LEGO Batman 3 Space Station Infestation Freeplay All MiniKit Red Brick Characters Adam West Location
LEGO Batman 3 Space Station Infestation Freeplay All MiniKit Red Brick Characters Adam West Location Into space! our next guide video for batman 3 beyond got...
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Russia to Deploy Its Own Space Station In 2017
http://www.undergroundworldnews.com Russia will deploy its own orbital space station in 2017, using parts of modules originally destined for the International Space Station (ISS), according...
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From outer space, a call to protect the rights of every child: Alexander Gerst | UNICEF
As the world celebrates the twenty-fifth anniversary of the Convention on the Rights of the Child, International Space Station astronaut Alexander Gerst calls for each one of us to take responsibil...
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From outer space, a call to protect the rights of every child: Alexander Gerst | UNICEF - Video
Futura mission: Launch preparation 2
ESA astronaut Andreas Mogensen #39;s second video diary from Baikonur, in Kazakhstan, where he is currently joining the Expedition 42/43 crew in quarantine ahead of their launch to the International...
By: European Space Agency, ESA
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Expedition 42 fit check
The next Expedition 42 trio waiting to join the International Space Station crew conducted final Sokol launch and entry suit fit checks at the Baikonur Cosmodrome in Kazakhstan. NASA astronaut...
By: Justin Ray
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New Crew Has Big Plans Aboard the Space Station | Video
More space news and info at: http://www.coconutsciencelab.com - the Space Station #39;s new crew members will be: NASA astronaut Terry Virts, European Space Agency astronaut Samantha Cristoforetti,.
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New Crew Has Big Plans Aboard the Space Station | Video - Video
By Katie Sola2014-11-21 08:33:10 UTC
We just got closer to self-sufficiency in space with the installation of a 3D printer aboard the International Space Station.
The Zero-G is the first 3D printer built for zero gravity. It was designed by Bay Area startup Made In Space, and it arrived on the International Space Station on Sept. 22, according to Gigaom.
The inability to manufacture spare parts keeps space missions dependent on resupply from Earth. Now, if a spare part on the ISS breaks, Made In Space's team on Earth could design a new one to be re-printed by the astronauts.
Everything that has ever been built for space has been built on the ground,' Made In Space CEO Aaron Kemmer explained in a blog post. This new capability will fundamentally change how the supply and development of space missions is looked at.
Placing additive manufacturing in space will lead to similar capabilities on every future space station, deep space exploration vehicle, and space colony, he writes. Rapid construction of important materials is a critical need if humans are going to establish a greater footprint in our universe.
That said, we still don't know if the technology will actually work. Made In Space says Zero-G printer has been tested in parabolic arc flights which give a few seconds of weightlessness, but it remains to be seen if its extrusion process will function in the microgravity of the ISS.
Gigaom reports Zero-G will print 22 test components which will then be returned to Earth for analysis.
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Russia's federal space agency Roscosmos is studying several options of creating a brand-new Russian orbital station, which could replace the International Space Station (ISS), deputy chief of Roscosmos Denis Lyskov said Monday.
"We are looking into various options, while building an orbital station as a substitute for ISS is one of them," Lyskov said without giving any further details.
Earlier in the day, Moscow's Kommersant business daily reported that Russia has been designing a multi-function orbital station using part of the modules constructed for the ISS.
According to the Kommersant, the station to be placed on a near- polar orbit would serve as a transit base for the Russian Moon program, as well as to monitor 90 percent of the Russian territory, which is more than the vision field of the ISS.
However, according to an unnamed source in Roscosmos, there might be a lack of financial support to build Russia's own orbital station, Interfax news agency reported.
"Media reports on Russia's plan to build and put on orbit a new space station in 2017-19 are false," the source said, adding that the new orbital modules currently under construction are intended to be docked with the ISS by 2017, not to comprise Russia's own orbital station.
Russia plans to stay in the ISS program until at least 2020, according to the source.
In May, Roscosmos said Russia has been developing a national program of manned space explorations which will replace the ISS program after 2020.
