Selasa, 25 Februari 2020

NASA says its InSight lander has detected over 450 'marsquakes' - Engadget

IPGP/Nicolas Sarter

Marsquakes are more common but less intense than NASA thought. That's one of the things the agency has revealed in the six papers it recently published on InSight's findings since it landed on the red planet. Apparently, InSight's Seismic Experiment for Interior Structure instrument (SEIS) recorded over 450 seismic signals or "trembling" events since last year. Now, the agency has announced that "the vast majority" of them were probably marsquakes and not merely noise created by environmental factors like the wind.

NASA has also revealed that the largest quake SEIS found was around magnitude 4.0 in size, which is milder than scientists expected. That's not quite strong enough to get readings from the planet's lower mantle and core, though, which scientists are hoping to get. InSight principal investigator Bruce Banerdt described those layers as the "the juiciest parts of the apple" when it comes to learning about the planet's inner structure, which can help shed light on how rocky planets form.

Marsquakes, however, aren't quite like earthquakes. The planet doesn't have tectonic plates, and scientists believe its rumblings come from volcanically active regions and an internal cooling process that causes the core to contract and build stress. In fact, when InSight detected the first potential quake, NASA's Planetary Science Division director Lori Glaze compared the event to a moonquake, which is typically weaker and much longer than earthquakes.

Source: NASA
Coverage: Business Insider
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2020-02-25 13:36:05Z
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NASA has a new idea to get the InSight lander's 'mole' on Mars digging again - Space.com

The "mole" aboard NASA's Mars InSight lander is about to get yet another push.

The mole — a self-hammering tool designed to get InSight's burrowing heat probe at least 10 feet (3 meters) underground — hasn't made much downward progress since its deployment on the Red Planet's surface in February 2019.

The Martian soil at InSight's landing site has proven to be surprisingly slippery, depriving the mole of the friction it needs to dig, mission team members have said. The team has tried several strategies to get the mole moving over the past year. The most recent effort involved pinning the mole against the side of its burrow with InSight's 5.75-foot-long (1.8 m) robotic arm, in an attempt to generate the necessary friction. 

Related: Mars InSight in photos: NASA's mission to probe Martian core

Pinning met with some success initially, but the mole ended up popping back out of its hole. So, the mission team is gearing up to try using the arm in a slightly different way: pushing on the mole's top, also known as the "back cap."

This will be a somewhat delicate operation, because a fragile tether extends from the back cap to InSight's body. This tether is studded with temperature sensors, which are designed to measure the heat flowing through the Martian near-subsurface.

"It might take several tries to perfect the back-cap push, just as pinning did. Throughout late February and early March, InSight's arm will be maneuvered into position so that the team can test what happens as the mole briefly hammers," NASA officials wrote in a mission update on Friday (Feb. 21).

"Meanwhile, the team is also considering using the scoop to move more soil into the hole that has formed around the mole," they added. "This could add more pressure and friction, allowing it to finally dig down. Whether they pursue this route depends on how deep the mole is able to travel after the back-cap push."

InSight's heat probe, officially known as the Heat Flow and Physical Properties Package (HP3), was provided by the German Aerospace Center. HP3 is one of InSight's two main science instruments, the other being a suite of highly sensitive seismometers that has detected about 450 marsquakes to date.

Mission team members are also using radio signals from the lander to track the wobble of Mars' rotational axis over time, which will reveal key details about the planet's core. InSight's data will help scientists better understand Mars' interior structure, as well as the formation and evolution of rocky planets in general, mission team members have said.

The $850 million InSight spacecraft landed near the Martian equator in November 2018, kicking off a surface mission expected to last at least one Martian year (which is nearly two Earth years). On Monday (Feb. 24), the InSight team unveiled the mission's first official science results in a half-dozen papers published in the journals Nature Geoscience and Nature Communications. 

These results show that Mars is a seismically active world, and that InSight is performing well despite the mole's struggles, said mission principal investigator Bruce Banerdt, who's based at NASA's Jet Propulsion Laboratory in Pasadena, California. 

