival put the UAE in a league of just five space agencies in history to pull off a functioning Mars mission.

From Martian orbit, it has been surveying the planet’s mostly carbon dioxide atmosphere at all times of day and in all seasons.

It joined six spacecraft already operating around Mars: three from the US, two European, and one Indian.

Mars’ other moon, Phobos, is almost double the size of Deimos, and better understood since it orbits much closer to Mars - just 6,000 km away, the closest of any planet’s moon in our solar system.

Deimos' orbit around Mars stretches 23,000 km out. That's close to the inner part of the spacecraft's orbit - “which is what made observing Deimos such a compelling idea,” said al-Matroushi.

"Phobos has gotten most of the attention up until now - now it’s Deimos’ turn!" she added in an email to the Associated Press.

Amal will continue to sweep past Deimos this year, but not as closely as the March 10 encounter, according to al-Matroushi.

NASA's Viking 2 came within 30 km of Deimos in 1977. Since then, other spacecraft have photographed Deimos but from much farther away.

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2023-04-25 14:57:32Z
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Launchpad upgrades imminent after SpaceX's rocket blast pummeled site - Financial Post

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WASHINGTON — Elon Musk’s SpaceX will use for its next rocket launch a water-cooled steel plate that can withstand the world’s most powerful liftoff after the debut attempt of its Starship rocket to reach space caused extensive launchpad damage.

The giant spacecraft exploded 23 miles (37 km) in the sky, minutes after liftoff in an uncrewed test flight on Thursday.

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On the ground at SpaceX’s launchsite in Texas, the rocket’s engines – there are over 30 – fired with more force than any other rocket in the world, violently pummeling its launchpad floor as it slowly took flight. That blasted a crater several feet deep and sent large chunks of reinforced concrete flying thousands of feet, photos of the aftermath showed.

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Musk said on Friday the space company had “started building a massive water-cooled, steel plate to go under the launch mount,” but that it would not have been ready before the launch on April 20. He suggested it would be ready for installation before the next launch attempt “in 1 to 2 months.”

On Friday, Musk said SpaceX “wrongly thought” – based on a ground test – that the launchpad foundation would survive a single launch even though the engines during that test fired at half their power.

The billionaire CEO had said in 2020 that there would be no need to use such a flame diverter to steer the flames on the ground, but acknowledged that could be the wrong decision.

Other launch sites in the United States, such as SpaceX’s own pads at NASA’s Kennedy Space Center in Florida, use flame diverters: large cavernous hallways leading away from a rocket’s underside to steer its tail of fiery forces in a controlled path, aimed at minimizing damage.

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Without such a plan, debris kicked up during liftoff could strike the rocket itself and compromise a mission, engineers say.

“Launch & landing pads are touchy. Any little thing that goes wrong can cause a zipper effect that creates a giant problem,” Phil Metzger, a planetary scientist at the University of Central Florida who has studied the ground effects of rocket launches and landings, said on Twitter.

“That’s because you’re trying to safely dispose of enough super high energy gas to shoot a rocket into the sky.”

The latest SpaceX failure illustrated a rocket development culture at the company that embraces fast-paced tests and failures of prototypes that provide data to improve the vehicle’s design.

The Federal Aviation Administration, which regulates launch site safety and oversees technical investigations into commercial rocket mishaps, will need to sign off on changes to Starship’s launchpad infrastructure before its next launch attempt, said Tom Marotta, who advises other space companies on launch regulations.

“The bigger challenge for SpaceX is FAA evaluating its steel plate solution and deciding that it meets the regulations in a timely manner,” he said.

(Reporting by Joey Roulette; Editing by Sayantani Ghosh and Stephen Coates)

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2023-04-25 10:06:53Z
1897527986

Senin, 24 April 2023

The people replicating Moon dust - BBC

With humanity looking to set foot on the Moon again for the first time in 50 years, space agencies around the world need lunar soil – lots of it.

Even with the walls of a volcanic crater looming behind the white-washed single-storey buildings, it would be easy to miss the sleepy town of Tao. It only takes a few moments to pass through it as you drive along the LZ-20 highway that cuts across the middle of Lanzarote, in the Canary Islands. And despite its vicinity to the Tamia volcanic crater at the heart of the island, Tao is not one of Lanzarote's key tourist attractions.

Recently, however, the town has been receiving visitors of a very different kind – those whose interest lies not in the volcano, but in the dark grey soil that Tao is built upon. This drab, rocky material has a surprising part to play in one of this decade's most ambitious human endeavours. It will help put humans back on the Moon.

