Indian human space flight programme is at the "beginning stage" and space scientists were studying the critical technologies required for the project, ISRO Chairman K Radhakrishnan said today.

"As far as human space flight is concerned, we are just at the beginning- at the moment we are studying the critical technologies required for that like- crew escape system, crew module. These are the things we have not done in the past," Radhakrishnan said.

Speaking to reporters in the presence of Parliamentary Standing Committee on Science & Technology, Environment and Forest that reviewed ISRO programmes here, he said, "As and when we take up a programme of human space flight- this will help us."

Illustrating the requirements for the human space flight, he said, "We need a reliable launch vehicle with a reliability of 0.99, today we can say GSLV has gone well- but we need to improve the reliability of that."

"We also need to have a capacity for taking crew module with two or three crew members and the required space for them; so we have the choice of GSLV or GSLV Mark III- that is the decision we need to take."

Stating that certainly space robotics and human presence in space together are going to be the requirements for the future, Radhakrishnan said, "At a right moment -that decision- the country will have to take."

"What we are doing at the moment is getting ready for critical technology and government has given us funds nearly Rs 145 crore."

He said, "In the GSLV Mark III- the experimental mission is going to happen in April 2014."

Speaking to reporters after the review, Parliamentary Standing Committee Chairman T Subbarami Reddy commended the recent achievements of ISRO for the successful launch of Mars Orbit Mission and GSLV-D5 with indigenous cryogenic engine.

Stating that adequate funds are being allocated for the scientific sector in the country, he said, "We must focus more towards developing good scientists."

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Indian Human Spaceflight Programme Just Starting: ISRO

Are your kids fascinated by the miracle of flight? Whether they dream of piloting jets or rocketing into a galaxy far, far away, a circle tour of our dispersed fleet of retired space craft is a great place to foster their interest.

Here are six attractions where dreams can take flight.

John F. Kennedy Space Center

There is no place that tells NASAs story better than this launch site just outside of Orlando. The Kennedy Space Center has launched every NASA human space flight since 1968 and today remains an active, working space center.

Kids can explore numerous rockets from NASAs earliest missions, or gape in wonder at the Saturn V rocket used to put a man on the moon. The centers newest exhibit, the Space Shuttle Atlantis, includes the ship itself as well as interactive, multimedia exhibits that let you simulate a space walk, operate a 250-ton crane, land the space shuttle, and train like an astronaut.

National Air and Space Museum

The wildly popular National Air and Space Museum preserves the wondrous history of our fascination with flight and, like all Smithsonian museums, is always free to enter. Located on the National Mall in Washington DC, the place is a treasure trove of original historic aircrafts, from the 1903 Wright Flyer and Lindberghs Spirit of St. Louis to Chuck Yeagers Bell X-1, John Glenns Friendship 7 spacecraft, and the Apollo 11 command module.

Since the National Mall cant hold the entire collection, the museum also includes two massive hangars near Dulles International Airport where youll find a SR-71 Blackbird (worlds fastest airplane), a Concorde (fastest commercial airplane), and the Space Shuttle Discovery.

US Space & Rocket Center

This facility in Huntsville, Alabama, has played a part in the space race since the 1950s and was integral to the Apollo missions and space shuttle program. In addition to exploring 1,500 space exploration artifacts at the Marshall Space Flight Center, dont miss the fun series of simulators that let you experience what the G-force of a rocket launch feels like, fight centripetal force, fly an Apache helicopter, and more. If youre up for an extended stay, consider signing up your family or child for Space Camp.

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Trips for space geeks

At NASAs Kennedy Space Center in Florida, a former space shuttle hangar will now serve as a new home for US Air Force's secret X-37B space plane.

A former NASA space shuttle hangar will serve as the new home and servicing facility for a fleet of secretive military space planes.

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The Boeing Company announced on Friday (Jan. 3) it will beginconverting Orbiter Processing Facility-1 (OPF-1)at NASA's Kennedy Space Center in Florida to support the U.S. Air Force X-37B Orbital Test Vehicle (OTV). Built by Boeing's Phantom Works, the wingedX-37B space planeresembles in some ways a smaller version of NASA's shuttle with a 15-foot (4.5 m.) wingspan.

The move to use OPF-1 will "enable the U.S. Air Force to efficiently land, recover, refurbish, and re-launch" the 29-foot-long (8.8 m.), reusable unmanned spacecraft, Boeing officials said in a statement. [See photos from the X-37B space plane's latest mission]

No other details were released, other than Boeing noting the project will expand its presence in Florida by "adding technology, engineering and support jobs at the Kennedy Space Center."