"I think we're well on our way to getting most, if not all, of the goals that we set for ourselves 10 years ago when we started this mission," Banerdt told reporters during a teleconference last week.

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

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2020-02-25 12:12:00Z
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'Shocked' scientists find brain parasites in baby lizards still in shells - Livescience.com

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'Shocked' scientists find brain parasites in baby lizards still in shells  Livescience.com
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2020-02-25 12:08:00Z
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Taraji P. Henson Honors Late NASA Pioneer Katherine Johnson - msnNOW

Taraji P. Henson standing in front of a mirror posing for the camera © John Shearer/Getty Images

Hidden Figures star Taraji P. Henson has paid tribute to NASA mathematician Katherine Johnson, who died on Sunday at the age of 101.

Henson, 49, depicted Johnson in the 2016 film Hidden Figures, which received three Oscar nominations.

“Thank you QUEEN #KatherineJohnson for sharing your intelligence, poise, grace and beauty with the world!” Henson captioned a black-and-white throwback photo. “Because of your hard work little girls EVERYWHERE can dream as big as the MOON!!! Your legacy will live on FORVER AND EVER!!! You ran so we could fly!!!”

“I will forever be honored to have been apart of bringing your story to life,” Henson continued. “You/your story was hidden and thank GOD you are #hiddennomoreπŸš€ God bless your beautiful family. I am so honored to have sat and broke bread with you all. My thoughts and prayers are with you! #RIHKatherineJohnson #representationmatters πŸ™πŸΎπŸ™πŸΎπŸ™πŸΎπŸ’‹πŸ’‹πŸ’‹.”

Henson’s co-star, Octavia Spencer, who played Dorothy Vaughan in the movie, then commented, “Beautiful.”

Johnson emotionally addressed the 2017 Oscars audience, taking the stage in a wheelchair.

Janelle Monae, Katherine Johnson, Taraji P. Henson, Octavia Spencer posing for the camera: Janelle Monae, NASA mathematician Katherine Johnson and actors Taraji P. Henson and Octavia Spencer pose backstage during the 89th Annual Academy Awards at Hollywood & Highland Center on February 26, 2017 in Hollywood, California. Christopher Polk/Getty Images © Christopher Polk/Getty Images Janelle Monae, NASA mathematician Katherine Johnson and actors Taraji P. Henson and Octavia Spencer pose backstage during the 89th Annual Academy Awards at Hollywood & Highland Center on February 26, 2017 in Hollywood, California. Christopher Polk/Getty Images

Her work played a significant role in helping Apollo 11 and its crew land on the moon in 1969. Her story gained wider recognition through the Hidden Figures book and movie, which highlighted how women of color contributed to achievements in outer space. An advocate for STEM (science, technology, engineering, mathematics) education, Johnson inspired many around the world.

NASA shared news of Johnson’s death on Monday, tweeting, “We're saddened by the passing of celebrated #HiddenFigures mathematician Katherine Johnson. Today, we celebrate her 101 years of life and honor her legacy of excellence that broke down racial and social barriers.”

Many others paid tribute to Johnson on social media, including former president Barack Obama, who awarded her with the Presidential Medal of Freedom in 2015. "After a lifetime of reaching for the stars, today, Katherine Johnson landed among them," Obama tweeted. "She spent decades as a hidden figure, breaking barriers behind the scenes. But by the end of her life, she had become a hero to millions—including Michelle and me."

Actress Viola Davis thanked Johnson for being a "pioneer and hero," while Hidden Figures producer Pharrell Williams saluted her, writing: "RIP Katherine Johnson, thank you for blessing NASA and the world with your gifts and making Virginia proud." 

Politician and activist Alexandria Ocasio-Cortez also took to Twitter, writing, "American Hero. Thank you, Katherine Johnson."

See more on Johnson and Hidden Figures below.

