Alien robot spotted by NASA’s Curiosity rover on Mars - shock claim

NASA’S Martian rover is not the only robot exploring Mars after UFO hunters believed they spotted an alien probe scouring the Red Planet.

14-12-2018 om 18:24 geschreven door peter

14-12-2018 om 18:05 geschreven door peter

Within the first week of the OSIRIS-REx probe arriving at Bennu, it has already detected water on the asteroid. On December 3, 2018, the probe reached the diamond-shaped asteroid in NASA’s first asteroid-sample return mission.

The scientific team pointed three instruments onboard the spacecraft in the direction of Bennu and started their observations. They received data from the probe’s two spectrometers – OVIRS (OSIRIS-REx Visible and Infrared Spectrometer) and OTES (OSIRIS-REx Thermal Emission Spectrometer) – that showed the existence of molecules that contain oxygen and hydrogen atoms that are bonded together. These molecules, which are called “hydroxyls”, are believed to exist across the entire asteroid in water-bearing clay minerals that would indicate that the rocky material on Bennu connected with water at one point. Since Bennu is too small to have ever had liquid water, it’s very possible that it was present on its parent body which was a much bigger asteroid.

Amy Simon, who is the OVIRS deputy instrument scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, said, “The presence of hydrated minerals across the asteroid confirms that Bennu, a remnant from early in the formation of the solar system, is an excellent specimen for the OSIRIS-REx mission to study the composition of primitive volatiles and organics.” She went on to say, “When samples of this material are returned by the mission to Earth in 2023, scientists will receive a treasure trove of new information about the history and evolution of our solar system.”

The surface of Bennu contains a mix of rocky, boulder-filled regions, as well as a few smooth regions that do not have boulders. While there are more boulders than initially thought, there is one in particular that scientists are interested in and it’s located at the asteroid’s South Pole. Initial calculations from the OCAMS (OSIRIS-REx Camera Suite) show that the huge boulder is around 164 feet high by 180 feet wide.

• Click here to see a picture of the Bennu asteroid.

This mosaic image of asteroid Bennu is composed of 12 PolyCam images collected on Dec. 2 by the OSIRIS-REx spacecraft from a range of 15 miles (24 km).

Credits: NASA/Goddard/University of Arizona

The mission is only conducting preliminary surveys of Bennu at this point as it performs flybys over the asteroid’s North Pole, South Pole, and equator at a distance as close as 4.4 miles. Once they determine Bennu’s mass, scientists can then create a plan for the spacecraft to enter its orbit. While performing the surveys, it also gives the Canadian Space Agency’s OLA (OSIRIS-REx Laser Altimeter) its first chance to make observations.

The OSIRIS-REx probe will enter Bennu’s orbit on December 31^st and will stay in orbit until the middle of February in 2019. At that point, it will leave the asteroid’s orbit and conduct more flybys for the following survey phase. The probe will get within one mile of the asteroid’s surface which will set a record for the closest orbit of a planetary body by a spacecraft, as well as another record for the smallest body ever orbited by a spacecraft. The OSIRIS-REx is set to leave the asteroid in March 2021 and head back to Earth.

{ https://mysteriousuniverse.org/ }

14-12-2018 om 10:59 geschreven door peter

Are Aliens Part of God's Plan, Too? Finding E.T. Could Change Religion Forever

14-12-2018 om 01:33 geschreven door peter

KRISTIN HOUSER

Rings Of Fire

If you’re in the market for a new desktop wallpaper, we have 20 suggestions.

A protoplanetary disk is the ring of dust and gas that surrounds a young star. As time passes, the material in the disk begins to coalesce into larger and larger objects, forming everything from asteroids to entire planets.

Now, thanks to a powerful system of radio antennas in the Chilean desert, we have 20 stunning, high-resolution images of such systems — and they are more than desktop-worthy.

Key Of DSHARP

These images are the work of the Disk Substructures at High Angular Resolution Project (DSHARP), a program of the Atacama Large Millimeter Array (ALMA), a massive system of radio antenna positioned in Chile’s Atacama Desert.

According to the program’s website, its goal is to study the smaller objects in protoplanetary disks to determine how those objects related to planet formation.