One of three similar hangars to previously house NASA's orbiters, OPF-1 has been vacant since June 2012, when the space agency's final shuttle to fly into space,Atlantis, departed the building. Built in the late 1970s, OPF-1 has a 29,000-square-foot (2,700 sq.m.) high bay and stands 95 feet (29 m.) tall.

The hangar is the second NASA OPF to be commercially leased under an agreement with Space Florida, the state's spaceport authority and aerospace development agency. In October 2011, Boeing also took over use of OPF-3 to support its CST-100 spacecraft, a crewed capsule being developed to potentially fly NASA astronauts to and from the International Space Station.

That facility, now referred to as the Commercial Crew and Cargo Processing Facility, or C3PF, is nearing the end of its conversion to begin manufacturing and testing the five-seat, gumdrop-shaped spacecraft.

Originally posted here:

Kennedy Space Center now home to secret military planes

ABC Tim Gibson was selected for the space flight from more than one million contestants.

A Queensland man who won a worldwide competition to fly to outer space is preparing for lift-off after five days of intense training.

Tim Gibson has just returned to Australia after the training camp at the Kennedy Space Centre in Florida.

The 28-year-old Yeppoon property manager is not an astronaut, but was among 23 people selected in a competition run by the Lynx Space Academy to fly to outer space.

He was initially selected from more than 1 million entrants.

Astronaut Buzz Aldrin, who became the second person ever to walk on the moon with the Apollo 11 mission, was in the same room when the winners were announced.

"Then they called my name and I thought, no way! No way!" Mr Gibson said.

He says training for the trip has been an incredible experience so far with zero-gravity flights and drills in fighter jets.

"We did a bit of dog fighting, loops, barrel rolls," he said.

"I didn't pass out and wasn't sick which was great."

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Australian space flight winner Tim Gibson prepares for lift-off after winning competition

Long before space flight was possible, the human imagination was already charting a course through the stars. Our ideas have been varied and fanciful. The Library of Congress recently collected some of these imaginary space vehicles, which go all the way back to the 1630s.

Galileo's observations of the moon opened a whole new dimension for imaginary travelogues. In Francis Godwin's 1638 The Man in the Moone, a Spanish nobleman discovers birds of super strength that take him first around an islandand eventually to the moon.

The big-nosed Frenchman's imaginary journey to the moon was powered by fireworksquite resembling a modern spaceship blasting off into space.

Who says scientists can't be superheroes? In a science fiction story in 1889, a fictional Thomas Edison invents an anti-gravity device and disintegrator ray to help earthlings attack Mars.

Read more about imaginary space ships on Inside Adams, the Library of Congress's blog on science, technology, and business. [Library of Congress]

All images courtesy of Library of Congress

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300 Years of Imaginary Space Flight, From Geese to Anti-Gravity Ships

January 6, 2014

Image Caption: The SPHERES-Slosh hardware used aboard the space station will help researchers study the movement of fluids in microgravity. The may assist with designing new, more efficient fuel tanks. Credit: Florida Institute of Technology/Dr. Daniel Kirk

NASA

Delivering ants to space, sloshy fluids for robotic satellites, a study on antibiotic drug resistance and other small satellites to the International Space Station can be a tough job, and now Orbital Sciences Corporation of Dulles, Va., can help carry the load. In its first commercial resupply journey after completion of NASAs Commercial Orbital Transportation Services program, the Orbital-1 mission will deliver some very interesting new scientific investigations to the space station.

Orbitals Antares rocket is planned to launch Jan. 8 from Wallops Flight Facility in eastern Virginia. Antares is scheduled to deliver the Cygnus spacecraft full of new research investigations, supplies and other space station hardware to the space station on Jan. 12.

One of the new research investigations traveling to the orbiting laboratory is the Commercial Generic Bioprocessing Apparatus Science Insert 06: Ants in Space (CSI-06). Students in grades K-12 will observe videos of these ant-ronauts recorded by cameras on the space station. The students will also conduct their own ant interaction investigations in their classrooms as part of a related curriculum. Educational investigations such as Ants in Space are designed to motivate budding scientists in primary and secondary school to pursue their interest in the science, technology, engineering and mathematics fields.

The Ants in Space study examines the behavior of ants by comparing groups living on Earth to those in space. The idea is that ant interactions are dependent upon the number of ants in an area. Measuring these interactions may be important in determining behavior of ants in groups. This insight may add to existing knowledge of swarm intelligence, or how the complex behavior of a group is influenced by the actions of individuals. Developing a better understanding of swarm intelligence may lead to more refined mathematical procedures for solving complex problems, like routing trucks, scheduling airlines or telecommunications efficiency.