A team of Spanish scientists have found that the basalt at a quarry near Tao bears a striking similarity to the samples of lunar regolith – the blanket of dusty and rocky debris covering the Moon's surface – brought back to Earth by the crew of Apollo 14 in 1971. They have used it to create a sample of lunar regolith simulant that can be used to test hardware and experiments before they are sent to the Moon.

The soil sample, called LZS-1, is the latest in a list of lunar regolith simulants of varying quality that have been developed to help Nasa and other space agencies around the world prepare for missions to the Moon.

Among the first lunar simulants to be developed was Minnesota Lunar Simulant 1 (MLS-1) at the University of Minnesota in 1988 from basalt found at an abandoned quarry in Duluth, Minnesota. Researchers discovered the rocks resembled the chemical composition of soil collected from corner of the Sea of Tranquillity visited by the Apollo 11 astronauts. The dark Mare regions, or "seas", of the Moon are composed largely of basalt rich in magnesium and iron while the lighter, highland areas are made of rocks composed mostly of calcium and aluminium.

The six Apollo missions that landed on the moon between 1969 to 1972 brought back around 380kg (837lbs) of lunar soil and rocks with them to Earth. These samples were zealously protected due to their limited availability.

"It was precious and used only for important scientific research," says John Gruener, a space scientist at the astromaterials research and exploration science division at Nasa's Johnson Space Center in Houston, Texas. Yet engineers, biologists, botanists and other research teams working on projects related to the Moon need something to test their equipment and experiments on. They require substances that replicate the physical, chemical and mineral properties of the lunar regolith, not only to see how hardware such as spacecraft and spacesuits might cope with the Moon's environment, but to test whether it might be possible to eventually grow food in the lunar soil, or use it to make building materials for constructing future lunar bases.

Relatively small amounts of lunar soil were collected by the astronauts of the Apollo missions and returned to Earth, so access to it is highly restricted (Credit: Nasa)

Relatively small amounts of lunar soil were collected by the astronauts of the Apollo missions and returned to Earth, so access to it is highly restricted (Credit: Nasa)

According to Gruener, the first real demand for lunar simulants arose after President George HW Bush's 1989 announcement of the Space Exploration Initiative (SEI), whose objective was to send humans back to the Moon and then to Mars.

The lunar dust problem

Among the challenges astronauts will face when they return to the Moon is reducing the amount of sharp dust grains that stick to their spacesuits and equipment. The tiny shards of lunar dust carry a tiny electrostatic charge, which makes them particularly clingy. Unfortunately, the dust can damage delicate equipment and electronics, so Nasa's engineers are developing new coatings they hope can prevent the lunar dust from building up on spacecraft and spacesuits, which they can then test with soil simulants.

"Unlike the Apollo missions, the SEI envisaged a longer stay on the Moon which would require new habitats, rovers and power supplies among other things," says Gruener. "We would have loved to test the new hardware on the Apollo soil and rock samples. But there was too little of it."

SEI's ambitious goals necessitated extensive testing of hardware on Earth for which large quantities of lunar soil was required. With supplies of genuine lunar soil being so limited, the only solution was to develop lunar simulants on Earth. This resulted in the birth of JSC-1, a pioneering lunar regolith simulant developed at the Johnson Space Center in the mid-1990s.

Sourced from the glass-rich basaltic ash from near the volcanic vents on the south flank of the Merriam Crater near Flagstaff in Arizona, JSC-1 was found to be similar to the samples brought back from the Moon by the Apollo 14 mission.

"It had the right mineralogy," says Gruener. "It had the correct particle size distribution. The individual particles had the right shape and crucially, the simulant had both the crystalline and glass component."

Lunar soil has a significant glass component because of the large number of high-energy meteorite impacts on its surface. The heat generated from these impacts produces glass in the lunar soil. On Earth, the main places where the soil naturally contains glass is near volcanoes. The Johnson Space Center produced around 20 tonnes (44,092lbs) of JSC-1. However, the SEI programme was later cancelled and consequently the demand for lunar simulants dwindled.

It wasn't until 2005, when President George W Bush made a speech similar to his father's by announcing the Vision for Space Exploration (VSE), whose objective was to return to the Moon and would serve as a proving ground for future missions to Mars.

Following this announcement there was renewed interest in lunar soil simulants, resulting in a series of lunar highlands soil simulants called NU-LHT which were made from anorthosite and norite rocks sourced from the Stillwater mine in Montana. However, a similar fate awaited VSE as it was shelved in 2010.

But with the birth of the Artemis programme in 2017, interest in lunar simulants has yet again been rekindled, and there is demand for a more diverse selection of lunar soil simulants to better reflect the soils astronauts might encounter at the Moon's south pole.