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2020-02-25 10:00:00Z
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An Antarctica heat wave melted 20% of an island's snow in 9 days - msnNOW

A nine-day heat wave scorched Antarctica's northern tip earlier this month. New NASA images reveal that nearly a quarter of an Antarctic island's snow cover melted in that time -- an increasingly common symptom of the climate crisis.

© NASA

The images show Eagle Island on the northeastern peninsula of the icy continent at the start and end of this month's Antarctic heat wave. By the end of the nine-day heat event, much of the land beneath the island's ice cap was exposed, and pools of meltwater opened up on its surface.

Antarctica experienced its hottest day on record earlier this month, peaking at 64.9 degrees Fahrenheit. Los Angeles measured the same temperature that day, NASA said.

In just over a week, 4 inches of Eagle Island's snowpack melted -- that's about 20% of the island's total seasonal snow accumulation, NASA's Earth Observatory said.

"I haven't seen melt ponds develop this quickly in Antarctica," Mauri Pelto, a geologist at Nichols College in Massachusetts, told NASA's Earth Observatory. "You see these kinds of melt events in Alaska and Greenland, but not usually in Antarctica."

Climate scientist Xavier Fettweis plotted the amount of meltwater that reached the ocean from the Antarctic peninsula. The heat wave was the highest contributor to sea level rise this summer, he said.

A perfect storm of conditions for a heat wave

As Pelot noted, melt events like this are quite rare for Antarctica, even during the summer. It's one of the coldest places on Earth.

This heat wave was the result of sustained high temperatures, he said, which almost never occurred on the continent until the 21st century. It's the kind of weather event that grows increasingly common as global temperatures rise.

This month, high pressure over Cape Horn in Chile's archipelago allowed warm temperatures to build up and travel. Antarctica's northernmost peninsula is typically protected from these high temperatures due to strong winds that cross the Southern Hemisphere, but those winds were unusually weak and couldn't stop the high temperatures from penetrating the continent's northern tip, NASA reported.

Ice caps in Antarctica are already melting rapidly due to heat-trapping gas pollution from humans. Rising sea levels could be catastrophic for the millions of people who live along the world's coasts: Antarctica's ice sheets contain enough water to raise global sea levels by nearly 200 feet, according to the World Meteorological Organization.

And earlier this month, a massive iceberg along the western edge of Antarctica broke off from the Pine Island Glacier. The 116 square mile-chunk of ice likely fractured as a result of warmer sea temperatures, and it's evidence that the glacier is quickly responding to climate change, the European Space Agency said.

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2020-02-25 02:40:00Z
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Senin, 24 Februari 2020

46,000-year-old bird, frozen in Siberian permafrost, looks like it 'died a few days ago' - Livescience.com

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  1. 46,000-year-old bird, frozen in Siberian permafrost, looks like it 'died a few days ago'  Livescience.com
  2. 46,000-Year-Old Frozen Bird Carcass Sheds Light on Evolution  Nerdist
  3. 46,000-year-old frozen bird discovered in Siberia  WION
  4. View Full Coverage on Google News

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2020-02-24 16:18:00Z
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Mars is a seismically active world, first results from NASA's InSight lander reveal - Space.com

Mars may be cold and dry, but it's far from dead.

The first official science results from NASA's quake-hunting InSight Mars lander just came out, and they reveal a regularly roiled world.

"We've finally, for the first time, established that Mars is a seismically active planet," InSight principal investigator Bruce Banerdt, of NASA's Jet Propulsion Laboratory (JPL) in Pasadena, California, said during a teleconference with reporters Thursday (Feb. 20).

Related: Mars InSight in photos: NASA's mission to probe Martian core

Martian seismicity falls between that of the moon and that of Earth, Banerdt added.

"In fact, it's probably close to the kind of seismic activity you would expect to find away from the [tectonic] plate boundaries on Earth and away from highly deformed areas," he said.

Probing the Martian subsurface

InSight touched down near the Martian equator in November 2018, kicking off a two-year, $850 million mission to probe the Red Planet's interior in unprecedented detail. 