Source: Xinhua News Agency
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The International Space Station (ISS) is to receive a coffee machine designed for zero gravity. Photograph: NASA/Getty Images
Ristretto or lungo? Not a question astronauts on the International Space Station normally have to contemplate, but that is about to change thanks to a new zero-gravity coffee machine being delivered this weekend.
The ISSpresso machine is set to boldly go to the orbital station this weekend, carried there by Italian astronaut Samantha Cristoforetti.
Astronauts on the station will finally be able to enjoy a decent brew thanks to the 20-kilogramme machine designed by famed Italian coffee makers Lavazza and engineering firm Argotec, which specialises in making space food.
Cristoforetti, 37, who is also a captain in the Italian airforce, will be not only the first female astronaut from Italy to go into space, but also the very first astronaut in the history of the conquest of space to savour an authentic Italian espresso in orbit, the two companies said in a statement.
The designers say it uses extraterrestrial capsules and can operate in microgravity conditions.
ISSpresso is a technological achievement that conforms to the technical requirements and ultra-strict security measures imposed on us by the Italian space agency, said David Avino, Argotecs director general.
Among the challenges for the engineers was figuring out how to get the liquids flowing properly in zero gravity. Its steel components also had to be able to withstand enormous pressure.
Cristoforetti will be travelling with an American, Terry Virts, and Russian Anton Shkaplerov in a Soyuz rocket launched from the Baikonur cosmodrome in Kazakhstan - and will stay there until May 2015.
They will join American astronaut American Barry Wilmore and Russian cosmonauts Alexander Samokutyaev and Elena Serova, who are returning to Earth in March.
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Astronauts to have coffee machine delivered to space station
18 hours ago
Ristretto or lungo? Not a question astronauts on the International Space Station normally have to contemplate, but that is about to change thanks to a new zero-gravity coffee machine being delivered this weekend.
The ISSpresso machine is set to boldly go to the orbital station this weekend, carried there by Italian astronaut Samantha Cristoforetti.
Astronauts on the station will finally be able to enjoy a decent brew thanks to the 20-kilogramme machine designed by famed Italian coffee makers Lavazza and engineering firm Argotec, which specialises in making space food.
Cristoforetti, 37, who is also a captain in the Italian airforce, "will be not only the first female astronaut from Italy to go into space, but also the very first astronaut in the history of the conquest of space to savour an authentic Italian espresso in orbit," the two companies said in a statement.
The designers say it uses "extraterrestrial" capsules and can operate in "microgravity" conditions.
"ISSpresso is a technological achievement that conforms to the technical requirements and ultra-strict security measures imposed on us by the Italian space agency," said David Avino, Argotec's director general.
Among the challenges for the engineers was figuring out how to get the liquids flowing properly in zero gravity. Its steel components also had to be able to withstand enormous pressure.
Cristoforetti will be travelling with an American, Terry Virts, and Russian Anton Shkaplerov in a Soyuz rocket launched from the Baikonur cosmodrome in Kazakhstanand will stay there until May 2015.
They will join American astronaut American Barry Wilmore and Russian cosmonauts Alexander Samokutyaev and Elena Serova, who are returning to Earth in March.
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Minecraft CUBE EVOLUTION - Episode 30 - BUILDING THE SPACE STATION
Join the Mookies: SUBSCRIBE - http://www.youtube.com/user/MrMitch361 Remember to leave a like if you enjoyed! ------------------------------------------------------------------------ Wanna...
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Minecraft CUBE EVOLUTION - Episode 30 - BUILDING THE SPACE STATION - Video
Samantha Cristoforetti Italy - ISS International Space Station
ESA video dedicated to Samantha Cristoforetti from Italy will shortly fly to the ISS International Space Station. The final stage of her preparations happens in Star City, near Moscow, training...
By: Canale25
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Samantha Cristoforetti Italy - ISS International Space Station - Video
Minecraft Cube Evolution Episode 31: Space Station
In today #39;s episode of the Cube Evolution, we work on our space station and open some lucky blocks. Cube Evolution is a private, whitelisted server hosted by Mineplex.com. We are currently...
By: Graser10
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Lego Batman 3: Beyond Gotham Walkthrough || Space Station Infestation Part 1 || PlayStation 4
Lego Batman 3: Beyond Gotham Bad guys, everywhere. This first part sees The Flash and Wonder Woman take on Firefly and Cheetah. It #39;s puntastic fun. B G Gaming ...
