COMET CREATED CHAOS IN MARS’ MAGNETIC FIELD

by Evan Gough

Comet Siding Spring (C/2007 Q3) as imaged in the infrared by the WISE space telescope. The image was taken January 10, 2010 when the comet was 2.5AU from the Sun. Credit: NASA/JPL-Caltech/UCLA

In the Autumn of 2014, NASA’s Mars Atmosphere and Volatile Evolution (MAVEN) spacecraft arrived at Mars and entered into orbit. MAVEN wasn’t the only visitor to arrive at Mars at that time though, as comet Siding Spring (C/2013 A1) also showed up at Mars. Most of MAVEN’s instruments were shut down to protect sensitive electronics from Siding Spring’s magnetic field. But the magnetometer aboard the spacecraft was left on, which gave MAVEN a great view of the interaction between the planet and the comet.

Unlike Earth, which has a powerful magnetosphere created by its rotating metal core, Mars’ magnetosphere is created by plasma in its upper atmosphere, and is not very powerful. (Mars may have had a rotating metal core in the past, and a stronger magnetosphere because of it, but that’s beside the point.) Comet Siding Spring is small, with its nucleus being only about one half a kilometer. But its magnetosphere is situated in its coma, the long ‘tail’ of the comet that stretches out for a million kilometers.

When Siding Spring approached Mars, it came to within 140,000 km (87,000 miles) of the planet. But the comet’s coma nearly touched the surface of the planet, and during that hours-long encounter, the magnetic field from the comet created havoc with Mars’ magnetic field. And MAVEN’s magnetometer captured the event.

MAVEN was in position to capture the close encounter between Mars and comet Siding Spring. Image: NASA/Goddard.

Jared Espley is a member of the MAVEN team at Goddard Space Flight Center. He said of the Mars/Siding Spring event, “We think the encounter blew away part of Mars’ upper atmosphere, much like a strong solar storm would.”

“The main action took place during the comet’s closest approach,” said Espley, “but the planet’s magnetosphere began to feel some effects as soon as it entered the outer edge of the comet’s coma.”

Espley and his colleagues describe the event as a tide that washed over the Martian magnetosphere. Comet Siding Spring’s tail has a magnetosphere due to its interactions with the solar wind. As the comet is heated by the sun, plasma is generated, which interacts in turn with the solar wind, creating a magnetosphere. And like a tide, the effects were subtle at first, and the event played out over several hours as the comet passed by the planet.

Siding Spring’s magnetic tide had only a subtle effect on Mars at first. Normally, Mars’ magnetosphere is situated evenly around the planet, but as the comet got closer, some parts of the planet’s magnetosphere began to realign themselves. Eventually the effect was so powerful that the field was thrown into chaos, like a flag flapping every which way in a powerful wind. It took Mars a while to recover from this encounter as the field took several hours to recover.

MAVEN’s task is to gain a better understanding of the interactions between the Sun’s solar wind and Mars. So being able to witness the effect that Siding Spring had on Mars is an added bonus. Bruce Jakosky, from the University of Colorado’s Laboratory for Atmospheric and Space Physics in Boulder, is one of MAVEN’s principal investigators. “By looking at how the magnetospheres of the comet and of Mars interact with each other,” said Jakosky, “we’re getting a better understanding of the detailed processes that control each one.”

NASA’S “NEW SPACECRAFT” FOR DEEP SPACE TRAVEL

 

In early December, NASA will take an important step into the future with the first flight test of the Orion spacecraft — the first vehicle in history capable of taking humans to multiple destinations in deep space. And while this launch is an un-crewed test, it will be the first peek at how NASA has revamped itself since the end of the Space Shuttle Program in 2011.