A second investigation launching with the Orbital-1 mission is the SPHERES-Slosh study. SPHERES-Slosh will use the existing space station facility of free-flying satellites known as Synchronized Position Hold, Engage, Reorient, Experimental Satellites (SPHERES). The goal is to look at how liquids slosh around inside containers in microgravity, showing how applied external forces impact the contents of those containers. The experiments simulate how rocket fuels move around inside their tanks in response to motor thrusts used to push a rocket through space. The study of the physics of liquid motion in microgravity is important because Earths most powerful rockets use liquid fuels to take satellites and other spacecraft into orbit. Having a deeper understanding of rocket propellants may lower the cost of industry and taxpayer-funded satellite launches by improving fuel efficiency.

A third investigation aboard the Cygnus spacecraft is a study of drug-resistant bacteria. Drug-resistant bacteria are of increasing concern to public health. As bacteria grow more resistant to antibiotics, there are less effective pharmaceutical treatment options for people with bacterial infections. Researchers for the Antibiotic Effectiveness in Space (AES-1) investigation aboard the space station look to determine gene expression patterns and changes using E. coli. This research builds upon previous space station investigations into drug-resistant bacteria, such as the National Laboratory Pathfinder Vaccine Methicillin-resistant Staphylococcus aureus (NLP-Vaccine-MRSA) study of what is commonly referred to as staph infection.

The findings from AES-1 may help improve antibiotic development on Earth. Improving the efficacy of antibiotics and reducing their resistance to bacteria is a priority for health care professionals.

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Orbital’s Cygnus Delivering New Science To The International Space Station

N. Madhavan Last Updated:January 5, 2014 |18:50 IST

The Indian Space Research Organisation (ISRO) on Sunday successfully launched a geosynchronous satellite launch vehicle --GSLV-D5 -- which used an indigenous cryogenic engine, putting behind it years of pain and failures. The launch vehicle lifted off from India's space port at Sriharikota precisely at 4.18 pm on a clear blue sky and delivered a copy book launch.

The GSLV-D5 injected the GSAT-14, a 1,980 kg satellite, at its precise orbit 17 minutes into the flight. It took ISRO more than 13 years to achieve this success after its first GSLV flight in 2001. ISRO kickstarted the cryogenic project almost 20 years ago.

"Today is an important day for space technology in the country. The Indian cryogenic stage performed as expected and injected the satellite to the intended orbit," said an elated K. Radhakrishnan, Chairman, ISRO, immediately after the successful launch. "Our toiling of 20 years and excruciating efforts in the last three-and-a-half years have borne fruit."

What has excited the ISRO team is the precision of the launch. According to K. Sivan, Mission Director, GSLV-D5, the satellite was injected by the launch vehicle within 40 metres of its intended orbit in perigee (closest point of the satellite to earth). "The 1,000 seconds of the GSLV- D5 flight is a fruit of 1,000 days of hard work," he said.

This success comes within four-and-a-half months of an earlier attempt that ISRO had aborted owing to a fuel leak in the liquid second stage. That incident and the previous failures had raised questions about ISRO's ability to master the advanced cryogenic technology, which till recently rested with a select countries/regions such as the US, Russia, Europe, Japan and China.

This success takes ISRO closer to its objective of positioning itself as a reliable launcher of heavier communication satellites that weigh over two tonnes in the geosynchronous orbit (an orbit where a satellite moves in tandem with the earth's rotation and thus is available to users throughout the day). A few more successful launches will establish this reliability and ISRO could soon be competing with US space agency NASA and the European Space Agency for a pie of a multi-billion dollar market.

ISRO has come a long way from the late 1990s when it acquired seven Russian-built cryogenic engines for kick-starting its GSLV programme. Further sale of cryogenic engines was stopped after the US objected to it on the grounds that such a transaction violated a missile control treaty. ISRO then started to indigenise its technology and today after many delays and frustrating failures it has finally tasted success. With a distinct cost advantage estimated to be around 25 per cent, ISRO is expected to get a large share of the market. For that it will have to next establish the reliability of the GSLV as a launch vehicle by doing more such precision launches.

ISRO has already established its reliability when it comes to launching smaller satellites using its smaller Polar Satellite Launch Vehicle (PSLV). Its workhorse launch vehicle has already put over 35 foreign satellites of various countries weighing between one kg and 712 kg in orbit, not to mention more than a dozen Indian satellites.

The GSLV's success is also critical for ISRO to move to the next stage in space exploration. Its plan to land a spacecraft on the moon and launch a manned space flight hinged on the success of the GSLV and cryogenic technology.

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India breaks into elite space club with GSLV-D5 launch

NASA Television will provide live coverage of the launch of Orbital Sciences Corp.'s commercial Cygnus spacecraft on Tuesday, Jan. 7 from NASA's Wallops Flight Facility in Virginia, which will be carrying two University of Colorado Boulder payloads to the International Space Station.