This time, private players are at the forefront of producing simulants. One of the world's largest producers is the Florida-based Exolith Lab which, since its founding in 2017, has produced 80 tonnes (176,370lbs) of lunar and Martian soil simulants.

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According to Gruener, the moon has a gritty, dusty environment. "For anything mechanical that rolls on or digs into the lunar surface, it has to encounter the regolith which is very different from anything on Earth," he says. "We [on Earth] have a lot of weathering due to wind and water which tends to round the soil particles. However, on the Moon, there is none of that. The only physical weathering is through impacts, which creates angular soil particles. As a result, things that work on Earth may not work that well on the Moon."

The regolith simulants are being used for a wide range of tests and experiments. The Johnson Space Center uses them for testing geological tools that will be driven into the rocks on the Moon, for testing the resistance of spacesuit fabrics and for developing air-purifying filters to help prevent lunar dust from contaminating the air in spacecraft and habitats.

Lunar dust has some very specific qualities that are difficult to find on Earth, so volcanic powders and rock samples that come close are highly prized (Credit: ESA)

Lunar dust has some very specific qualities that are difficult to find on Earth, so volcanic powders and rock samples that come close are highly prized (Credit: ESA)

Tonnes of lunar simulant developed by Exolith Lab will be used to test the hardware of Nasa's Viper rover, which will prospect for water on the lunar south pole. According to Exolith Lab founder Daniel Britt, simulants are also used for experiments on extracting resources like oxygen and metals.

This could be vital as space agencies look to establish a permanent settlement on the Moon – lifting raw materials from the surface of the Earth in rockets is an expensive and energy intensive business, so wherever possible, it will be important to exploit resources already to be found on the lunar surface.

So much lunar simulant might be needed as humans prepare to return to the Moon that the European Space Agency is planning to produce 900 tonnes (1.98 million lbs) of its own lunar regolith simulant, EAC-1. Most of it will be used to help train astronauts for walking on the lunar surface and put lunar rovers through their paces.

How to make a lunar soil

Rock samples, once collected, need to be milled and ground in such a way that will create angular particles. It is also important to produce the correct range of particle sizes. Usually, they do this by passing the crushed rocks through sieves with specific hole sizes.

Jesus Martinez-Frias, a planetary geologist at the Instituto de Geociencias in Madrid, who is part of the team of scientists that developed LZS-1 from the Tao quarry rocks, says they don't intend to produce quite as much of their new simulant.

"As of now, we have produced two kilograms," he says. "Our goal is to prepare high-quality material for specific research." Among the things he says it could be used for is developing ways of extracting oxygen from the lunar soil, growing crops and building structures.

While the simulants and their applications vary, there are some common guiding principles to produce them. According to Britt, the key part is to get the input materials right.

"Some of it is easy, while some like anorthosite are relatively uncommon," he says.

But Gruener says it is impossible to recreate a regolith simulant that matches 100% with the lunar soil. "We can't even recreate it at the 80% level."

According to Cowley, a simulant can't be a perfect match to the lunar soil because of the properties inherent to Earth. "For example, you will find the hydrological aspect even in rocks emerging from volcanic eruptions, such as higher sodium content compared to the lunar soil."

But if you do find a good simulant, it can be worth it. The closest matches range in price from $45 (£36) to $150 (£120) per kg (2.2lbs). Not bad for a handful of soil.

--

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2023-04-25 00:06:15Z
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SpaceX's Starship rocket blew a huge crater into the concrete launchpad during liftoff - Yahoo Canada Finance

The crater in the launch pad after SpaceX’s Starship took off.

The crater in the launchpad after SpaceX's Starship took off.LabPadre/YouTube

  • SpaceX's Starship blew a huge hole in its launchpad during takeoff last week.

  • The rocket exploded Thursday, minutes after lifting off from Boca Chica, Texas.

  • The damage is raising questions about when Starship will be able to attempt another orbital launch.

SpaceX's Starship, the megarocket from Elon Musk's space-exploration company exploded last week after its first attempted orbital launch.

But the rocket wasn't the only thing left in pieces.

A video shared on LabPadre's YouTube account shows a large crater beneath the launchpad's circular launch mount in Boca Chica, Texas.

Starship is the tallest, most powerful rocket ever built, capable of generating about 17 million pounds of thrust upon liftoff. And all that power was enough to cause some major destruction and send sand and soil raining down on a nearby town.

Other pieces of equipment, including storage tanks near the launchpad, also suffered damage, which has raised questions about when Starship may be able to attempt another launch to space.