While the space shuttle achieved many ground-breaking accomplishments, it was limited to flights in low-Earth orbit (approx. 250 miles high). Its major goal, over the program’s last 10 years, was to launch and assemble the International Space Station, where the risks and challenges of long duration human space flight can be addressed and retired. With the ISS construction complete, NASA is in the process of handing over supply and crew transportation missions to private industry, so NASA can focus on what’s next – deep space exploration. And this first flight test of Orion is a significant milestone on the path to get there.

The flight itself will be challenging. Orion will fly 3,600 miles above Earth on a 4.5-hour mission to test many of the systems necessary for future human missions into deep space. After two orbits, Orion will re-enter Earth’s atmosphere at almost 20,000 miles per hour, reaching temperatures near 4,000 degrees Fahrenheit, before its parachute system deploys to slow the spacecraft for a splashdown in the Pacific Ocean.

While this launch is an important step to taking humans farther than we’ve ever gone before, it is important to note that it also reflects the fact that, after 30 years of space shuttle missions dominating its human spaceflight activities, NASA has reevaluated everything – from its rockets and launch facilities to how it designs and manages its programs. With the Orion spacecraft, NASA wanted to develop a vehicle that could fly for decades with the flexibility to visit different destinations and safely return astronauts to Earth as the nation’s exploration goals evolve. As capable as the Apollo capsule was, the longest round trip mission to the Moon took 12 days. Orion is designed as a long-duration spacecraft that will allow us to undertake human missions to Mars – a two year round trip. In addition, NASA built enough capability into Orion so there is no need for redesign, or to start up a new program, as new destinations are identified.

Innovation and flexibility are also evident with the ground infrastructure. At Kennedy Space Center (KSC) in Florida, NASA has eliminated the ground systems and launch pads that were built specifically for the space shuttle. They have developed a “clean pad” approach that can be used by a variety of launch vehicles. The new streamlined infrastructure will be much more cost-efficient, reducing the time for on-the-pad processing from 30 days, the space shuttle’s timeline, to just five to six days.

The key to launching Orion on deep space exploration missions is NASA’s new “super rocket.” Known as the Space Launch System (SLS), it will be the most powerful rocket in history. The enormous power of the SLS will provide the capability to go farther into our solar system than humans have ever gone before. It will enable launches to other planets in less than half the time of any existing rocket. And, like Orion and the new ground systems at KSC, it is designed to be flexible and evolvable to meet a wide variety of crew and cargo mission requirements.

The SLS is an absolute game-changer for ambitious robotic missions to the outer planets and large unprecedented astronomical observatories. Those missions will build on the discoveries of Curiosity on Mars, the Hubble Space Telescope and its successor, the James Webb Space Telescope, and multiple robotic missions in the years ahead.

Through the development of the SLS and Orion, NASA has learned many lessons on how to streamline the design to make it more affordable than past systems. For the early missions, SLS will use heritage space shuttle hardware for the liquid engines and solid rocket boosters. Also, instead of initially building the “full-up” SLS, NASA has designed it to evolve by planning upgraded upper stages and boosters that future missions will require in the 2020’s and 2030’s. These innovations have allowed SLS to stay on a relatively flat budget throughout its design phase.

Even the way NASA manages its programs has been revamped. The Agency’s management structure for systems engineering and integration has been streamlined to increase communication and enhance decision-making. Strong communication has led to increased precision, and the potential cost avoidance is close to $100 million per year. Evidence of these savings can be seen in the successful completions of Preliminary Design Reviews for Orion, SLS and KSC ground systems.

As a nation, the U.S. has not sent crews beyond low Earth orbit since the last Apollo crew walked on the Moon in 1972. With Orion and SLS, America will have the fundamental capabilities to support missions taking the next steps into deep space, and with innovation and flexibility at the foundation of these programs, NASA is building a “Highway” for deep space exploration that will be sustainable for decades to come.