The two CU-Boulder payloads -- a biomedical antibiotic experiment and an educational K-12 experiment involving ant behavior in microgravity -- are slated to be launched aboard Orbital Sciences Corp.'s Antares rocket at 11:55 a.m. MST. Both experiments were designed by BioServe Space Technologies, a NASA-funded center in CU-Boulder's aerospace engineering sciences department.

The CU-Boulder biomedical experiment was designed to test the effectiveness of antibiotics in space. Past experiments by CU-Boulder and other institutions have shown bacterial susceptibility to antibiotics is significantly reduced during spaceflight, although the reason is not yet known, said CU-Boulder Associate Professor David Klaus, principal investigator on the project.

Klaus said the investigation will examine changes in the gene expression of the bacteria E. coli during exposure to different concentrations of antibiotics while in the microgravity environment of space. The hope is to locate particular genes that are key to resisting antibiotics, which could lead to improved testing on Earth as well as new drug targets or new approaches to understanding antibiotic resistance in certain diseases or infections, said Klaus.

"Previous studies carried out in microgravity have shown that bacteria are able to grow in what normally would be an inhibitory concentration of the antibiotic," said Klaus. "This investigation is aimed at characterizing the genetic basis for this response in the weightless environment of space with the intent of applying any insight gained toward combating the increasing emergence of drug-resistant pathogens here on Earth."

Co-investigators on the project include BioServe Director Louis Stodieck, a research professor in aerospace engineering, and Shawn Levy, a researcher at the HudsonAlpha Institute for Biotechnology in Huntsville, Ala. The research effort also involves CU-Boulder doctoral candidate Luis Zea.

Bacterial resistance to antibiotics kills 100,000 Americans every year and represents a roughly $20 billion expense to the U.S. government in excess health care costs, said Klaus. The experiments will be undertaken using spaceflight test tubes contained in the Commercial Generic Bioprocessing Apparatus, or CGBA, an automated, suitcase-sized incubator, all designed and built by BioServe.

The second experiment launching to ISS is known as Ants in Space, which examines foraging patterns based on the density of the common Pavement Ant, said BioServe Business Development Manager and Education Program Director Stefanie Countryman. "Past experiments by Professor Deborah Gordon, principal investigator on this project, have shown that some ant species have the ability to search areas collectively without individual communication. When ant densities are high, each ant thoroughly searches one small area in a circular, "random" walk, she said. When ant densities are low, each ant searches by walking in a relatively straight line, allowing it to cover more ground.

"Ants assess their own density at the rate at which they meet," said Countryman, who said the eight individual ant habitats on ISS will be loaded with roughly 100 ants each. "The experiment examines whether in microgravity ants will use the rate at which they meet to assess density, and so use straighter paths in the larger habitat areas. The results will be compared to ground controls, which in this case will include ant habitats in hundreds of K-12 classrooms around the world."

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CU-Boulder to fly antibiotic experiment, education project on ants to space station

Starbound Beta LP ep 5 Coal Powered Space Flight
Back for the new year, here #39;s the next episode of Starbound! After taking some time with the family and some friends over the holidays, the ball is rolling again. And this time, it #39;s rolling...

By: thornofnight

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Starbound Beta LP ep 5 Coal Powered Space Flight - Video

Want to stay on top of all the space news? Follow @universetoday on Twitter

Seaside panoramic view of an Antares rocket and Cygnus cargo spacecraft built by Orbital Sciences at Launch Pad 0A at NASA Wallops Flight Facility on the Virginia Eastern Shore. Blastoff for the ISS is slated for Jan. 7, 2014 at 1:55 p.m. EDT. Credit: Ken Kremer kenkremer.com UPDATE Frigid Weather Delays Antares Launch to Jan. 8

The status quo in space flight operations is no more.

Private American rockets are leading the charge of overdue change into the innovative Commercial Space Race by blasting 2014 open with a pair of Big Bang fireworks just a day apart on Jan. 6 and Jan. 7.

A dynamic duo of US aerospace firms SpaceX and Orbital Sciences are each poised to launch their own recently developed private boosters in the first week of the new year and aiming to dramatically cut costs.

And to top that off, the rockets are thundering aloft from two different spaceports located some 800 miles apart along the US East coast weather permitting of course given the monster snow storm and frigid arctic air akin to Mars bearing down at this very moment on the big populations centers of the Atlantic coast region.

UPDATE ALERT Antares Launch just postponed to Wed, Jan 8 at 1:32 p.m.due to extremely cold weather forecast. Back up day is Jan. 9

Both companies are revolutionizing access to space for both government entities as well as commercial companies doing lucrative business in space.

