NASA Kelpler mission reveals that huge solar flares sparked the creation of DNA molecules leading for life on Earth

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NASA’s Kepler Mission found stars that resemble our sun about a few million years after its birth. The Kepler data showed many examples of what are called “superflares” – enormous explosions so rare today that we only experience them once every 100 years or so. Yet the Kepler data also show these youngsters producing as many as ten superflares a day.

“Early Earth received only about 70 percent of the energy from the sun than it does today,” said Vladimir Airapetian, a solar scientist at +NASA Goddard center. “That means Earth should have been an icy ball. Instead, geological evidence says it was a warm globe with liquid water. We call this the Faint Young Sun Paradox. Our research shows that solar storms could have been central to warming Earth.”

Credit image: +NASA 

Our sun’s adolescence was stormy, and new evidence, shows that these tempests may have been just the key to seeding life as we know it. Some 4 billion years ago, the sun shone with only about three-quarters the brightness we see today, but its surface roiled with giant eruptions spewing enormous amounts of solar material and radiation out into space. These powerful solar explosions may have provided the crucial energy needed to warm Earth, despite the sun’s faintness.The eruptions also may have furnished the energy needed to turn simple molecules into the complex molecules such as RNA and DNA that were necessary for life.

Understanding what conditions were necessary for life on our planet helps us both trace the origins of life on Earth and guide the search for life on other planets. Until now, however, fully mapping Earth’s evolution has been hindered by the simple fact that the young sun wasn’t luminous enough to warm Earth.

Scientists are able to piece together the history of the sun by searching for similar stars in our galaxy. By placing these sun-like stars in order according to their age, the stars appear as a functional timeline of how our own sun evolved. It is from this kind of data that scientists know the sun was fainter 4 billion years ago. Such studies also show that young stars frequently produce powerful flares – giant bursts of light and radiation — similar to the flares we see on our own sun today. Such flares are often accompanied by huge clouds of solar material, called coronal mass ejections, or CMEs, which erupt out into space.

While our sun still produces flares and CMEs, they are not so frequent or intense. What’s more, Earth today has a strong magnetic field that helps keep the bulk of the energy from such space weather from reaching Earth. Space weather can, however, significantly disturb a magnetic bubble around our planet, the magnetosphere, a phenomenon referred to as geomagnetic storms that can affect radio communications and our satellites in space. It also creates auroras – most often in a narrow region near the poles where Earth’s magnetic fields bow down to touch the planet.

Credit video: +NASA Goddard 

Our young Earth, however, had a weaker magnetic field, with a much wider footprint near the poles. “Our calculations show that you would have regularly seen auroras all the way down in South Carolina,” says Airapetian, lead author of the paper. “And as the particles from the space weather traveled down the magnetic field lines, they would have slammed into abundant nitrogen molecules in the atmosphere. Changing the atmosphere’s chemistry turns out to have made all the difference for life on Earth.”

The atmosphere of early Earth was also different than it is now: Molecular nitrogen – that is, two nitrogen atoms bound together into a molecule – made up 90 percent of the atmosphere, compared to only 78 percent today. As energetic particles slammed into these nitrogen molecules, the impact broke them up into individual nitrogen atoms. They, in turn, collided with carbon dioxide, separating those molecules into carbon monoxide and oxygen.

The free-floating nitrogen and oxygen combined into nitrous oxide, which is a powerful greenhouse gas. When it comes to warming the atmosphere, nitrous oxide is some 300 times more powerful than carbon dioxide. The teams’ calculations show that if the early atmosphere housed less than one percent as much nitrous oxide as it did carbon dioxide, it would warm the planet enough for liquid water to exist.

This newly discovered constant influx of solar particles to early Earth may have done more than just warm the atmosphere, it may also have provided the energy needed to make complex chemicals. In a planet scattered evenly with simple molecules, it takes a huge amount of incoming energy to create the complex molecules such as RNA and DNA that eventually seeded life.

While enough energy appears to be hugely important for a growing planet, too much would also be an issue — a constant chain of solar eruptions producing showers of particle radiation can be quite detrimental. Such an onslaught of magnetic clouds can rip off a planet’s atmosphere if the magnetosphere is too weak. Understanding these kinds of balances help scientists determine what kinds of stars and what kinds of planets could be hospitable for life.