These images are helping it achieve that goal. According to a news release, the team was able to theorize based on this ALMA data that large planets can form much more quickly than previously thought. They also determined that the planets typically form far from their host stars.

ALMA Matters

In addition to these gorgeous — and data-rich — images produced by DSHARP, just last week an international team of researchers published the preliminary results of a survey in which it used ALMA to image 32 stars surrounded by protoplanetary disks.

Clearly, ALMA has proven to be one of our most useful tools for studying protoplanetary disks, and it’s only been operational for five years. Who knows what sorts of beautiful and useful data the array might produce in the future?

• READ MORE: The Epoch of Planet Formation, Times Twenty [NRAO]
• More on ALMA: Researchers Found a Treasure Trove of Planets Hiding in Dust

{ https://futurism.com/the-byte }

13-12-2018 om 23:41 geschreven door peter

The spacecraft broke speed and distance records on its initial solar flyby

BY LISA GROSSMAN 

 

FIRST LOOK  One of the first images NASA’s Parker Solar Probe took during its close encounter with the sun shows a streamer of plasma in the outer solar atmosphere, or corona. The probe took this image November 8 at a distance of about 27 million kilometers from the sun’s surface. The bright dot below the streamer is Jupiter.

PARKER SOLAR PROBE/NASA AND NAVAL RESEARCH LABORATORY

{ https://www.sciencenews.org/ }

13-12-2018 om 23:06 geschreven door peter

Risk of impact! Dangerous asteroid "BENNU" racing towards the earth

The asteroid "Bennu" is still racing towards our planet (TAG24 reported). It weighs 79 million tons and has a diameter of 500 meters. What can save us now?

Or better, who can save us now? Answer: NASA! They already have a "plan" to avert the impact and annihilation of mankind.

NASA has sent the "Osiris Rex" probe into space for this purpose. And now - after two years and over 650 million kilometres covered - it has finally reached "Bennu"!

"We have arrived", was the message from the US space agency Nasa on Monday. The arrival position of the probe, which was launched in September 2016 from the Cape Canaveral spaceport, is about 20 kilometres from "Bennu".

"Osiris Rex" will now spend about a year investigating Bennu and finding a suitable site for taking a sample.

"Osiris Rex" (short for: Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer) is the first US missile to set off for an asteroid and send a sample back.

If everything goes according to plan, the probe, which is about six meters long and weighs 2100 kilograms, will approach Bennu in 2020 so far that it can absorb a sample of 60 to 2000 grams.

In 2023, a capsule with the sample is to return to Earth. The NASA scientists hope that the mission, which will cost around one billion dollars, will provide them with insights into the origin of our solar system. According to the scientists, the asteroid is to be destroyed.

{ https://www.disclose.tv/ }

13-12-2018 om 22:51 geschreven door peter

Huge lake of liquid water found on Mars

 Michael Irving

{ https://newatlas.com/ }

13-12-2018 om 21:34 geschreven door peter

Mars InSight's 'Mole' Should Start Burrowing into the Red Planet Next Month

Of course, this is space exploration, and that means there's still a chance that something could go wrong. "They're speaking about the seven minutes of terror on landing, now I'm saying we have two months of terror in front of us when we penetrate into the surface," said Tilman Spohn, a planetary scientist at the German space agency, which is known by its German acronym, DLR. [NASA's Mars InSight Lander: 10 Surprising Facts]

The heat probe needs to wait its turn, with the lander's supersensitive seismometer and its protective shielding being deployed first. That process will take about a month and is scheduled to begin next week, Spohn said.

If that goes well, the heat probe will be the next to move, with deployment beginning in mid-January. The drilling process will take about two months, since the probe regularly stops to produce a burst of heat and measure how that heat moves through the rock at its current depth.

What worries Spohn is that a large rock — 3 feet (1 m) in diameter or so — would stymie the probe's drilling mechanism, which relies on pushing aside dirt. Smaller rocks it can either push aside or burrow around, and has demonstrated that ability during tests in rock chambers here on Earth.