PLANET X the Destroyer

 Those familiar with either the writings of Zecharia Sitchin or the current internet rantings about “the return of Planet X” are likely familiar with the word “nibiru”. According to self-proclaimed ancient languages scholar Zecharia Sitchin, the Sumerians (a member of the indigenous non-Semitic people of ancient Babylonia. )  knew of an extra planet beyond Pluto. This extra planet was called Nibiru. Sitchin goes on to claim that Nibiru passes through our solar system every 3600 years. Some believers in Sitchin’s theory also refer to Nibiru as “Planet X”, the name given to a planet that is allegedly located within our solar system but beyond Pluto. Adherents to the “returning Planet X hypothesis” believe the return of this wandering planet will bring cataclysmic consequences to earth.The new information on Nibiru is more mysterious than its own origins. Not too many people know the true details of Nibiru, and why it exists in our solar system. Let me tell you some basics first about this planet. Planet Nibiru, which was referred by the Sumerians as Planet X, was supposedly the 12th planet in our solar system. The true meaning of planet Nibiru is ‘Planet of Crossing’. In the hydrophilic of Sumerians, and Egyptian, they talked about how planet Nibiru had an elliptical orbit than a normal horizontal orbit. The elliptical orbit goes in a roundabout very close to the sun on one end, while 80% of orbit away from the sun. The planet took around 750,000 years to come between Mars and Jupiter, and when it did, it created devastation on all the planets during its flyby. This is why the earthquake that are happening in Japan, Chile and other places, could be due to the fact that magnetic pull from Nibiru is increasing as it nears our plain. The pull from Nibiru will increase gravitational force of each planet in a rubber band effect.Many researchers are worried and trying to figure out why 10 major volcanoes along the ring of fire have suddenly come to life. Although it is not rare to have a few active at the same time, but 10 at the same time is highly unusual and causing quite a bit of concern.Some Nibiru trackers are reporting this could be evidence of Nibiru’s proximity to our planet and the gravitational effects it is causing as it pull on Earth. Increased volcanic activity is one of the symptoms that many have been predicting would occur as planet Nibiru nears our solar system.

They also point to how mainstream media is all but silent on this phenomenon which could be to keep people from looking to closely at what might be the real cause of this out of the ordinary volcano activity.

Another extremely rare occurrence happening along with the recent increased volcanic activity is that a volcano off the coast of Japan is actually creating a new island. The birth of a new island is extremely rare and hasn’t been seen in decades in these parts.

The existence of Nibiru has been a topic of heated debate amongst historians, Nibiru watchers and critics for decades. Mentions of Nibiru or Planet X have even made the mainstream news, most notoriously in the Washington Post on December 30, 1983 as well as other respected papers such as the Boston Globe.

Not always naming it “Nibiru”, they discuss the existence of a mysterious large planetary body far beyond Pluto orbiting on a different plane than the rest of the planets. This correlates with many researchers beliefs of Planet X’s long predicted path back through our solar system.

 

As Nibiru cuts through our solar system in retrograde motion to the other planets it performs its various duties such as displacing or replacing planets and causing general havoc in the process. Its passage is momentous but short taking only a few weeks or months at most, after which it disappears from view. It is fiery red in color with a debris-filled tail, and circling it are a number of moons which it sometimes uses as weapons to pound other planets. Nibiru or its moons were responsible for such feats as the destruction of Maldek and other planets which are now asteroid belts; the craters or surface scars on the Moon or planets of our solar system, as well as their varying axial tilts and orbits; the sinking of Atlantis and Noah’s Flood; and God knows what else. It is the physical link or “ferry” between our solar system and the dark star system.

IT WOULD BE GREAT IF YOU WOULD GIVE MY ADVERTISERS  A CLICK .             
 

 

 

 

 

The First Space Factory (E-Vectors INC.)

space craft power by positron reactor After gathering the materials from the moon landings , we have discovered the fuel need for space travel to other worlds . The fuel is a product from element 115 also known as Ununpentium. The product of element 115 is not  sent to earth but kept in space, on a space payload ship.