“We want to gather all this information together, how close a planet is to the star, how energetic the star is, how strong the planet’s magnetosphere is in order to help search for habitable planets around stars near our own and throughout the galaxy,” said William Danchi, principal investigator of the project at Goddard and a co-author on the paper. “This work includes scientists from many fields — those who study the sun, the stars, the planets, chemistry and biology. Working together we can create a robust description of what the early days of our home planet looked like – and where life might exist elsewhere.”

Source: NASA

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Europe pushing by ESA will start a new space project and will send humans back to the moon by 2030

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+NASA and the private space industry has its sights set on putting a human on Mars. Europe, however, has slightly more modest goals; it wants to put humans back on the moon and build a base.

The +European Space Agency, ESA has announced its intentions to send astronauts to our nearest satellite by 2030. A video posted on the agency's website titled 'Destination Moon' sets out the plan that  will see European developed robots sent to the surface first.

"This return to the Moon envisions a series of human missions starting in the early 2020s that would see astronauts interact with robots on the lunar surface from orbit," a statement on the ESA website says. "Eventually we will see a sustained infrastructure for research and exploration where humans will live and work for prolonged periods," the video's narrator says. This plan could look like the space base presented in the movie The Martian, but on the lunar land.

"Here we will put into practice the lessons of the International Space Station, to establish a facility akin to those we see in Antarctica today. In the future the moon can become a place where the nations of the world work together."

The ESA says that it will learn "lessons" from its experience in building and maintaining International Space Station, where British astronaut Tim Peake is currently based.

Unlike the 1960s space race, which led to the Apollo missions putting man on the moon's surface for the first time, this attempt will not be a competition. Both the Russian space agency and the China National Space Administration each have their own plans to explore the moon. ESA's announcement may be welcome however, with Russian plans for exploration potentially faltering due to economic problems.

"This new exploration will be achieved not in competition, as in the past, but through peaceful, international cooperation," the video says.

Plans for the mission include projects to explore the unknown parts of the moon, as human and robot exploration of the satellite has mostly focused on the surface that faces the Earth and that around the equator. The ESA-led mission, which will work in collaboration with others, including Nasa, will look to learn more about "the polar regions hand-in-hand with robots".

"In the coming years we will see explorers at the lunar poles; exploiting the sunlight for solar power and performing research to benefit life on Earth and to understand our place in the universe," the video says.

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NASA shares its technologies with Hollywood for the movies The Martian

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NASA explained the science behind nine real NASA technologies featured in Ridley Scott’s new film The Martian. Based on the 2011 novel of the same name by Andy Weir, the upcoming film stars Matt Damon as Mark Watney, a botanist accidentally left for dead on Mars.

Credit image: Nuevemonos

“The Martian” merges the fictional and factual narratives about Mars, building upon the work NASA and others have done exploring Mars and moving it forward into the 2030s, when NASA astronauts are regularly traveling to Mars and living on the surface to explore. Although the action takes place 20 years in the future, NASA is already developing many of the technologies that appear in the film.

• The habitat: On the surface of Mars, Watney spends a significant amount of time in the habitation module, called the Hab, his home away from home. Future astronauts who land on Mars will need such a home to avoid spending their Martian sols lying on the dust in a spacesuit.
  At NASA Johnson Space Center, crews train for long-duration deep space missions in the Human Exploration Research Analog (HERA). HERA is a self-contained environment that simulates a deep-space habit. The two-story habitat is complete with living quarters, workspaces, a hygiene module and a simulated airlock. Within the module, test subjects conduct operational tasks, complete payload objectives and live together for 14 days (soon planned to increase to up to 60 days), simulating future missions in the isolated environment. Astronauts have recently used the facility to simulate ISS missions. These research analogs provide valuable data in human factors, behavioral health and countermeasures to help further NASA’s understanding on how to conduct deep space operations.