If a blockage does occur, how far the probe has managed to travel will determine how helpful the results are to scientists. "The less we penetrate, the worse it will be," Spohn said. If it's just 3 feet (1 m) or so deep, the team will need to rely on more intensive modeling. But if it reaches 10 feet (3 m), which should occur around mid February, the team will be pleased — and if it can reach the full depth of 16 feet (5 m) around March 10 or so, all the better.

Spohn is pleased with InSight's landing site, which is just as flat and rock-free as scientists were hoping for. "We had a lot of luck, we have to say," he said, noting that the robot touched down near — but not inside — a crater. "Had we landed there we would have been in some trouble."

• Email Meghan Bartels at mbartels@space.com or follow her @meghanbartels.
• Follow us @Spacedotcom and Facebook.
• Original article on Space.com.

{ https://www.space.com/ }

13-12-2018 om 21:11 geschreven door peter

Auroras, Lightning and Rings of Jupiter Amaze in Surprising NASA Juno Photos

Its main job is to spot the stars, but an ultrasensitive navigation camera on NASA's Juno spacecraft is returning amazing images of Jupiter's rings, auroras, lightning, and even its moonlit dark side.

Scientists discussed the results from the camera alongside other Jupiter revelations during a briefing Dec. 12 at the American Geophysical Union's annual meeting in Washington, D.C. Juno is approaching the halfway point on its primary mission, with its 16th science pass by the planet set for Dec. 21.

That camera is called the Stellar Reference Unit, or SRU for short. According to Heidi Becker, Juno's radiation monitoring investigation lead at NASA's Jet Propulsion Laboratory in California, the camera's "day job" is to cut through interference from the intense radiation surrounding Jupiter to spot the stars, comparing them to a database to figure out Juno's precise location and orientation during its 53-day, elongated orbits of the gas giant. [In Photos: Juno's Amazing Views of Jupiter]

"It's really hard to do that engineering job on Juno because we're flying Juno through the most violent planetary radiation environment there is," Becker said during the briefing, which was webcast live online. "Even though we had to shield the SRU more than six times heavier than we've shielded the radiation vault [which protects Juno's main computer and other sensitive components], there still are very high-energy electrons in that environment that will penetrate the SRU shielding and create this static that you see in the star image."

But rather than seeing a disruption, the team at JPL uses that "snow" to make measurements of how intense the radiation is over different parts of Jupiter — they've already noticed that the high-latitude radiation belt is less powerful than models suggested.

"We use noise as data to figure out what the environment is on the outside of Juno, because we're flying where nobody flew before," Becker said.

During its first data-collecting dive past Jupiter in August 2016, SRU grabbed the first-ever view of Jupiter's faint rings from the inside. The image also reflects the navigation side of SRU — Orion's Belt can be seen dotting down the lower right of the image, and the blazing star Betelgeuse can be seen just above the ring.

And that view was only the beginning: "Once we started to get a sense of what else the SRU can do as a low-light camera, my team and I kind of got addicted and kept asking the question: What else can this camera bring back that's new, that's never been seen before, or that's never been seen in the way that only the SRU can see it?" Becker said.

The spacecraft's main visible-light camera, called JunoCam, has been returning spectacular images for the public to process, and has proved useful for science in its own right, researchers said at the briefing. And in the low-light conditions on Jupiter's dark side, Becker said, SRU has returned views that rival that camera's detailed view of the planet's swirls.

"When we first saw this image, we thought 'did our data get mixed up with JunoCam's?'" Becker said. But, no, it was indeed from the SRU, with the planet's cloud tops lit by sunlight reflected off the volcanic moon Io, taken just 66,000 miles from the cloud tops. 

In addition, the researchers spotted two bright dots of lightning — visible to the right of the image — providing the closest view of Jupiter's lightning from any imager. Because the spacecraft's microwave radiometer, which has also proved a good lightning detector, faces the same way as the SRU, researchers can eventually combine their measurements to learn about the phenomenon in more depth.

Juno's other instruments have provided incredible views of the planet's auroras in ultraviolet and infrared light, but because of its dark-side views SRU has been able to contribute in the visible spectrum, too, showing the ghostly lights circling the planet's pole.