By: TheGadgetAddicts
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Space Station Freedom was a NASA project to construct a permanently manned Earth-orbiting space station in the 1980s. Although approved by then-president Ronald Reagan and announced in the 1984 State of the Union Address, Freedom was never constructed or completed as originally designed, and after several cutbacks, the project evolved into the International Space Station program.
In the early 1980s, with the Space Shuttle completed, NASA proposed the creation of a large, permanently manned space station, which then-NASA-Administrator James M. Beggs called "the next logical step" in space. In some ways it was meant to be the U.S. answer to the Soviet Mir. NASA plans called for the station, which was later dubbed Space Station Freedom, to function as an orbiting repair shop for satellites, an assembly point for spacecraft, an observation post for astronomers, a microgravity laboratory for scientists, and a microgravity factory for companies.
Reagan announced plans to build Space Station Freedom in 1984, stating: "We can follow our dreams to distant stars, living and working in space for peaceful economic and scientific gain."
The 1990 Space Exploration Initiative called for the construction of the Space Station Freedom. Following the presidential announcement, NASA began a set of studies to determine the potential uses for the space station, both in research and in industry, in the U.S. or overseas. This led to the creation of a database of thousands of possible missions and payloads; studies were also carried out with a view to supporting potential planetary missions, as well as those in low-earth orbit.
Several Space Shuttle missions in the 1980s and early 1990s included spacewalks to demonstrate and test space station construction techniques. After the establishment of the initial baseline design, the project evolved extensively, growing in scope and cost.
In April 1984, the newly established Space Station Program Office at Johnson Space Center produced a first reference configuration; this design would serve as a baseline for further planning. The chosen design was the "Power Tower", a long central keel with most mass located at either end. This arrangement would provide enough tidal forces to keep the station aligned with the keel pointed towards the Earth, reducing the need for thruster firings. Most designs featured a cluster of modules at the lower end and a set of articulated solar arrays at the upper end. It also contained a servicing bay. In April 1985, the program selected a set of contractors to carry out definition studies and preliminary design; various trade-offs were made in this process, balancing higher development costs against reduced long-term operating costs.
In March 1986, the System Requirements Review modified the configuration to the "Dual-Keel" design, which moved the modules to the central trussplacing them at the center of gravity, providing a better microgravity environment. However, the desire to maintain tidal alignment led to the use of increased truss structure, with two large "keels".
As the international involvement became more organized, the number of U.S. lab modules was reduced from two to one, taking into consideration the provision of space in the European and Japanese modules. Following this, the design was extensively "scrubbed" to remove inefficiencies; this led to a large number of subsystems being revised or removed, the deferral of plans for an Orbital Maneuvering Vehicle to be based at the station, and the use of only a single habitation module for a crew of eight.
In May 1986, NASA produced a report which had studied the assembly sequence with the intent of providing early "man-tended" capacity, ensuring that at an early stage, despite the station not being able to support a crew, research work could be carried out by occasional visiting Shuttle flights. Following the Challenger accident, a Critical Evaluation Task Force was set up to reassess the validity and safety of the Station design. While this validated the use of the Dual-Keel design, post-Challenger safety concerns led to changes in the assembly plans, as well as assorted minor changes. Johnson Space Center had previously expressed misgivings about the amount of EVA work needed to assemble the station, which were addressed, as were the Shuttle payload reductions stemming from safety improvements post Challenger.
In September 1986, a major cost review of the program was undertaken from the post-Challenger baseline; this review was intended to ensure that NASA had a solid basis for its commitment to cost and schedule. The review found that the total development cost for the Dual-Keel configuration would cost US$18.2 billion (in FY1989 dollars), and a slip in the first-element launch (FEL) date from January 1993 to January 1994.
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International Space Station with ATV-5
The International Space Station was threatened by space debris last week but ESAs Automated Transfer Vehicle saved the day by firing its thrusters to push the orbital outpost and its six occupants out of harms way.
Station with ATV-2
This is the first time the Stations international partners have avoided space debris with such urgency.