• The rover: once humans land on the surface of Mars, they must stay there for more than a year, while the planets move into a position that will minimize the length of their trip home. This allows the astronauts plenty of time to conduct experiments and explore the surrounding area, but they won’t want to be limited to how far they can go on foot. Astronauts will have to use robust, reliable and versatile rovers to travel farther. In "The Martian," Watney takes his rover for quite a few spins, and he even has to outfit the vehicle with some unorthodox modifications to help him survive. Here, the rover should be more bigger than Curiosity, the NASA's rover or Yutu the Chinese's rover.
  On Earth today, NASA is working to prepare for every encounter with the Multi-Mission Space Exploration Vehicle (MMSEV). The MMSEV has been used in NASA’s analog mission projects to help solve problems that the agency is aware of and to reveal some that may be hidden. The technologies are developed to be versatile enough to support missions to an asteroid, Mars, its moons and other missions in the future. NASA’s MMSEV has helped address issues like range, rapid entry/exit and radiation protection. Some versions of the vehicle have six pivoting wheels for maneuverability. In the instance of a flat tire, the vehicle simply lifts up the bad wheel and keeps on rolling.

More technology have been shared, such as: plant farm, water recovery, oxygen generation, Mars spacesuit, ion propulsion, solar panel, ....

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Launch of the Japanese supply spaceship to ISS today

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Japan will launch its robotic HTV-5 cargo vessel toward the International Space Station on Wednesday morning, August 19th at 7:50 a.m. EDT (1150 GMT). You can watch the liftoff live in the window below, courtesy of NASA TV. Coverage begins at 7 a.m. EDT (1100 GMT). If all goes according to plan, HTV-5 will arrive at the space station next Monday morning, August 24th 2015.

The HTV is one of four robotic spacecraft that currently resupply the space station, along with Russia's Progress freighter and the Dragon and Cygnus vehicles, which are built by American companies SpaceX and Orbital ATK, respectively. The HTV, Progress and Cygnus are designed to burn up in Earth's atmosphere at the end of their cargo missions, while Dragon makes a parachute-aided splashdown in the ocean when its time in space is done.

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OneWeb selects Airbus to build 900 Internet satellites

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Airbus Defense and Space and OneWeb, a startup backed by Richard Branson’s Virgin Group and wireless tech giant Qualcomm, announced Monday plans to set up a joint venture for the construction of 900 Internet broadcasting satellites for launches beginning in 2018. Each OneWeb satellite will weigh less than 150 kilograms (330 pounds) and will begin launching in 2018. The satellites will fly in orbits about 1,200 kilometers (745 miles) above Earth. OneWeb’s constellation will consist of 648 operational satellites. The rest of the spacecraft will be spares on the ground or in orbit.

Credit image: Oneweb

OneWeb’s selection of Airbus comes after a competition among U.S. and European satellite manufacturers to win the lucrative deal to construct the largest fleet of spacecraft ever launched. The financial terms of the agreement were not disclosed, but Airbus officials said it requires the company to scale up its satellite manufacturing business to complete construction of up to four spacecraft per day.

In a statement, Airbus and OneWeb officials said the European contractor’s experience with assembly line production of airliners will help establish the rapid cadence of satellite integration required to meet OneWeb’s ambitious launch schedule. Airbus and OneWeb said the first 10 satellites will be produced at the Airbus plant in Toulouse, France. The remaining 890 satellites will be assembled at an undisclosed site in the United States.

The companies announced the partnership in conjunction with the Paris Air Show:

- “Combining the innovation and large volume manufacturing techniques from its A350 aircraft production, with a rich history of building extremely reliable high performance space systems, Team Airbus will help us deliver the OneWeb system on time, providing reliable connectivity for our customers,” said Brian Holz, head of space systems at OneWeb. “We look forward to working with Airbus Defense and Space in order to bring to bear the best resources around the globe for achieving affordable Internet access for everyone.”

- “This partnership is a fantastic new chapter in our space story,” said Francois Auque, head of space systems at Airbus Defense and Space. “Teaming with OneWeb with a requirement to produce several small satellites each day has inspired us to develop innovative designs and processes that will dramatically lower the cost in large volumes for high performance space applications.”

Airbus Defense and Space’s core satellite business is in building large one-off communications and Earth imaging spacecraft spacecraft. The company has a base satellite platform, but each production unit is tailored to the needs of its customer.