"This is another first: This is the closest view of Jupiter's aurora that has ever been made by a visible[-light] camera," Becker said. "It's an amazing complement to what Juno is already bringing back in the ultraviolet and in the infrared. And, again, we're seeing amazing structure because of the high resolution of the camera and Juno's close flight to the camera."

This image also reveals another dot of lighting, in the lower right, and the squiggles of high-energy electrons beaming off the planet's poles — "so SRU was doing three kinds of science when it took this picture."

"It's really exciting to see what we can see out of an engineering camera, and we're really erasing all the boundaries between who or what can make a contribution to engineering or science or art," Becker added.

The $1.1 billion Juno mission launched toward Jupiter in August 2011 and arrived in orbit around the planet in July 2016. Since then, it's examined the planet during its long, looping orbits to learn about its interior, cloud patterns and weather, magnetic field, radiation and more.

"We have already rewritten the textbooks on how Jupiter's atmosphere works, and on the complexity and asymmetry of its magnetic field," Scott Bolton, principal investigator for Juno and a researcher at Southwest Research Institute in Texas, said in a statement. "The second half should provide the detail that we can use to refine our understanding of the depth of Jupiter's zonal winds, the generation of its magnetic field, and the structure and evolution of its interior."

• Email Sarah Lewin at slewin@space.com or follow her @SarahExplains.
• Follow us on Twitter @Spacedotcom and on Facebook.
• Original article on Space.com.

{ https://www.space.com/ }

13-12-2018 om 20:54 geschreven door peter

Virgin Galactic doet geslaagde test in aanloop naar ruimtetoerisme - HLN.be

Bron: belga

Vanuit de Mojave-woestijn in Californië vertrok het raketvliegtuig met als testpiloten Mark “Forger” Stucky en Rick “C.J.” Sturckow even na 17.00 uur Belgische tijd met het moedervliegtuig VMS Eve. Op 13 km hoogte “dropte” dit het SpaceShipTwo. Na een vrije val steeg dit met zijn eigen motoren tot meer dan 80 km hoog. Die hoogte is voor Virgin Galactic de grens van de ruimte. Daarna keerde het SpaceShipTwo veilig terug. 

Lees ook

Richard Branson: “Virgin Galactic binnen enkele weken de ruimte in, een paar maanden later volg ik”

De geslaagde vierde test met het ontsteken van de raketmotoren is een opsteker voor de plannen van Branson en co om toeristen kort even in de ruimte te brengen. De volgende stap is naar eigen zeggen het simuleren van het gewicht van de passagiers die het ruimtevliegtuig moet meevoeren. Dat zal gebeuren met vier wetenschappelijke nuttige ladingen die deel uitmaken van een programma van het Amerikaanse ruimtevaartbureau NASA.

Virgin Galactic zegt dat reeds meer dan 600 mannen en vrouwen van over de hele wereld een zitje hebben gereserveerd. Het bedrijf wou naar verluidt niets zeggen over mogelijke Belgische reislustigen. 

{ https://www.hln.be/ }

13-12-2018 om 18:29 geschreven door peter

{ https://www.disclose.tv/ }

13-12-2018 om 01:32 geschreven door peter

NASA's Dawn spacecraft image of the limb of dwarf planet Ceres shows a section of the northern hemisphere in this image on October 17, 2016

( NASA/JPL-Caltech/UCLA/MPS/DLR/IDA/Handout )

CERES: DWARF PLANET IN OUR OWN SOLAR SYSTEM IS 'RICH IN ORGANIC MATTER', ANNOUNCES NASA

World 'is like a chemical factory', says expert

A dwarf planet in our solar system is rich in organic matter, a Nasa spacecraft has shown.

Ceres is like a "chemical factory" full of the same ingredients that helped create life on Earth, according to scientists.

And studying it could reveal how those important processes took place on our own planet.

Ceres, a strange world that sits in the asteroid belt between Mars and Jupiter, is thought to be about 4.6 billion years old, originating at the same time as our solar system.

The Nasa Dawn spacecraft, which sent back the new findings, had already shown the presence of water and other important chemicals such as ammonium.