The implications of vastly reducing expenses for space travel and space commerce are far reaching and imperative especially in the face of static and declining budgets mandated by politicians worldwide.

Except for China, which just landed its first rover on the Moon, is investing mightily in space and science and reaping strong economic growth.

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Private American Rockets Blast Open 2014 & Commercial Space Race with Big Bangs on Jan. 6 & 7

Signature Flight Support Corporation, a BBA Aviation company, announced today that it has completed the acquisition of the assets of Maguire Aviation Group, LLC at Van Nuys Airport (KVNY). Through this acquisition, Signature Flight Support has expanded its FBO facility at Van Nuys Airport with a combined footprint of 1.17 million sq. ft. of hangar, ramp, passenger lounges and office space. The expanded Signature Flight Support footprint at Van Nuys provides customers with the added convenience of multiple locations on the field for FBO services and aircraft storage.

Since 2005, Maguire Aviation has offered a full range of flight support services to both tenant and transient business and general aviation customers. In 2012, Maguire Aviation also completed the construction of a dedicated NetJets facility at Van Nuys.

Maria Sastre, President and Chief Operating Officer of Signature Flight Support stated, Maguire Aviation is an excellent flight support provider at one of the premier airport locations in the world. The expanded Signature Flight Support footprint created by this acquisition provides our customers with additional world-class flight support services at Van Nuys. We are excited to welcome the staff of Maguire Aviation to the Signature Flight Support global family. We also look forward to serving an expanded base of Signature Flight Support customers

Commenting on the acquisition, Robert Maguire, Founder and CEO of Maguire Aviation stated, We have a great franchise at Van Nuys Airport and Signature Flight Support was our clear choice. It is an outstanding company and we have found them excellent to work with. We are thrilled that our customers will enjoy the world-class customer service Signature Flight Support is known for. While Signature will operate the campus of FBOs and hangars, Maguire Investments will develop a combined footprint totaling 900,000 sq.ft. of hangar, office and passenger lounge space, as well as ramp area, in coordination with Signature.

The newly acquired entity will be branded Signature Flight Support, except for the NetJets facility, and will offer exemplary customer service and facilities. Signature Flight Support customer network benefits will be offered including Signature Status and Signature TailWins customer rewards programs.

Van Nuys Airport serves the greater Los Angeles metropolitan area and currently ranks as the sixth busiest airport in the world with over 250,000 total aircraft movements in 2012. Its proximity to downtown Los Angeles makes Van Nuys a convenient and attractive gateway for business and leisure travelers including the Hollywood entertainment industry.

Signature Flight Support Corporation, a BBA Aviation plc company, is the worlds largest fixed-base operation (FBO) and distribution network for business aviation services. Signature services include fueling, hangar and office rentals, ground handling, maintenance and a wide range of crew and passenger amenities at strategic domestic and international locations. Headquartered in Orlando, Florida, Signature currently operates at more than 100 locations in the United States, Europe, South America, Africa and Asia. For more information, please visit: http://www.signatureflight.com or on Facebook at http://www.facebook.com/signatureflightsupport. Follow Signature Flight Support on Twitter: SignatureFBO.

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Signature Flight Support Completes Acquisition of Maguire Aviation at Van Nuys

While our spaceflight missions come to fruition in the heavens, they all have to start here on Earth. The next year in space will see a lot of changes, as new technologies get tested and exciting missions get going.

National space agencies and, increasingly, private companies are preparing for their next adventures in space. There will also be great celestial phenomena to enjoy and, very likely, a number of unexpected surprises cropping up. To help prepare for it all, we take a look at what next year holds for spaceflight.

Last year wasnt a particularly great one for the agency. Yes, it accomplished many great things, including scientific exploration of Mars, Saturn, other planets, and even the outer reaches of the solar system. But the agency has also been struggling for a while to find a sense of direction and is looking to make do with budgets that have flat-lined. The effects of the sequester and a government shutdown have further eroded its ability to execute all the impressive missions on its plate.

Last month, the NASA Office of the Inspector General, which checks on and audits funding for the agency, released a report on the top nine challenges facing NASA this year. These included deciding whether or not to extend the lifetime of the International Space Station which is scheduled for retirement in 2020 for eight additional years. Many researchers would like to continue using the ISS but NASA might like to use that money to start supporting different projects.

Other major challenges include securing a method to transport its astronauts to the ISS. NASA currently relies on Russian launch vehicles, which are expensive and subject to the increasingly frosty international relationship between the U.S. and Russia. The agency is looking forward to the debut test flight of Orion, its new manned spacecraft (seen above), in September but human crews wouldnt board the vehicle until after 2020. A domestic rocket company, such as SpaceX, might be a cheaper and better alternative. The OIG also wants NASA to make sure it has the costs and scheduling of the James Webb Space Telescope under control, a project that has run billions over budget and is set to launch in 2018.