OneWeb officials said earlier this year the company would place launch contracts after selecting a satellite manufacturer. Launch providers from the United States and Europe, such as a new air-launched rocket under development by Branson’s Virgin Galactic, are thought to be in contention for OneWeb deals. Established by telecom entrepreneur Greg Wyler and based in Britain’s Channel Islands, OneWeb plans to deploy the satellites into 20 orbital planes around Earth for global coverage. The satellite Internet signals will supply private consumers, businesses, schools, and hospitals with broadband connectivity through small ground user terminals, which can connect nearby phones, computers and other devices with the Internet, according to OneWeb. The network will provide more than 10 terabits per second of new capacity to underserved areas around the world and extend the reach of mobile phone networks and Internet service providers, OneWeb officials said.

Before splitting off to launch OneWeb, Wyler founded O3b Networks to beam backhaul broadband services to rural areas. O3b has 12 satellites in orbit today, and telecom companies from Pacific island nations and Africa are among O3b’s initial customers. O3b is backed by Google, HSBC and satellite operator SES. Wyler joined Google from O3b, then left last year to work on OneWeb.

“The constellation is a communications system to bring Internet access to the world,” Wyler said in a promotional video posted on YouTube by Airbus. “The fundamental mission is to enable affordable access to the emerging markets. Just about half the world has limited to no communications at all. It’s a big project, but OneWeb is designed to bring Internet access right to the schools, and right to places in the most rural of environments, high-speed Internet access: 50 megabits per second at 30 milliseconds latency.”

Google confirmed in February a $900 million investment in SpaceX to support innovation in space transportation, reusability and satellite manufacturing. Armed with fresh Google funding, SpaceX chief executive Elon Musk in January announced a plan to field a 4,000-satellite constellation in low Earth orbit for global Internet service, with initial operations expected within five years. Musk said SpaceX will build its own satellites at a new manufacturing center in Redmond, Washington, keeping with the company’s penchant for in-house hardware production. Large satellite fleets have met trouble in the past. An 840-satellite constellation named Teledesic went bust in 2002 before its first launch, even with the backing of Bill Gates, cell phone tycoon Craig McCaw and Saudi Arabian Prince Alwaleed bin Talal.

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LDSD flight complete and NASA discussed status of test Mars landing

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last week we announced you that +NASA was ready for its its second flight test of Low-Density Supersonic Decelerator.

This first of three LDSD flights will determine the flying qualities of the test vehicle. As a bonus, the flight plan also includes deployment of two new technologies -- an inflatable device and mammoth parachute. However, those landing technologies are not officially scheduled to be tested until next summer, in two additional LDSD flights.

Yesterday NASA released status report of the test flight. NASA’s Low-Density Supersonic Decelerator (LDSD) project completed its second flight test when the saucer-shaped craft splashed down safely Monday in the Pacific Ocean off the coast of the Hawaiian island of Kauai. A post-flight media teleconference will be held at 1 p.m. EDT/7a.m., Tuesday, June 9th to review the test.

Audio of the teleconference will be streamed live at: http://www.nasa.gov/newsaudio

Credit image: +NASA 

Two experimental decelerator technologies – a supersonic inflatable aerodynamic decelerator and a supersonic parachute – were tested. The supersonic inflatable aerodynamic decelerator deployed and inflated. The supersonic parachute also deployed; however, it did not perform as expected. Data were obtained on the performance of both innovative braking technologies, and the teams are beginning to study the data.

NASA is ready for its second flight test of Low-Density Supersonic Decelerator

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The second flight test of +NASA's Low-Density Supersonic Decelerator (LDSD) is expected today, Tuesday, June 2nd, The flight test is a launch of a rocket-powered, saucer-shaped test vehicle into near-space from the Pacific Missile Range Facility on the island of Kauai in Hawaii. At launch time, a giant balloon will carry the test vehicle to an altitude of about 36 km. 

Credit image: +NASA 

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Ariane 5 ready for Arianespace’s upcoming heavy-lift mission

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Arianespace has delivered another Ariane 5 to the launch zone at Europe’s Spaceport in French Guiana, positioning this workhorse heavy-lift vehicle for tomorrow’s flight with a pair of telecommunications satellites: THOR 7 and SICRAL 2.

The Ariane 5 rolled out yesterday from the Spaceport’s Final Assembly Building to the ELA-3 launch zone, where it is scheduled for liftoff during a launch window that opens on April 24th at 4:38 p.m. local time in French Guiana, or 9:38 Paris time.