The stationary lander carries two main science instruments to do this work: a supersensitive suite of seismometers and a burrowing heat probe dubbed "the mole," which is designed to get at least 10 feet (3 meters) below the Red Planet's surface. 

Analyses of marsquake and heat-transport measurements will allow the mission team to construct a detailed, 3D map of the Martian interior, NASA officials have said. In addition, InSight scientists are using radio signals beamed from the lander to track how much Mars wobbles on its axis over time. This information will help researchers determine how big and dense the planet's core is. (The mission's full name — Interior Exploration using Seismic Investigations, Geodesy and Heat Transport — references these various lines of investigation.)

Overall, InSight's observations will help scientists better understand how rocky planets such as Mars, Earth and Venus form and evolve, mission team members have said.

The mission's initial science returns, which were published today (Feb. 21) in six papers in the journals Nature Geoscience and Nature Communications, show that InSight is on track to meet that long-term goal, Banerdt said. (We have gotten a taste of these results over the past year or so, however, as mission team members have released some findings in dribs and drabs.)

Related: NASA's Mars InSight lander: 10 surprising facts

Lots of quakes

The new studies cover the first 10 months of InSight's tenure on Mars, during which the lander detected 174 seismic events. 

These quakes came in two flavors. One hundred and fifty of them were shallow, small-magnitude tremors whose vibrations propagated through the Martian crust. The other 24 were a bit stronger and deeper, with origins at various locales in the mantle, InSight team members said. (But even those bigger quakes weren't that powerful; they landed in the magnitude 3 to 4 range. Here on Earth, quakes generally must be at least magnitude 5.5 to damage buildings.)

That was the tremor tally through September 2019. InSight has been busy since then as well; its total quake count now stands at about 450, Banerdt said. And all of this shaking does indeed originate from Mars itself, he added; as far as the team can tell, none of the vibrations were caused by meteorites hitting the Red Planet. So, there's a lot going on beneath the planet's surface.

But that activity is quite different from what we're used to on Earth, where most quakes are caused by tectonic plates sliding against, over or under each other. Mars doesn't have active plate tectonics, the researchers said, so both types of quakes are caused by the long-term cooling of the planet since its formation 4.5 billion years ago.

"As the planet cools, it contracts, and then the brittle outer layers then have to fracture in order to sort of maintain themselves on the surface," Banerdt said. "That's kind of the long-term source of stresses."

And some Martian locales are more stressed than others. One particularly active region is the Cerberus Fossae fracture system, which lies about 1,000 miles (1,600 kilometers) east of InSight's Elysium Planitia landing site.

The mission team traced two of the largest detected marsquakes to Cerberus Fossae, which "contains faults, volcanic flows and liquid water outflow channels with ages as recent as 2-10 Ma [million years ago], and possibly younger from impact crater counts," Banerdt and his colleagues wrote in one of the new studies.

"So, it's possible that there's actual magma at depth that's cooling," InSight deputy principal investigator Sue Smrekar, also of JPL, said during Thursday's teleconference. That cooling would lead to the contraction of the magma chamber, causing deformation of the crust, she added.

But Smrekar stressed that this is a hypothesis, not a definitive determination of what's going on at Cerberus Fossae. Indeed, though mission team members think they understand Martian seismicity in broad strokes, they're still trying to nail down how it works in detail.

Related: 7 biggest mysteries of Mars

Many insights

A wealth of information can be gleaned from InSight's quake measurements. For example, analyses of how the seismic waves move through the Martian crust suggest there are small amounts of water mixed in with the rock, mission team members said. 

"Our data is consistent with a crust which has some moisture in it, but we can't say one way or the other whether there [are] large underground reservoirs of water at this point," Banerdt said.