And now it has found the planet is rich in carbon – far more than even the most carbon-rich meteorites on Earth, and giving it a strange chemical makeup.

"Ceres is like a chemical factory," said the Southwest Research Institute's Simone Marchi, a principal scientist who was the lead author of the research, which is published in Nature Astronomy.

"Among inner solar system bodies, Ceres' has a unique mineralogy, which appears to contain up to 20 percent carbon by mass in its near surface. Our analysis shows that carbon-rich compounds are intimately mixed with products of rock-water interactions, such as clays."

The discoveries could help us understand how planets like Earth came to be – and what laid the foundations for the life that is there today.

"With these findings, Ceres has gained a pivotal role in assessing the origin, evolution and distribution of organic species across the inner solar system," Dr Marchi said. "One has to wonder about how this world may have driven organic chemistry pathways, and how these processes may have affected the make-up of larger planets like the Earth."

{ https://www.independent.co.uk/ }

13-12-2018 om 01:06 geschreven door peter

THE SEARCH FOR ALIENS MAY DEPEND ON IN-SPACE ASSEMBLY

DAN ROBITZSKI

{ https://futurism.com/ }

13-12-2018 om 00:48 geschreven door peter

Images captured from the JunoCam imager seem to show a dolphin-shaped cloud swimming across Jupiter. While seeing an image of a dolphin-shaped cloud is like seeing the face of Jesus in your toast, the phenomenon that’s called pareidolia where we perceive images in random patterns, is really quite fascinating and fun to look at.

Juno spacecraft has been collecting data from our solar system’s largest planet since arriving there in July of 2016 and is expected stay operational until 2021.

On October 29, 2018, the Juno spacecraft made its sixteenth close flyby of the giant gas planet. Citizen-scientists Brian Swift and Seán Doran created the images by using the data collected from an instrument on the spacecraft called the JunoCam imager. According to NASA’s photo description, the series of images that captured the dolphin-shaped cloud swimming along the planet’s South South Temperate Belt appeared between 2:26 p.m. and 2:46 p.m. PDT and were taken from a distance of approximately 11,400 miles to 31,700 miles above Jupiter’s atmosphere.

• Click here to see a picture of this dolphin-shaped cloud.

A dolphin-shaped cloud is visible in these Oct. 29 images of Jupiter's southern belt.

Credit: Brian Swift/Seán Doran/NASA/JPL-Caltech/SwRI/MSSS

Seán Doran@_TheSeaning

A dolphin swims in Jupiter's sky.@NASAJuno Perijove 16 [ Swift/Doran ]

• 9,431

1:25 AM - Nov 8, 2018

• 4,486 people are talking about this

Although NASA officially released the photo to the public on November 30^th, Seán Doran beat them to it as he posted a photo of the oddly-shaped cloud on November 7^th in a Twitter post. Since Juno arrived at Jupiter, Doran has been processing images with data collected from the spacecraft.

Another strange image captured two of Saturn’s moons in an odd position. Although it looks more like a snowman, the image was of Saturn’s moons called Dione and Rhea that was captured by the Cassini spacecraft that spent thirteen years orbiting the ringed planet before plunging into its atmosphere in September of 2017.

• To see this unique picture of the moons, click here.

Image: Dione and Rhea appear as one

Credit: NASA/JPL/Space Science Institute

While the two moons look as though they were conjoined in the picture, Dione (which is the top moon in the picture) is in fact quite a bit smaller than Rhea. Dione has a diameter of 1,123 kilometers while Rhea has a diameter of 1,528 kilometers. Since Dione was closer to the spacecraft at the time that the picture was taken, they both appear nearly identical and as if they were touching or joined even though they are two separate moons. To elaborate, at the time that the picture was taken, Dione was approximately 1.1 million kilometers from Cassini, while Rhea was about 1.6 million kilometers away from the spacecraft.

Another reason why the moons looked conjoined is because Dione has a large crater called Evander that’s located in the center of the South Polar Region (where Rhea appears to connect with it) which makes the picture even more convincing that they were joined.