In 2013, NASA released a plan to capture an asteroid and bring it back to Earth, perhaps sending astronauts to explore its surface at some future date. But the mission hasnt been fully embraced by the spaceflight community, who wonder (and sometimes snicker) about the value of such an expedition. NASA will likely release more information in 2014 about exactly how it wants to go about accomplishing this venture.

Image: NASA

After a 10-year journey, the European Space Agencys Rosetta spacecraft will finally be reaching its target, comet 67P/ChuryumovGerasimenko, in August. The mission will be the first to orbit a comets nucleus, staying with the icy ball for months to see how it changes as it approaches the sun and heats up. Rosetta is carrying a tiny lander named Philae, which will be the first man-made object to softly land on a comets surface and, hopefully, beam back some amazing pictures from the surface.

Image: ESAC. Carreau/ATG medialab

Smaller is better, especially in space. Over the last decade, miniaturized electronic components have found their way onto mini-sized satellites known as cubesats. Measuring 10 centimeters a side, cubesats have the advantage of being cheap to build and easy to launch they just piggyback on an existing rocket carrying larger satellites.

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Space Missions and Events We're Looking Forward to in 2014

by Kate Lunau on Wednesday, January 1, 2014 7:00pm -

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(Mark Greenberg)

Only 550 or so people have ever flown into space. Its remarkable, then, that almost 700 clients have already signed up with Virgin Galactic, Richard Bransons private space-tourism company, which has yet to begin offering commercial space flights. The year 2014 will be big for Virgin Galactic. If all goes according to plan, Branson and his adult children, Holly and Sam, will be the first private passengers to travel into space aboard Virgin Galactics SpaceShipTwo craft, ushering in a new era of space flight for the masses.

Virgin Galactic charges $250,000 for a ride. This isnt cheap, but for space travel, its a bargain: In 2009, when Canadian billionaire and Cirque du Soleil founder Guy Lalibert blasted off aboard the Russian Soyuz spacecraft, he paid a reported $35 million for the privilege. Soon, a ticket into space will cost less than a Toronto condo. Clients will spend three days preparing at Spaceport America in New Mexico, the first space hub in the world to host private businesses such as Virgin Galactic; day four is the flight, a two-hour suborbital trip at an altitude of 50,000 feet. Clients experience the blackness of space, zero gravity, fabulous views of Earth, and you come back an astronaut, says Stephen Attenborough, Virgin Galactics commercial director. The spaceship is equipped with extra-large windows to capitalize on the view.

Virgin Galactic isnt the only private company with ambitions in space. Earlier this year, Elon Musks SpaceX successfully flew its Dragon capsule to the International Space Station (ISS) on an unmanned resupply mission, becoming the first private company to reach the station. Orbital Sciences Corporation, another U.S. company, is scheduled to start a series of eight cargo resupply missions to the ISS late this year. Private companies could be ferrying NASA astronauts there as early as 2017. (The U.S., which has had no way to reach the ISS on its own since the Space Shuttle fleet retired in 2011, is using the Soyuz to transport its astronauts.)

Virgin Galactics suborbital flights wont go as high as the ISS; theyre intended to be more affordable and accessible. We know it will blow people away, Attenborough says. And its a doable first step.

The commercial space industry has been plagued by setbacks and delays. Attenborough admits there are no guarantees, yet after years of preparation, the Virgin Galactic team is quietly confident that its reached the home stretch before launching its commercial service with the Branson family aboard. That first flight will be televised on NBC; the company is also planning a reality show, Space Race, in which people compete for a ride on the Virgin Galactic spaceship. Today, the astronauts among us are the rarest of the rare; years, or decades, from now, many of us will know a co-worker, neighbour or relative whos been into space. We may even have a trip booked there ourselves.

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Space tourists flock to the heavens

AIR FORCE STORY, VOL 2, CHAPTER 8 - HUMAN FACTORS IN SPACE FLIGHT, 1950-1960
Department of Defense PIN 38554 AIR FORCE STORY, VOL 2, CHAPTER 8 -- HUMAN FACTORS IN SPACE FLIGHT, 1950-1960 DOCUMENTS 10 YEARS OF RESEARCH TO DETERMINE MAN...

By: ON TO

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AIR FORCE STORY, VOL 2, CHAPTER 8 - HUMAN FACTORS IN SPACE FLIGHT, 1950-1960 - Video

Cassini-Huygens: Mission To Titan - Orbiter 2010 Space Flight Simulator
This is the external recording of part of the Cassini-Huygens mission I did using Orbiter 2010 Space Flight Simulator. Cassini--Huygens is an unmanned spacec...