The new papers report a variety of other discoveries as well. For example, InSight is the first mission ever to tote a magnetometer to the Martian surface, and that instrument detected a local magnetic field about 10 times stronger than would be expected based on orbital measurements. (Mars lost its global magnetic field billions of years ago, however. This allowed solar particles to strip away the once-thick Martian atmosphere, which spurred the planet's transition from a relatively warm and wet world to the cold desert it is today.)

InSight is also taking a wealth of weather data, measuring pressure many times per second and temperature once every few seconds, Banerdt said. This information helps the mission team better understand environmental noise that could complicate interpretations of the seismic observations, but it also has considerable stand-alone value.

"This is really going to, I think, revolutionize our understanding of the interaction of the atmosphere with the surface of Mars," Banerdt said. "That's one of the things that's really going to open up a whole new window of research on Mars."

Mole update

Not everything has gone smoothly for InSight, however. Notably, the mole has been unable to get down to its prescribed depth because the Martian dirt is proving more slippery than mission team members had anticipated. (The mole's self-hammering burrowing system requires a certain amount of friction to work.)

The mission team has tried several strategies to get the mole moving, including pressing on the side of the probe with InSight's robotic arm to generate the required friction. This latter tactic has generated some halting success, but the mole remains stranded too close to the surface. 

So, in the next six to eight weeks, mission team members aim to try a modification of the arm-pressing strategy, in which they'll push on the mole's back rather than its side. The goal is to get the mole about 16 inches (40 centimeters) down, at which point it will hopefully be able to start digging on its own, Banerdt said.

The InSight team would also like a bit more cooperation from Mars on the seismic side of things, if possible. The lander has not yet spotted any truly big quakes, which have the potential to paint a clearer picture of the planet's deep interior for mission scientists.

The lack of powerful quakes is no surprise, Banerdt stressed; big tremors are much rarer than their smaller counterparts here on Earth, after all. So, the team may have to wait a while to get one.

But such issues aren't derailing the mission; the team is excited about how things have gone thus far, Banerdt said.

"I think we're well on our way to getting most, if not all, of the goals that we set for ourselves 10 years ago when we started this mission," he said.

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

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2020-02-24 16:04:00Z
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Scientists Detect for the First Time Quakes on Mars - The Wall Street Journal

NASA's InSight Mars lander acquired on Feb. 18 this image of the area in front of it.

Photo: JPL-Caltech/NASA

Mars trembles with quakes as it cools, and the Martian crust shrinks like a wizened apple, according to new findings from the National Aeronautics and Space Administration’s InSight lander. These faint tremors are the first ever detected on Mars or any world other than Earth or the Moon, mission scientists said.

Since the InSight’s safe landing on the red planet almost 15 months ago, the spacecraft’s six onboard seismic sensors have detected more than 450 mild marsquakes, the scientists said. The seismic waves, crisscrossing inside the planet’s crust in a variety of frequencies, are giving scientists their first look under the planet’s skin.

“We have finally for the first time established that Mars is a seismically active planet,” said geophysicist Bruce Banerdt at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. He directs an international science team drawn from more than three dozen research facilities. “The seismicity is greater than the Moon but less than the Earth.”

On Monday, the scientists published their initial findings about the Martian interior, atmosphere and magnetic field from the $828 million mission in a series of research papers in Nature Geoscience and Nature Communications.

Quakes may be common on Mars, the scientists said. However, the atmosphere around the shallow impact crater—nicknamed Homestead Hollow—where the InSight probe landed is stirred by thousands of dust-devil swirls that make the area home to the planet’s most turbulent winds.

Inside Mars

Sensors on NASA's Mars InSight lander recorded 450 "marsquakes" in the past year or so giving scientists their first look at the planet's hidden interior.

Estimated depths of Mars’s layers

Wind-blown sand and rocky grit make up a surface crust about 16 feet or so deep. It is so compacted that the probe has been unable to drill more than a few inches deep.

 miles

0

Competent basaltic

lava flows

Ancient lava flows make up a layer of heavily fractured bedrock about 5 kilometers thick.