{ https://mysteriousuniverse.org/ }

12-12-2018 om 23:51 geschreven door peter

It’s the 100th anniversary of the birth of the Soviet Union’s most famous (and most hated by its leaders ) novelist — Aleksandr Solzhenitsyn – who brought the word “gulag” into the vocabulary of the Western world. A century later, a certain Russian space scientist may be glad those forced labor camps no longer exist (or do they?) after going against the leader of Russia’s space program and saying that not only does he believe that the U.S. landed humans on the moon, faking such a landing would be harder than actually accomplishing it. Hear that, lunar-landing-denier Steph Curry?

“Falsifying moon soil is impossible. The Americans brought back to Earth about 300 kilos of it, most of it basalt.”

In a wide-ranging interview with the Russian news agency RIA Novosti, Yury Kostitsyn, the head of Russia’s Institute of Analytical Chemistry, went against recent statements of Roscosmos head Dmitry Rogozin, who “joked” that one purpose of Russia’s own future lunar missions will be to prove or disprove the 1969 Apollo 11 landing, give the country an opportunity to check whether Neil Armstrong’s footprints are actually out there.

“The question of whether the Americans landed on the moon in 1961-1972 is not controversial. However, there are still speculations on this topic in the world and mainly come from people who have nothing to do with space. You will not hear from any astronaut that the Americans have not landed on the moon.”

The “astronauts” Kostitsyn is referring to are Russian cosmonauts who know that the U.S. lunar space program was and still is far ahead of theirs. However, as a scientist, he looks for proof in the lunar rocks themselves, which he and other Russians were allowed to examine. He points out that although basalt came into existence on both the Earth and the moon at the same time, there are no old samples on Earth because of weathering. On the other hand, the samples from the moon are over 4 billion years old, far older than any rocks on Earth. In addition, they show a different form of weathering due to solar wind, which does not affect Earth rocks.

Then he goes after Dmitry Rogozin and Steph Curry.

“The Americans were very worried whether the USSR was going to arrange a trick on the moon – after all, at the same time as their mission, the USSR launched its probes on the moon. Of course, we did not have the task to harm them, it was – to get ahead. Staging the landing of American astronauts on the moon would be more difficult and more expensive than its actual implementation. Including because then this deception would have to be kept secret, which is not possible. NASA could classify its materials, but many independent firms participated in the implementation of Apollo.”

Even in the Soviet Union, with the threat of gulags and worse, it would be impossible to have so many different and independent parties keep such a massive hoax a secret for 50 years. Kostitsyn also points out that, while the U.S. seems to be focused on Mars, Russia is talking about establishing a base on the moon – a project that will require a better understanding of how much water is actually there and available.

“To build a base on the moon, you first need to establish life there and solve the problem of protecting people from space radiation. To do this, from the lunar substance to build shelters, and inside them to maintain the atmosphere. It is difficult to carry oxygen from Earth, therefore the water on the Moon is of primary interest – we need to understand how much water is there, how much water is available and how to get oxygen out of it.”

Oxygen and protection from radiation – two challenges Kostitsyn thinks are beyond the ability of Roscosmos and its goal of establishing a base in the 2030s.

“I think that humankind will not be able to fully live on the Moon soon. In the next decade, most likely, missions to the Moon will be resumed – both Russia, the USA and China have plans to launch orbiters there for the time being. Plans for the creation of manned moon descent modules remain at the level of theory.”

It’s discussions like this that remind us we need to listen more to scientists and less to NBA stars.

{ https://mysteriousuniverse.org/ }

12-12-2018 om 16:19 geschreven door peter

Kornmesser | Wikimedia Commons 

Rendering of Oumuamua

For the first time in history, scientists have detected the first interstellar object ever observed.

In October 2017, an elongated interstellar object named "Oumuamua" — the first to enter the solar system — was detected by a survey telescope in Hawaii. A new study published this week in the Astronomical Journal, coauthored by scientists at NASA's Jet Propulsion Laboratory, uncovered new information that suggested there was a limit to how big Oumuamua actually is, and gave astronomers a better indication of its size.

Scientists have been looking for signs of extraterrestrial life for decades. So does the appearance of Oumuamua mean the elusive "E.T" has finally been detected? Perhaps: Experts say it is exceedingly unlikely, but the possibility can't be ruled out just yet.