Credit image: Ariane Space

For this 78th overall flight of an Ariane 5, the payload lift performance is estimated at 9,850 kg. – which includes a combined total of some 9,000 kg for the two satellites, plus the launcher’s dual-passenger dispenser system and integration hardware.

Riding as the upper passenger in Ariane 5’s payload arrangement is THOR 7, which will be released at approximately 28 minutes into the mission. The spacecraft was built by SSL (Space Systems/Loral) for Telenor Satellite Broadcasting, and will operate from an orbital position of .8 deg. West.

THOR 7 is to serve the maritime sector, delivering high-powered coverage over the North Sea, the Norwegian Sea, the Red Sea, the Baltic Sea and the Mediterranean. Also incorporated in this relay platform is a Ku-band payload for broadcast and television services in Central and Eastern Europe.

SICRAL 2 is a military telecommunications satellite developed in the framework of a turnkey contract that the Italian Defense Ministry and the French DGA armament agency (Direction Générale de l’Armement) have with Thales Alenia Space Italy; while Telespazio is responsible for the launch service. It will be deployed from Ariane 5’s lower passenger position at approximately 34 minutes after liftoff – completing the mission.

After the deployment by Ariane 5, SICRAL 2 – offering a design life of 15 years – will provide strategic and tactical telecommunications links for French and Italian military forces, as well as reserve capacity for other NATO nations.

Tomorrow’s Ariane 5 launch is designated VA222, signifying the 222nd liftoff of an Ariane-series vehicle since 1979. It also will mark Arianespace’s third flight in 2015 with a launcher from its three-member family – following the medium-lift Soyuz mission on March 27 that orbited two European Galileo FOC (Full Operational Capability) navigation satellites, and February 11’s lightweight Vega suborbital flight with Europe’s Intermediate eXperimental Vehicle (IXV) spaceplane.

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Asteroid size of Statue of Liberty 'on collision course with Earth

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an astronomer has claimed an asteroid the size of the Statue of Liberty is on a collision course with earth. Dr Judit Györgyey-Ries, astronomer at the University of Texas' McDonald Observatory, believes the giant rock could create a huge impact when it reaches earth in around October 2017.

Scientists estimate Asteroid 2012 TC4 is around 40 meters wide and could cause even more chaos than the one which hospitalised more than 1,200 people when it exploded over Russia in February 2013 .

Dr Györgyey-Ries told astronomy website astrowatch.net: "We could see an airburst maybe broken windows, depending on where it hits.

The giant asteroid narrowly missed earth in October 2012 when it passed 94,800 km away. Detlef Koschny, head of the near-earth object segment at the +European Space Agency, ESA , said: "There is a one in a million chance that it could hit us.

"The size was estimated from the brightness, but we don't know the reflectivity. So it could be smaller or larger, assume from 10 to 40 metres.

"A 40m iron object would go through the atmosphere and make a crater; a 10m rocky object would hardly be noticed."

Shock waves from the Russia airburst smashed windows, rattled buildings, and knocked people off their feet, more than 1,200 of whom attended hospital.

Researchers visiting villages in the area found a region of shock-wave damage extending some 50 miles on either side of the meteor's trajectory path.

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SpaceX just released some gorgeous 4K rocket launch footage

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As if watching rockets going to space wasn't already awesome, +SpaceX  just released a two-minute supercut of 4K footage of its Falcon 9 rocket launches. It's got some slow-motion footage, some HDR-style footage, and lots of different angles of a vehicle that is capable of producing a million pounds of thrust. All of it is beautiful, even if it's accompanied by an unnecessarily loud techno track that covers up the thrilling sound of a rocket taking off.

  Credit video: +SpaceX

Coincidentally, SpaceX has another Falcon 9 launch scheduled for today. After the rocket helps deliver cargo to the +International Space Station, the company will once again attempt to land its reusable Falcon 9 on an autonomous drone ship at sea; something it has unsuccessfully tried twice. No pressure. 

Credit image: +SpaceX 

SpaceX intends to build a vertical launch area and control center to support 12 commercial launches per year.

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Mystery haze found on Mars surprises scientists

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Enormous cloud-like plumes reaching 260 kilometers above the surface of Mars have left scientists baffled. This is way beyond Mars’ normal weather, reaching into the exosphere where the atmosphere merges with interplanetary space. None of the conventional explanations for such clouds make sense, neither water or carbon dioxide ice nor dust storms nor auroral light emissions usually hit such heights.