5

Strongly

magnetized

basement rock

10

Rocks with traces of a magnetic field make up a layer from 5 kilometers to about 30 kilometers thick.

15

20

The deep mantle and core of Mars remain a mystery. Scientists hope that stronger marsquakes in the year ahead will generate seismic waves powerful enough to reveal its composition.

Mantle

25

30

Inside Mars

Sensors on NASA's Mars InSight lander recorded 450 "marsquakes" in the past year or so giving scientists their first look at the planet's hidden interior.

Estimated depths of Mars’s layers

Wind-blown sand and rocky grit make up a surface crust about 16 feet or so deep. It is so compacted that the probe has been unable to drill more than a few inches deep.

 miles

0

Competent basaltic

lava flows

Ancient lava flows make up a layer of heavily fractured bedrock about 5 kilometers thick.

5

Strongly

magnetized

basement rock

10

Rocks with traces of a magnetic field make up a layer from 5 kilometers to about 30 kilometers thick.

15

20

The deep mantle and core of Mars remain a mystery. Scientists hope that stronger marsquakes in the year ahead will generate seismic waves powerful enough to reveal its composition.

Mantle

25

30

Inside Mars

Sensors on NASA's Mars InSight lander recorded 450 "marsquakes" in the past year or so giving scientists their first look at the planet's hidden interior.

Estimated depths of Mars’s layers

Wind-blown sand and rocky grit make up a surface crust about 16 feet or so deep. It is so compacted that the probe has been unable to drill more than a few inches deep.

 miles

0

Competent basaltic

lava flows

Ancient lava flows make up a layer of heavily fractured bedrock about 5 kilometers thick.

5

10

Strongly

magnetized

basement rock

Rocks with traces of a magnetic field make up a layer from 5 kilometers to about 30 kilometers thick.

15

20

The deep mantle and core of Mars remain a mystery. Scientists hope that stronger marsquakes in the year ahead will generate seismic waves powerful enough to reveal its composition.

Mantle

25

30

Estimated depths of Mars’s layers

Wind-blown sand and rocky grit make up a surface crust about 16 feet or so deep. It is so compacted that the probe has been unable to drill more than a few inches deep.

 miles

0

Ancient lava flows make up a layer of heavily fractured bedrock about 5 kilometers thick.

Competent basaltic

lava flows

5

10

Rocks with traces of a magnetic field make up a layer from 5 kilometers to about 30 kilometers thick.

Strongly

magnetized

basement rock

15

20

The deep mantle and core of Mars remain a mystery. Scientists hope that stronger marsquakes in the year ahead will generate seismic waves powerful enough to reveal its composition.

Mantle

25

30

Source: NASA, Nature Geosciences

Moreover, surprisingly strong traces of the planet’s primordial magnetic field billions of years ago still linger in some rocks around the landing zone, the scientists said. Unlike Mars, Earth today has a protective magnetic field generated by electric currents from the motion of molten iron in the planet’s core, shielding the surface from cosmic rays and charged solar particles.

“We unexpectedly see that there is today a [magnetic] field about 10 times stronger than predicted by satellite observations,” said mission scientist Catherine Johnson, a geophysicist at the University of British Columbia. “That magnetism is essentially frozen in the rocks.”

Mars appears to experience about two tiny quakes a day, although the number has gradually increased over the past year. The scientists don’t know why.

By contrast, geophysicists normally detect about 14,000 sizable quakes on Earth every year. After a powerful earthquake, such as the magnitude 7.1 Ridgecrest earthquake that shook California’s Mojave Desert last July, scientists recorded about 80,000 or so aftershocks within a few weeks of the event.

Of the 174 marsquakes fully analyzed so far, about 150 are high-frequency seismic squeaks that would not rattle a window on Earth, the scientists said.

In fact, they appear to be so small that the scientists couldn't determine how far away the epicenters were located or their precise magnitude. None of them would pose a danger to future astronauts or colonists, NASA scientists said.