By: Epo Nandrolone

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Cassini-Huygens: Mission To Titan - Orbiter 2010 Space Flight Simulator - Video

In this historical photo from the U.S. space agency, Marjorie Townsend discusses the X-ray Explorer Satellite's performance with a colleague during preflight tests at NASA's Goddard Space Flight Center. Townsend, a Washington DC native, was the first woman to receive an engineering degree from The George Washington University. She joined NASA in 1959 and later advanced to become the project manager of the Small Astronomy Satellite (SAS) Program.

The satellite shown in the picture, SAS-1, was the 42nd in NASA's Explorer series, a family of small, simple satellites sent to perform important scientific missions for minimal cost. The first Explorer satellite launched in 1958, months prior to the formation of NASA, initiating a program of exploration that has continued into the twenty-first century. SAS-1 continued the tradition of crucial science projects by carrying the first set of sensitive instruments designed to map X-ray sources both within and beyond our own galaxy, the Milky Way. Also known as Explorer 42 and the X-ray Explorer, it became the first American spacecraft launched by another country when an Italian space team launched it on December 12, 1970 from a mobile launch platform located in international waters off the coast of East Africa. It mapped the universe in X-ray wavelengths and discovered X-ray pulsars and evidence of black holes. The satellite was named Uhuru, which means freedom in Swahili, because it was launched from San Marco off the coast of Kenya on Kenya's Independence Day.

In the 1970's the Italian Government made Townsend a Knight of the Italian Republic Order for her contributions to the United States-Italian space efforts. In 1990, Townsend joined BDM International Inc., as the director of Space Systems Engineering with the Space Science and Applications Division.

Each weekday, SPACE.com looks back at the history of spaceflight through photos (archive).

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Space History Photo: Marjorie Townsend and SAS-1

Space tourism is space travel for recreational, leisure or business purposes. A number of startup companies have sprung up in recent years, such as Virgin Galactic, hoping to create a space tourism industry. Orbital space tourism opportunities have been limited and expensive, with only the Russian Space Agency providing transport to date.

The publicized price for flights brokered by Space Adventures to the International Space Station aboard a Russian Soyuz spacecraft have been US$2035 million, during the period 20012009. Some space tourists have signed contracts with third parties to conduct certain research activities while in orbit.

Russia halted orbital space tourism in 2010 due to the increase in the International Space Station crew size, using the seats for expedition crews that would be sold to paying spaceflight participants. However, tourist flights are tentatively planned to resume in 2013, when the number of single-use three-person Soyuz launches could rise to five a year.[1][2][3]

As an alternative term to "tourism", some organizations such as the Commercial Spaceflight Federation use the term "personal spaceflight". The Citizens in Space project uses the term "citizen space exploration".[4]

As of September 2012[update], multiple companies are offering sales of orbital and suborbital flights, with varying durations and creature comforts.[5]

After early successes in space, much of the public saw intensive space exploration as inevitable. Those aspirations are memorialized in science fiction including ArthurC. Clarke's AFall of Moondust and 2001: A Space Odyssey, Roald Dahl's Charlie and the Great Glass Elevator, Joanna Russ's 1968 novel Picnic on Paradise, and Larry Niven's Known Space stories. Lucian in the 2nd century AD in his book True History examines the idea of a crew of men whose ship travels to the Moon during a storm. Jules Verne also took up the theme of lunar visits in his books, From the Earth to the Moon and Around the Moon. RobertA. Heinleins short story The Menace from Earth, published in 1957, was one of the first to incorporate elements of a developed space tourism industry within its framework. During the 1960s and 1970s, it was common belief that space hotels would be launched by 2000. Many futurologists around the middle of the 20th century speculated that the average family of the early 21st century would be able to enjoy a holiday on the Moon. In the 1960s, Pan Am established a waiting list for future flights to the Moon,[6] issuing free "First Moon Flights Club" membership cards to those who requested them.

The end of the Space Race, culminating in the Moon landings, decreased the emphasis placed on space exploration by national governments and therefore led to decreased demands for public funding of manned space flights.[7]

The Soviet space program was aggressive in broadening the pool of cosmonauts. The Soviet Intercosmos program included cosmonauts selected from Warsaw Pact members (from Czechoslovakia, Poland, East Germany, Bulgaria, Hungary, Romania) and later from allies of the USSR (Cuba, Mongolia, Vietnam) and non-aligned countries (India, Syria, Afghanistan). Most of these cosmonauts received full training for their missions and were treated as equals, but especially after the Mir program began, were generally given shorter flights than Soviet cosmonauts. The European Space Agency (ESA) took advantage of the program as well.