You can see residual debris all over the ground in the scene below, shortly after launch:

Image of debris-strewn field after Starship's launch on April 20, 2023.

Debris was strewn in a field after the Starship launch.LabPadre Media

SpaceX didn't immediately respond to a request for comment on the launchpad damage.

The damage to the launchpad may have been averted if it had a flame trench or diverter, which is designed to redirect the rocket's blast energy and heat away from the launch site, according to SpaceFlightNow. It was also missing a water-deluge system, which helps further reduce energy blast around the launch site during liftoff.

Musk tweeted Friday, the day after the rocket launched and exploded, that SpaceX was working on some of these designs, but they weren't ready in time:

Last week's launch was the first time SpaceX launched a Starship rocket and its Super Heavy booster together. About three minutes after liftoff, the booster failed to separate from the rocket, and the rocket exploded, failing to make it into orbit.

It isn't immediately clear what caused the explosion.

This isn't SpaceX's first explosion — four early prototypes of the Starship also ended in giant fireballs. However, SpaceX is optimistic about the launch on Thursday, though it's unclear when Starship will fly again.

Read the original article on Business Insider

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2023-04-24 17:43:45Z
1897527986

Minggu, 23 April 2023

Remembering Lophy the library dinosaur - Sault Ste. Marie News - SooToday

From the archives of the Sault Ste. Marie Public Library:

A dinosaur… in the library? Yes! A Parasaurolophus [Para-sore-oh-loaf-us] to be exact.

Between October 30, 1978, and March 5, 1979, Lophy the Parasaurolophus skeleton had a home at the Sault Ste. Marie Public Library on East Street. Lophy, affectionately named by library staff, came to the Centennial Library by way of the Royal Ontario Museum’s Extension Services, in co-operation with Outreach Ontario, a Program of the Ministry of Culture and Recreation.

Lophy was a 10.5-foot high and 12.5-foot wide life-size reproduction. Made out of naturally coloured fibreglass, the bones were positioned exactly as the real specimen was found in Dinosaur Provincial Park, Alberta by a team from the Royal Ontario Museum, in 1920.

According to the Royal Ontario Museum (ROM), in 1978, there were only four surviving Parasaurolophus skeletons in the world, with the ROM’s being the most complete.

Without a doubt, the Parasaurolophus skeleton was and still is the ROM’s most famous dinosaur exhibit. In response to the great interest in the Parasaurolophus, the ROM’s Vertebrate Paleontology Department created a cast of the dinosaur for Extension Services, creating one very unique travelling exhibit.

The Parasaurolophus was a duck-billed dinosaur that inhabited the land formation we now call Western North America during the late Cretaceous period, approximately 70 million years ago.

The Parasaurolophus belonged to the reptilian order of Ornithischia and the family of Hadrosauridae. Paleontologists have concluded that this dinosaur had the blunt teeth of a herbivore (plant-eater) and most likely walked on all four legs a majority of the time, although it could probably run quickly on its strong hind legs.

It had a duck-like beak, adapted for plucking leaves and twigs. The large head crest projecting from its skull was an extension of the nose and upper jaw. The air passage from the throat to the nostrils looped up inside the crest.

Scientists believe that this chamber inside the crest improved the dinosaur’s sense of smell and was used for calling to one another. The Parasaurolophus was approximately 25 to 30 feet (8 to 9 meters) in length.

While at the Sault Ste. Marie Public Library, the exhibit attracted over 10,000 visitors. School classes made special trips to see Lophy inside the lobby.

The travelling exhibit also included two text panels and a 12-minute audio-visual presentation featuring Parasaurolophus and vertebrate paleontology. One of the panels featured a small-scale restoration of the dinosaur in its habitat, a scientist’s conception of Alberta as it was 70 million years ago! In addition to the free mini-posters displayed at the Centennial Library, small souvenirs could be purchased at the Historical Society in the Armories on Pine St.

On March 5, 1979, Lophy left the Sault Ste. Marie Public Library and made his way to Thunder Bay, Ontario.

Check out this Royal Ontario Museum link to see a real Parasaurolophus skeleton and other vertebrate fossils.

If you plan on making your way to Toronto, you may want to visit the Royal Ontario Museum’s Dinosaur Gallery. The gallery website can be found by clicking this link.

Each week, the Sault Ste. Marie Public Library and its Archives provides SooToday readers with a glimpse of the city’s past.

Find out more of what the Public Library has to offer at www.ssmpl.ca and look for more Remember This? columns here

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2023-04-23 15:03:20Z
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