“We can probably say that Mars is a place where the seismic hazard is extremely low,” said Philippe LognonnΓ©, a geophysicist at the Institut de Physique du Globe de Paris and the lead investigator for the InSight’s seismic experiments.

Marsquakes often originate at much greater depths than on Earth, so their energy usually dissipates before reaching the surface.

Generally, most of the marsquakes likely are caused by the planet gradually cooling and shrinking, the scientists said.

Some of these small tremors might have been caused by the impact of large meteors hitting the ground. Scientists set the lander’s onboard cameras to scan the nighttime Martian sky for telltale streaks of shooting stars but so far haven’t detected any, the scientists said.

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They tracked two of the strongest quakes, measuring about magnitude 4.0, to a region called Cerberus Fossae almost 1,000 miles away, an area of fissures, fault lines and lava flows with signs of ancient volcanic activity.

“That is really intriguing,” said mission deputy principal investigator Suzanne Smrekar at the Jet Propulsion Laboratory. “We wouldn’t expect such recent volcanism in that area.”

For now, however, the deep heart of Mars remains a mystery. No marsquake has generated seismic waves strong enough yet to reveal the composition of the planet’s core. The scientists hope that more powerful quakes in the year ahead will reveal its structure and composition.

“Right now, we have a lot more data than we have conclusions,” said Dr. Banerdt. “It’s still a very mysterious situation.”

Write to Robert Lee Hotz at sciencejournal@wsj.com

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2020-02-24 16:00:00Z
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Katherine Johnson, NASA mathematician depicted in 'Hidden Figures,' dead at 101 - NBC News

Katherine Johnson, one of the NASA mathematicians depicted in "Hidden Figures," died Monday, the administrator of NASA said. She was 101.

Johnson "was an American hero and her pioneering legacy will never be forgotten," NASA administrator Jim Bridenstine wrote on Twitter.

NASA space scientist and mathematician Katherine Johnson at Langley Research Center in Va., in 1966.NASA / Getty Images file

Johnson was portrayed by Taraji P. Henson in the Oscar nominated 2016 film "Hidden Figures" about trailblazing black women whose work at NASA was integral during the Space Race.

The film also stars Octavia Spencer as mathematician Dorothy Vaughan and Janelle MonΓ‘e as engineer Mary Jackson.

Johnson began working at NASA's predecessor, the National Advisory Committee for Aeronautics’ in 1953 at the Langley laboratory in Virginia. In her role there, she did trajectory analysis for Alan Shepard’s 1961 mission Freedom 7, which was America’s first human spaceflight, according to NASA.

She was also the first woman in the Flight Research Division to receive credit as an author of a research report for her work with Ted Skopinski on detailing the equations describing an orbital spaceflight.

Dec. 9, 201602:02

She was best-known though for work that greatly contributed to the first American orbital spaceflight, piloted by John Glenn.

The 1962 flight required the construction of a "worldwide communications network" linking tracking stations around the world to computers in Washington, D.C., Cape Canaveral, and Bermuda.

But astronauts weren't keen on "putting their lives in the care of the electronic calculating machines, which were prone to hiccups and blackouts," according to NASA. So Glenn asked engineers to "get the girl," referring to Johnson, to run the computer equations by hand. “If she says they’re good,’” Johnson remembered Glenn saying, “then I’m ready to go.”

"Glenn’s flight was a success, and marked a turning point in the competition between the United States and the Soviet Union in space," NASA says.

But "when asked to name her greatest contribution to space exploration, Katherine Johnson talks about the calculations that helped synch Project Apollo’s Lunar Lander with the moon-orbiting Command and Service Module," according to NASA.

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2020-02-24 15:41:00Z
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NASA Alert: Airburst-Causing Asteroid Currently Headed For Earth - International Business Times

KEY POINTS

  • NASA detected an asteroid approaching Earth
  • The asteroid follows an Earth-crossing orbit
  • The asteroid could cause a powerful mid-air explosion

NASA is currently tracking an Earth-crossing asteroid that’s expected to approach the planet tomorrow morning. Based on the data collected by the agency, the asteroid is capable of causing a mid-air explosion more powerful than several atomic bombs if it hits Earth.