These “mystery clouds” came as a surprise, in particular when considering they were first spotted by a string of amateur astronomers in 2012. After all, an international fleet of five orbiters and two rovers is currently operating on and around Mars, and one may be excused thinking the red planet has little left to hide and its exploration has become routine.

A survey of images from the +Hubble Space Telescope and amateur astronomers revealed massive clouds had been seen on Mars before, but none as prominent as the 2012 observations.

Perhaps these clouds could be aurorae, similar to the northern lights (aurora borealis) here on Earth, or their southern counterpart aurora australis. These displays happen when the Earth’s magnetic field channels charged particles emitted by the Sun towards the poles, where they interact with the atmosphere and emit light.

Mars does not have a global magnetic field, only pockets of magnetization. The mystery clouds were spotted over one of these so-called magnetic anomalies, and auroral lights have been observed there previously.

However, to explain the 2012 observations, an aurora would have had to be 1,000 times brighter than the northern lights. This would require an increased flow of charged particles from the sun, but its activity was not unusually high during the time. Could dust be the culprit? A volcanic eruption or an asteroid impact were among the earliest theories about these clouds’ origin. New eruptions on Mars are plausible, though we’re yet to observe any active volcanoes on the planet. The youngest lava flows reported are a few million to tens of million years old, which is recent in geological terms.

Mars’ thin atmosphere offers little protection against asteroids, and its surface is pockmarked with impact craters. Cameras on board NASA’s Mars Reconnaissance Orbiter have documented the appearance of hundreds of new craters in the nine years since the spacecraft arrived at Mars.

However, both theories were quickly discarded because they were inconsistent with the behavior of the clouds. Continued observations showed that they disappeared during the Martian daytime, were not visible in the evening, and reappeared each morning for at least ten consecutive days.

This also rules out dust storms, which frequently engulf large areas of the planet’s surface. Furthermore, the wavelength profile of the light reflected by the mystery clouds is a poor match for Martian dust particles. That leaves water or carbon dioxide ice particles, which fit the wavelength profile of the reflected light. Both water and carbon dioxide molecules also occur naturally in the atmosphere at these heights.

However, to form these clouds both substances would need to condense into ice particles. This would require the atmospheric temperature at these heights to drop suddenly by up to 100˚C. We’ve no idea what would cause such a drop, and we’re yet to spot such a massive, localized cold snap.

Sánchez-Lavega and colleagues thus declare that their “explanations defy our current understanding of Mars’ upper atmosphere” and their investigation only partially lifts the shroud surrounding these mysterious clouds.

High altitude clouds are not the only Martian mysteries keeping researchers on their toes. One question driving the exploration of the red planet is whether there has ever been life on Mars. Latest results by NASA’s Curiosity rover reaffirm that the planet provided habitable conditions in its past.

Water is the most important prerequisite for life. One explanation for the ongoing formation of gullies and related features, for example, is liquid water at or near the Martian surface even during the currently prevailing extreme dry and cold conditions. And while there are many possible explanations for the enigmatic whiffs of methane observed on Mars, one of the most exciting is the production by microorganisms living just below the surface.

Part of the fascination of Mars exploration is that it is very much about understanding our own origins and future. As the example of the mystery cloud observations shows, everybody has a chance to participate in unraveling the red planet’s mysteries.

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An ancient earth inside Earth? Harvard scientists say YES

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a study presented at the Goldschmidt conference in Sacramento, California, claims that the previously inexplicable isotope ratio from the depths of the Earth may be an “echo” of the ancient Earth that existed before the collision with another celestial body, which is estimated to have led to the formation of the Moon around 4,5 billion years ago.

According to the authors of the study, the ratio may represent a signal from a material that existed prior to the moment of the collision.

Scientists of the +Harvard University led by Associate Professor Sujoy Mukhopadhyay believe that only a portion of the Earth melted as a result of the collision, and that in the depths of our planet’s mantle there still exists a part of the ancient Earth.

Scientists have studied the isotope ratio of noble gases from the depths of the Earth’s mantle and compared it to the isotope ratio of the gases found closer to the surface. They found that the ratio of 3He to 22Ne from the surface layers of the mantle is much higher than the one of its deeper layers.