Ground stations continuously track space junk leftover hardware from defunct satellites for potentially life-threatening collisions. A fleck of paint can cause major damage travelling at 28 800 km/h. When they raise the alarm, ground teams can move the Station to a safer orbit.
The calculations sometimes take hours this is rocket science but fortunately, most of the time, the radar network gives ample warning. Sometimes a dangerous object can slip through the net or its erratic behaviour makes accurate predictions difficult.
ATV-5 approaching Station
This is where Europes ATV Georges Lematre came in on 27 October. A piece of Russias Cosmos-2251 satellite that broke up after colliding with another satellite in 2009 was on a collision course with the International Space Station. The object was around the size of a hand and calculations showed it would pass within 4 km too close for comfort.
Just six hours before potential impact, the five space Station agencies agreed to an emergency manoeuvre. The ATV Control Centre team in Toulouse, France, triggered a boost of 1.8 km/h, enough to raise the 420-tonne Station by 1 km and out of harms way.
Progress and Soyuz spacecraft docked to Station
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ESA space ferry moves Space Station to avoid debris / ATV ...
By Kelly Dickerson
An artist's conception of the 3D maps of forest architecture that data from GEDI could produce.(NASA's Goddard Space Flight Center)
A new laser instrument developed for the International Space Station is expected to generate incredible 3D maps of Earth's forests.
The instrument called Global Ecosystem Dynamics Investigation (GEDI) uses lidar, a special kind of laser technology, to create detailed 3D maps and measure the biomass of forests. NASA has already launched a satellite designed to measure carbon dioxide in the atmosphere, but the new instrument, once launched, will allow scientists to estimate the total amount of carbon stored here on Earth inside trees.
"GEDI lidar will have a tremendous impact on our ability to monitor forest degradation, adding to the critical data needed to mitigate the effects of climate change," Patrick O'Shea, chief research officer at the University of Maryland, said in a statement.
Scientists already knew that trees absorb carbon. What scientists don't know is how much they store. This is a problem because scientists can't predict how much extra carbon would escape into the atmosphere if a forest was destroyed or if planting new trees would be enough to offset the emissions.
"One of the most poorly quantified components of the carbon cycle is the net balance between forest disturbance and regrowth," Ralph Dubayah, the GEDI principal investigator at the University of Maryland, said in the same statement.
GEDI's lidar instrument works by shooting streams of light particles at the Earth that then reflect back and are picked up by a detector. The time it takes the particles to reach Earth and bounce back is converted into a distance.
Every material that the light particles pass through on their journey leaves behind a "fingerprint" that the detector can read. That means that light particles that pass through leafy tree canopies will look different than the particles that pass through branches or trunks. The unique markers will allow scientists to construct detailed 3D maps of forest architecture.
The lidar pulses will measure the height of trees to about a 3-foot accuracy and allow scientists to estimate the total biomass in a forest and how much carbon it's storing.
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The orbital maneuvers of a mysterious object Russia launched earlier this year have raised concerns that the satellite may be a space weapon of some sort.
The speculation centers on "Object 2014-28E," which Russia lofted along with three military communications satellites in May. Russian officials did not declare the object as part of the launch, and it was originally thought to be space junk. But satellite trackers have watched it perform a number of interesting maneuvers over the past few weeks, theFinancial Times reportedMonday (Nov. 17).
Last weekend, for example, 2014-28E apparently met up with the remnants of a rocket stage that helped the object reach orbit. [The Most Destructive Space Weapons Concepts]
As a result, some space analysts wonder if Object 2014-28E could be part of ananti-satellite program perhaps a revived version of the Cold War-era "Istrebitel Sputnikov" ("satellite killer") project, which Russian officials have said was retired when the Soviet Union collapsed in the early 1990s.
Military officials have long regarded the ability to destroy or disable another country's satellites as a key national-security capability. The Soviet Union is not the only nation known to have worked on developing such technology; China destroyed one of its own weather satellites in a 2007 test that spawned a huge cloud oforbital debris, and the United States blew up one of its own defunct spacecraft in 2008.
The concern about Object 2014-28E is legitimate, said Joan Johnson-Freese, a professor of national security affairs at the U.S. Naval War College in Newport, Rhode Island. But she cautioned against jumping to conclusions, saying that Russia could have a number of purposes in mind for the technology that 2014-28E may be testing out.