The U.S. space shuttle program included payload specialist positions which were usually filled by representatives of companies or institutions managing a specific payload on that mission. These payload specialists did not receive the same training as professional NASA astronauts and were not employed by NASA. In 1983, Ulf Merbold from ESA and Byron Lichtenberg from MIT (engineer and Air Force fighter pilot) were the first payload specialists to fly on the Space Shuttle, on mission STS-9.[8][9]

In 1984, Charles D. Walker became the first non-government astronaut to fly, with his employer McDonnell Douglas paying $40,000 for his flight.[10]:7475 NASA was also eager to prove its capability to Congressional sponsors. Senator Jake Garn was flown on the Shuttle in 1985,[11] followed by Representative Bill Nelson in 1986.[12]

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Computer And Manned Space Flight
Computer And Manned Space Flight - NASA Shows the various types of computers used at the Manned Spacecraft Center and examines their functions To help with t...

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Computer And Manned Space Flight - Video

December 27, 2013

Image Caption: Flight Engineer Rick Mastracchio captured this view of spacewalkers Oleg Kotov and Sergey Ryazanskiy working outside the International Space Station and posted it to Twitter. Credit: NASA

Lee Rannals for redOrbit.com Your Universe Online

A second spacewalk for the week was underway Friday morning as Russian cosmonauts attempted to install a new camera system outside the International Space Station (ISS). Commander Oleg Kotov and Flight Engineer Sergey Ryazanskiy opened up the hatch of the Pirs docking compartment this morning to step outside into the abyss and install photographic and scientific equipment on the hull of the complex.

The cosmonauts tried to attach a pair of high-fidelity cameras on a combination biaxial pointing platform but were thwarted by an electrical problem. The cameras are part of a Canadian commercial endeavor designed to take pictures of Earth.

Officials said the cosmonauts had to retrieve the cameras after installation because electrical connections failed. Rob Navias said during a NASA Television broadcast those cameras did not provide any electrical signals on the ground. Kotov and Ryazanskiy disconnected the cameras so they could be brought back inside the station for further analysis.

The space walkers were unable to conduct several experiments that were originally scheduled for Friday due to the technical difficulties they faced when installing the cameras.

Kotov was making his fifth spacewalk and Ryazanskiy his second. This spacewalk was the 177th in the history of the space station and the eleventh of the year.

Earlier this week, Flight Engineers Rick Mastracchio and Mike Hopkins conducted a 7-and-a-half-hour spacewalk on Christmas Eve to retrieve a spare pump module from an external stowage platform. This spacewalk was designed to finish the job they started last Saturday when the men removed a faulty pump module from the starboard truss.

Tuesdays spacewalk was only the second-ever Christmas Eve spacewalk conducted in history. The first Christmas Eve spacewalk was 14 years ago on Space Shuttle Discovery, which involved upgrading the Hubble Space Telescope.

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Cosmonauts Try And Fail To Install Cameras On ISS

China watched this month as the nation's first lunar rover rolled across the moon's surface.

It was a moment of national pride when images of the six-wheel rover, dubbed Jade Rabbit, were transmitted live back to Earth, showing the red and gold Chinese flag on the moon for the first time.

"Now as Jade Rabbit has made its touchdown on the moon surface," the state-run Xinhua news agency said, "the whole world again marvels at China's remarkable space capabilities."

The lunar triumph offered many Americans their first glimpse at an unfolding new space race involving countries with emerging economies. Space exploration, once the exclusive domain of the world's superpowers, is now being undertaken by dozens of nations aiming to show the world their technological prowess.

Although these countries are still decades behind the United States in space technology, their push into the cosmos comes at a time when NASA has been wrestling with budgetary restraints and struggling to achieve new milestones in space flight.

It prompted Buzz Aldrin, the former astronaut now from Los Angeles and the second man to walk on the moon, to say in an interview that U.S. government officials lack leadership in space exploration.

"They are ignoring the achievements of what we risked our lives for," he said. NASA's funding "is totally inadequate for an endeavor that brings so much inspiration to the American people and educating the next generation."

The U.S. must stay at the forefront of space exploration by helping all countries, including China, advance their programs, he said. An existing law prohibits NASA from working with China, but Rep. Frank R. Wolf (R-Va.), the fiercest opponent of international cooperation with the country, announced his retirement this month.

"A number of nations have evolved their capabilities to put humans into space and beyond Earth," Aldrin said. "We should help contribute to their exploration."

According to the aerospace consulting firm Futron Corp., China has had 15 launches this year with one more planned. Russia has had 32 launches, and three more are slated before the end of the year. The U.S. will finish with 19.

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China's moon landing is part of a new space race by emerging nations