The analysis of the 129-Xenon and 130-Xenon ratio also confirms the hypothesis suggested by the researchers. Material which has been rendered to the surface from the deep mantle has a lower ratio than the one which is typically located near the surface.

Since the 129-Xenon is produced by the radioactive decay of 129-Iodine, these isotopes indicate thatthe ancient part of mantle was formed during the first 100 million years of the Earth’s evolution. Scientists believe that this theory explains the differences between the isotope ratios of noble gases in different parts of the Earth.

As Professor Mukhopadhyay said: “The geochemistry indicates that there are differences between the noble gas isotope ratios in different parts of the Earth, and these need to be explained. The idea that a very disruptive collision of the Earth with another planet-sized body, the biggest event in Earth’s geological history, did not completely melt and homogenize the Earth challenges some of our notions on planet formation and the energetics of giant impacts. If the theory is proven correct, then we may be seeing echoes of the ancient Earth, from a time before the collision“.

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NASA launched a rocket into Northern Lights

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The interaction of the solar wind (issue from the Sun ) and Earth’s atmosphere produces auroras. These northern and southern lights dance across the night sky and have mesmerized and inspired observers for centuries. For scientists, this dance of light also leads to many questions about how space weather affects Earth’s atmosphere. In late January 2015, scientists, in collaboration with NASA, launched a rocket with probes into the northern lights in order to learn more about how they heat the planet’s atmosphere.  

Credit image: +NASA 

The Auroral Spatial Structures Probe (ASSP) was launched at 5:41 a.m. on January 28th 2015, from the Poker Flat Research Range about 50 kilometers north of Fairbanks, Alaska. 

The ASSP carried seven instruments to study the electromagnetic energy that can heat the thermosphere, the second highest layer of the atmosphere, during auroral events. The interaction of waves and particles from the solar wind, Earth’s magnetosphere, and the upper atmosphere can cause “Joule heating.” Essentially, the electrical currents on the edge of space run into a resistant media (the air in the atmosphere) and generate heat in a process similar to that of a toaster coil or electric stove. This heating can expand the atmosphere upward and increase the friction, or drag, on spacecraft and satellites.

The AASP launch occurred just two days after the successful launches of the Mesosphere-Lower Thermosphere Turbulence Experiment (M-TeX) and the Mesospheric Inversion-layer Stratified Turbulence (MIST) experiment. Two pairs of instrumented rockets were launched about 30 minutes apart to study how turbulence is formed in the presence of inversion layers in the upper atmosphere. This turbulence causes particles to diffuse between atmospheric layers. The MIST launches included the release of harmless trimethyl aluminum vapor to help researchers trace diffusion at high altitude

“Recent solar storms have resulted in major changes to the composition of the upper atmosphere above 80 kilometers, where enhancements in nitrogen compounds have been found,” said Richard Collins, upper atmospheric researcher from the University of Alaska. “These compounds can be transported into the middle atmosphere where they can contribute to ozone destruction. However, the meteorological conditions do not always allow such transport to occur. Thus, the impact of solar activity on the Earth is not just about how the Sun is a source of energetic particles, but also how the Earth’s meteorological conditions determine the fate of these particles in the atmosphere.”

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Google makes a major investment in SpaceX

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last year, we told you, that Web companies such as Google and Facebook from the Silicon Valley ramp up efforts to connect the world to their services, they are increasingly looking to the skies and higher: to the space.

Today, Google is close to investing in rocket maker SpaceX, according to several people familiar with the talks, creating a formidable alliance in Silicon Valley’s accelerating Internet space race.

This way, is not news, At Google, several signs point to satellites. Actually, Previously Google bought drone-maker Titan Aerospace last year and now it's in talks to buy Skybox Imaging, a startup that creates high-resolution satellite images, for $1 billion. 

Moreover, in 2014, Google hired Brian Holz, who was chief technology officer at O3b Networks, which has launched special satellites to try to broadcast signals that would power new Internet service in developing countries around the world. Google had previously made a financial investment in O3b and one of its employees sits on O3b’s board. The startup’s recently-launched satellites faced technical setbacks this year.