"Anysatellitewith the capability to maneuver has the potential to be a weapon," Johnson-Freese told Space.com. "But does that mean necessarily that all maneuverable satellites are weapons? No."
The United States has also worked to develop maneuverable-satellite technology, she noted, citing the Air Force's Experimental Satellite System-11 (XSS-11) and NASA's DART (Demonstration for Autonomous Rendezvous Technology) spacecraft, both of which launched in 2005. Further, the Defense Advanced Research Projects Agency (DARPA) managed a mission calledOrbital Express, which launched in 2007 to test out satellite-servicing tech.
"When we did DART and XSS-11, other countries went into panic mode you know, 'The U.S. has space weapons,'" Johnson-Freese said. "The first thing we did was assuage those concerns and say, 'No, no. That's not what it is. It's just a maneuverable satellite.' But any time you have dual-use technology, there are going to be concerns."
And pretty much all space technology is dual-use, said Brian Weeden, a technical adviser with the Secure World Foundation (a nonprofit organization dedicated to space sustainability) and a former orbital analyst with the Air Force. For example, spacecraft capable of orbital rendezvous operations could help a nation inspect, service andrefuel its satellites, or deorbit defunct craft to help mitigate the growing space-junk problem.
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Deep in the belly of the Johnson Space Center in Houston, Texas, lie "The Domes." Step into one of them and suddenly you're standing on the surface of Mars, or you're flying high above the Earth, looking out from the International Space Station. This is the Systems Engineering Simulator, where we learned to fly, drive, and design better space vehicles.
Gizmodo's Space Camp is all about the under-explored side of NASA, from robotics to medicine to deep-space telescopes to art. All this week we'll be coming at you direct from NASA's Johnson Space Center in Houston, Texas, shedding a light on this amazing world. You can follow the whole series here.
The two spherical simulators, dubbed Alpha Dome and Beta Dome, are both set up to be extremely versatile. They perform simulations for crew training, engineering analysis for the two missions currently flying now that support the ISS, and for the prototype vehicles that may fly in the future.
Each dome is inside a large room with high ceilings. From the outside they look like huge spherical silos, gray and nondescript, with nothing that would tip you off to the host of technology within. Inside, it feels kind of like an IMAX theater, but warped. The screen has a very pronounced curve, designed to fill your peripheral vision when you're placed in the middle. Turn around and you'll see close to a dozen projectors mounted on various poles and catwalks, together weaving a tapestry of a single, gigantic image.
First there's the Alpha Dome. It's a 24-foot diameter dome and it has eight projectors that provide the visual models. Down the hall there's Beta Dome, also 24 feet in diameter but newer and a bit more advancedit has a wider field of view because it uses 11 projectors instead of 8, creating an extremely immersive view of the landscape before you.
Looking down on the cupola mockup inside Alpha Dome, with parts of simulated Earth and the ISS in the background
Alpha Dome is currently set up with a model of the cupola observatory module on the ISS. Out the windows you see what the astronauts would see: section of the space station flying high above a stunning view of Earth. Inside are all the same controllers and displays you'll find on the station. The cupola is where astronauts operate the ship's large robotic arm, so this setup gives them an idea place to practice those skills without, you know, breaking anything expensive. Like the ISS. Or an astronaut.
See, when a ship makes its way to the ISS, once it gets close enough, someone onboard the station uses the remote manipulator system (a.k.a. the Canada Arm 2) to reach out, grab the ship, and then line it up perfectly with the hatch. The arm is just a much more precise means of control that the small thrusters on the capsule itself, so once it's grabbed on it's far easier to guide it in. And that's how spaceships merge, boys and girls, now let's never speak of this again.
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Inside "The Domes," Where NASA Drives the Spacecraft of the Future
Lets Play Lego Batman 3 - Hide N #39; Seek Grundy Killer Croc (Pt 7 BEYOND GOTHAM) Space Station END
Here is the end of Space Station Infestation! We get Electricity Suit Batman, we use Superman, we defeat Mech-Suit Lex Luthor and Joker and a bunch of other fun things go down like Hide and...
By: FGTeeV
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