"I personally think the odds are much better that is something natural, but I don't want to dismiss the possibility that it could be from an alien civilization. But we have to have an open mind," Michael Wall, a writer at Space.com and a biologist, told CNBC recently.

Scientists believe Oumuamua is shaped like a cigar, approximately 400 feet long and 40 feet wide. However, they are only able to guess based on its changing brightness as it spins.

But scientists' biggest unanswered question is the object's thickness. As far as the scientific community is aware, there is no naturally occurring object that is as big as Oumuamua that appears so thin at the same time, increasing the likelihood that it was created by another life form.

Given the speed the object is moving, experts believe that it may be a light sail — an object that is thin enough to be pushed by the sun or another star, almost like a plastic bag in the wind, according to Matija Cuk, a research scientist at the Search for Extraterrestrial Intelligence (SETI) Institute.

Seth Shostak, a SETI research fellow, told CNBC that for that to be true, Oumuamua would have to be about a millimeter thick—about as thick as 5-10 sheets of paper stacked together.

According to Wall, scientists originally hypothesized that Oumuamua was a comet or an asteroid. However, both theories were ruled out: Unlike comets studied here on earth, this object does not have a tail, nor jets of gas that a comet would normally emit.

If Oumuamua is not a comet or an asteroid, chances of it being a light sail increase. According to SETI's Cuk, it is possible that outside our solar system, composition of space objects are different.

"Maybe in other solar systems comets could be made differently," Cuk said. That suggests the object could be naturally occurring, despite the fact that nothing like it has ever been seen anywhere near earth before.

Shostak said there are likely many objects similar to Oumuamua in the depths of space. This time, the object "hit the bullseye" by reaching the earth's solar system.

"This implies a number of these things are drifting through the cosmos, as ubiquitous as fire hydrants," Shostak said.

These objects have also likely reached our solar system in the past and gone unnoticed. Scientists are building another telescope similar to the one in Hawaii that detected Oumuamua. Once it is completed in Chile, it will be used to search for similar objects.

"Unless a miracle has occurred, these are entering our solar system all the time. This is just the first one we've found," Shostak said. He acknowledged the alien hypothesis was plausible, adding that Oumuamua acted more like a rock than a spaceship.

"If they really wanted to target our solar system, they'd hang around longer and probably come closer to the earth," he said.

Scientists also would have been able to detect any sort of signal the object had if it were as advanced as a cell phone, Shostak said. That does not prove anything, but decreases the likelihood that it was deliberately sent.

Oumuamua is now drifting further away from our solar system. The longer the distance, the harder it will be for earthlings to study it. Yet as technology increases, scientists may discover more objects similar to Oumuamua, perhaps in the next three to ten years.

"If we don't keep finding them, this will be increasingly peculiar," Shostak said.

Correction: Oumuamua was first discovered in October 2017.

{ https://www.cnbc.com/ }

12-12-2018 om 01:29 geschreven door peter

'Blueberries' on Mars Have a Watery Past. But Scientists Are Still Baffled.

12-12-2018 om 00:39 geschreven door peter

The craft will spend 2019 scoping out the best spot to grab a handful of space rock dust

BY LISA GROSSMAN 

ROUGH TERRAIN 

The boulder-strewn asteroid Bennu, shown here in a mosaic of images taken by the OSIRIS-REx spacecraft on December 2, is full of water-rich minerals.

As the asteroid Bennu comes into sharper focus, planetary scientists are seeing signs of water locked up in the asteroid’s rocks, NASA team members announced December 10.

“It’s one of the things we were hoping to find,” team member Amy Simon of NASA’s Goddard Space Flight Center in Greenbelt, Md., said in a news conference at the American Geophysical Union meeting in Washington, D.C. “This is evidence of liquid water in Bennu’s past. This is really big news.”

NASA’s OSIRIS-REx spacecraft just arrived at Bennu on December 3 (SN Online: 12/3/18). Over the next year, the team will search for the perfect spot on the asteroid to grab a handful of dust and return it to Earth. “Very early in the mission, we’ve found out Bennu is going to provide the type of material we want to return,” said principal investigator Dante Lauretta of the University of Arizona in Tucson. “It definitely looks like we’ve gone to the right place.”