According to NASA’s Center for Near-Earth Object Studies (CNEOS), the asteroid that’s currently approaching Earth is known as 2020 BW13. As indicated in the agency’s database, this asteroid has an estimated diameter of about 66 feet. CNEOS noted that it is currently flying towards Earth at a speed of around 5,400 miles per hour.

Due to its natural trajectory, 2020 BW13 has been classified as an Aten asteroid. Like other asteroids that belong to this group, 2020 BW13 follows a dangerous orbit that occasionally intersects Earth’s path as it makes its way around the Sun.

2020 BW13’s natural orbit suggests that the asteroid could hit Earth if its trajectory slightly changes. If this happens, the asteroid would most likely not cause an impact event on Earth due to its relatively small size. Instead, the space rock would probably create a violent explosion in the sky after entering Earth’s atmosphere.

2020 BW13 is as big as the asteroid that collided with Earth and exploded over Russia in 2013. During that event, an asteroid traveling around 40,000 miles per hour entered Earth’s atmosphere. The extreme pressure and friction from Earth’s protective layer caused the asteroid to explode over the Russian city of Chelyabinsk. The detonation happened at an altitude of around 97,000 feet.

According to reports, the energy released by the explosion caused by the 66-foot-wide asteroid was equivalent to about 30 atomic bombs. Although much of the explosion was absorbed by the atmosphere, the blast was still powerful enough to affect structures on the ground.

The mid-air blast damaged over 7,000 buildings and around 1,500 people were seriously injured.

Fortunately, CNEOS noted that 2020 BW13 is not in danger of hitting Earth during its upcoming visit. According to the agency, this asteroid will fly past Earth on Feb. 24 at 11:10 a.m. EST from a distance of 0.02333 astronomical units or roughly 2.2 million miles away.

Asteroid Image: Artist illustration of an asteroid heading for the Earth Photo: Pixabay

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2020-02-24 01:58:30Z
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Minggu, 23 Februari 2020

Heat wave melts 20% of snow cover from Antarctic island in days - Axios

6 hours ago - Energy & Environment
Images showing Antarctica melting under its hottest days on record

The effects of February's record heat wave on Eagle Island in Antarctica. Photo: NASA

Antarctica's Eagle Island now has a side that's almost ice-free following this month's searing heat wave in the region, images released by NASA show.

Why it maters: "The warm spell caused widespread melting on nearby glaciers," NASA said in its report. It's the third major melt event of the 2019-2020 Southern Hemisphere summer, following warm spells in January and last November, according to the United Nation's World Meteorological Organization (WMO).

Such persistent warmth was not typical in Antarctica until the 21st century, but it has become more common in recent years."
— NASA statement

Driving the news: The Argentine Antarctic research base Esperanza reported a temperature of 64.9°F on Feb. 9 — indicating a "likely legitimate record," per the WMO, which is still verifying the statistics.

  • The island "experienced peak melt" — about 1 inch — on the day of the reported heat record, leading to a loss of 4 inches in total within 10 days, NASA said in a statement Friday.
  • "About 20% of seasonal snow accumulation in the region melted in this one event on Eagle Island," the statement added.

What they're saying: Mauri Pelto, a glaciologist at Nichols College, who observed the warming event as 0.9 square miles of snowpack became saturated with meltwater, said in NASA's report: "I haven’t seen melt ponds develop this quickly in Antarctica. You see these kinds of melt events in Alaska and Greenland, but not usually in Antarctica."

Of note: The event comes after scientists in January found for the first time warm water beneath Antarctica's "doomsday glacier," so-called because it's one of the region's fastest melting glaciers.

The bottom line: "If you think about this one event in February, it isn't that significant," Pelto said. "It's more significant that these events are coming more frequently."

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2020-02-23 06:14:19Z
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