Using a Space Station type ship, large enough to house the people,the wares, and materials ,we  begin to mass produce spaceships.  The materials used are a Kevlar solution which is light weight and stronger than steel, and a product from the martian soil that absorbs water which protects against high levels of radiation.  3 D Printers are used for the configuration of the crafts.  Some of the basic components will be made on Earth  .\

We will discover the solution to space travel.  The equations  Space x Unknown = TIME  and Time x Unknown = SPACE meaning Space equals Time.   Yes when we look up at the stars ,we are looking back in tjme .  So to traveling  through space we will be traveling through time.

NASA’s New Moon Probe Enters Lunar Orbit

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by Miriam Kramer
NASA’s New Moon Probe Enters Lunar Orbit

Artist’s concept of NASA’s Lunar Atmosphere and Dust Environment Explorer (LADEE) spacecraft in orbit …

NASA’s newest lunar probe is officially orbiting the moon.

After a month-long journey, the Lunar Atmosphere and Dust Environment Explorer (LADEE) spacecraft — designed to probe the moon’s thin atmosphere and lunar dust — performed an engine burn on Sunday (Oct. 6) that took it into orbit around the moon.

While the current U.S. government shutdown has all but halted work at NASA, operations for the $280 million mission are not affected because LADEE is in a critical phase, Rachel Hoover, a spokesperson at NASA’s Ames Research Center in California told Spaceflight Now before the shutdown. NASA’s federal shutdown plan has furloughed most of the agency’s 18,000 employees, but does allow the agency to watch over spacecraft in flight like LADEE and the International Space Station. [Photos: NASA’s LADEE Moon Dust Mission in Pictures]

Before arriving in lunar orbit, the LADEE spacecraft (the name is pronounced “laddie”) made three elliptical orbits around the Earth, moving into a higher orbit on each pass around the planet. Once its orbit was high enough, the moon’s gravity took over and LADEE performed its big burn to transfer to lunar orbit, mission managers have said.

LADEE now needs to perform two more lunar orbit insertion maneuvers before the probe’s approximately month-long checkout phase can begin. The probe’s next burn is scheduled for Oct. 9 and the third is scheduled for Oct. 12, which will lower it to an altitude of 155 miles (250 kilometers).

During the checkout period, scientists will test out LADEE’s laser-communications demonstration. The experiment used laser technology to send large amounts of data back to Earth. The laser communication model could allow spacecraft to send 3D information, high-definition video and other data back to ground controllers, scientists have said.

Once LADEE’s commissioning phase is finished, the probe will begin 100 days of science designed to probe the mysteries of the moon’s atmosphere and a moon dust mystery dating back to the Apollo program.

Apollo astronauts saw streamers of light on the horizon before sunrise on the moon. LADEE’s instrumentation will help scientists understand what could have caused the glow.

NASA officials wrote in a facts sheet: “Was lunar dust, electrically charged by solar ultraviolet light, responsible for the pre-sunrise horizon glow that the Apollo astronauts saw?”

LADEE will also investigate the moon’s extremely thin atmosphere. Called a surface boundary exosphere, the lunar atmosphere represents the most common kind of atmosphere in the solar system. Some planets (like Mercury), moons and even certain large asteroids play host to these kinds of atmospheres, making LADEE’s research wide reaching.

“It’s a class of atmosphere we actually don’t know that much about, so it turns out that the moon actually is a really convenient place to go and learn about this very common type of atmosphere,” Sarah Noble, LADEE program scientist, said before the probe’s Sept. 6 launch.

LADEE launched to space atop the first flight of the Minotaur V rocket from NASA’s Wallops Flight Facility on Wallops Island, Va.

Fuel of the Future

Spaceship

Alternative fuels will eventually be the thing that breaks space travel wide open, and will  make it possible to really explore most of space . As new fuel sources are discovered they will be cleaner, more efficient, and more powerful. At some point in the future alternative fuels may make it possible to go  into unknown areas of space and beyond.