Google also recently hired Dave Bettinger, who had spent 18 years at satellite firm VT iDirect, which supplies high speed broadband and other communications to military services and the oil and gas industry, according to people at Google. VT iDirect also suffered some product delays recently.

The purpose of the today deal, which is still in the works, is to support the development of SpaceX satellites that could beam low-cost Internet around the globe to billions who don’t have it.

The price and terms Google and SpaceX are discussing couldn’t be learned although one person familiar with them said Google has agreed to value SpaceX north of $10 billion and that the size of the total round, which includes other investors, is very large.

SpaceX’s investors include Founders Fund, Draper Fisher Jurvetson and Valor Equity Partners. The company, which has been developing rockets to lower the cost of space travel, hasn’t raised a primary round of funding in several years.

Source: Forbes

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Orion is on its way to Florida after its successful launch and re-entry

Dear reader and followers,

After its successful launch last week , and its splashdown in the Pacific Ocean, the Orion spacecraft has been loaded on the USS Anchorage. The spacecraft is nestled inside the well deck of the amphibious ship during the trek from its splashdown point about 970 kilometers southwest of San Diego. Orion’s flight tested many of the systems most critical to crew safety, including key separation events, parachutes and its heat shield. During Orion’s re-entry into Earth’s atmosphere, the spacecraft endured speeds of 8400 meters per second and temperatures near 2200°C.

Credit images: +NASA 

President Obama, spoke to Julie Kramer White, the Orion’s chief engineer, for the successful Orion flight test. He also noted the spacecraft’s mission, saying that “when a human is the first to set foot (on Mars), they will have Julie and her team to thank and at that point, I’ll be out of the presidency and I might hitch a ride.” 

The Orion spacecraft was off-loaded from the well deck of the USS Anchorage on Monday December 8th. The ship’s crew along with NASA and Lockheed Martin teams retrieved the spacecraft from the Pacific Ocean at the end of the highly successful Orion flight test that saw the Orion fly about 5800 km above Earth in a 4.5-hour evaluation of critical systems. Now Orion spacecraft , will perform a trip cross-country back to NASA’s Kennedy Space Center in Florida.

Credit image: +NASA 

Source: +NASA

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ISRO released pictures of comet Siding Spring taken by Mars Orbiter Mangalyaan

Dear readers an followers,

While the +European Space Agency, ESA  had placed a robot Philae on Comet 67P/Churyumov-Gerasimenko, the Indian Space Research Organisation (ISRO) released images of Comet Siding Spring, taken by its Mars Orbiter 'Mangalyaan' on October 2014. ISRO's Mars Orbiter had the opportunity to witness the Comet Siding Spring approach Mars on October 19th, for which the spacecraft repositioned itself for its safety.

The Mars Colour Camera on board ISRO's Mars Orbiter has captured the Coma (top bright portion) of the comet partly, as it approached MOM during last 40 minutes of the imaging session before Mars-Comet close encounter, ISRO said in its social networking site along with the pictures.

Credit image: ISRO

The India's Mars Orbiter Mission, the Mangalyaan probe is a spacecraft powered by solar arrays and packed with five instruments to study the surface and atmosphere of Mars. The 1350 kg of the spacecraft has been launched with success from a pad at the agency's Satish Dhawan Space Centre in Sriharikota on November 5th 2013. India was particularly proud that MOM was developed with homegrown technology and for a bargain price of about $75 million, a cost that Modi quipped was lower than many Hollywood film budgets. By comparison, NASA's much larger Maven mission cost nearly 10 times as much at $671 million.

Credit image: ISRO

It also will search Mars for methane, a key chemical in life processes on Earth that could also come from geological processes. None of the instruments will send back enough data to answer these questions definitively, but experts say the data will help them better understand how planets form, what conditions might make life possible and where else in the universe it might exist India wanted the spacecraft, also called Mangalyaan, meaning "Mars craft" in Hindi, to show the world its ability to design, plan, manage and operate a difficult, deep-space mission. India has already conducted dozens of successful satellite launches, including sending up the Chandrayaan-1 lunar orbiter, which discovered key evidence of water on the Moon in 2008 and validated few month ago.

The country's space scientists are already planning new missions, including putting a rover on the Moon. But space agency chief K. Radhakrishnan said their main focus would be to continue developing technologies for commercial and navigational satellite applications.

Source: ISRO

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