OSIRIS-REx’s onboard spectrometers measure the chemical signatures of various minerals based on the wavelengths of light they emit and absorb. The instruments were able to see signs of hydrated mineralson Bennu’s surface about a month before the spacecraft arrived at the asteroid, and the signal has remained strong all over the asteroid’s surface as the spacecraft approached, Simon said. Those minerals can form only in the presence of liquid water, and suggest that Bennu had a hydrothermal system in its past.

Bennu’s surface is also covered in more boulders and craters than the team had expected based on observations of the asteroid taken from Earth. Remote observations led the team to expect a few large boulders, about 10 meters wide. Instead they see hundreds, some of them up to 50 meters wide.

“It’s a little more rugged of an environment,” Lauretta said. But that rough surface can reveal details of Bennu’s internal structure and history.

If Bennu were one solid mass, for instance, a major impact could crack or shatter its entire surface. The fact that it has large craters means it has survived impacts intact. It may be more of a rubble pile loosely held together by its own gravity.

Telling scars

Crater pockmarks on Bennu, like this 20-meter-wide depression photographed on December 2, may turn out to be the safest places for the spacecraft to pick up a sample of the asteroid. Craters also tell scientists that the asteroid is not one solid mass but instead different materials clumped together. If Bennu had been a solid rock, large impacts could crack or shatter its surface.

UNIV. OF ARIZ./GODDARD/NASA

The asteroid’s density supports the rubble pile idea. OSIRIS-REx’s first estimate of Bennu’s density shows it is about 1,200 kilograms per cubic meter, Lauretta said. The average rock is about 3,000 kilograms per cubic meter. The hydrated minerals go some way towards lowering the asteroid’s density, since water is less dense than rock. But up to 40 percent of the asteroid may be full of caves and voids as well, Lauretta said.

Some of the rocks on the surface appear to be fractured in a spindly pattern. “If you drop a dinner plate on the ground, you get a spider web of fractures,” says team member Kevin Walsh of the Southwest Research Institute in Boulder, Colo. “We’re seeing this in some boulders.”

The boulders may have cracked in response to the drastic change in temperatures they experience as the asteroid spins. Studying those fracture patterns in more detail will reveal the properties of the rocks.

The OSIRIS-REx team also needs to know how many boulders of various sizes are strewn across the asteroid’s surface. Any rock larger than about 20 centimeters across would pose a hazard to the spacecraft’s sampling arm, says Keara Burke of the University of Arizona. Burke, an undergraduate engineering student, is heading up a boulder mapping project.

Cracked surface

Some of the rocks strewn across Bennu, like this 35-meter-wide boulder photographed on December 2, are fractured in a spindly pattern. The fractures may be the result of sudden, drastic temperature change. Studying the fracture patterns could help scientists learn more about the properties of the rocks.

UNIV. OF ARIZ./GODDARD/NASA

“My primary goal is safety,” she says. “If it looks like a boulder to me, within reasonable guidelines, then I mark it as a boulder. We can’t sample anything if we’re going to crash.”

The team also needs to know where the smallest grains of rock and dust are, as OSIRIS-REx’s sampling arm can pick up grains only about 2 centimeters across. One way to find the small rocks is to measure how well the asteroid’s surface retains heat. Bigger rocks are slower to heat up and slower to cool down, so they’ll radiate heat out into space even on the asteroid’s night side. Smaller grains of dust heat up and cool down much more quickly.

“It’s exactly like a beach,” Walsh says. “During the day it’s scalding hot, but then it’s instantly cold when the sun sets.”

Measurements of the asteroid’s heat storage so far suggest that there are regions with grains as small as 1 or 2 centimeters across, Lauretta said, though it is still too early to be certain.

“I am confident that we’ll find some fine-grained regions,” Lauretta said. Some may be located inside craters. The challenge will be finding an area wide enough that the spacecraft’s navigation system can steer to it accurately.

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Editor's note: This story was updated December 11, 2018, to correct the description of Bennu's density. It's measured in cubic meters, not cubic centimeters.

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