Virgin Galactic to Attempt Flight to Space This Week

VSS Unity
VSS Unity, Virgin Galactic's second SpaceShipTwo, near the apogee of its third powered flight July 26. (Image credit: Virgin Galactic)

WASHINGTON — Virgin Galactic plans to perform the next test flight of its SpaceShipTwo suborbital spaceplane as soon as Dec. 13, a flight that could be the first by the vehicle to reach at least one definition of space.

In a Dec. 11 statement, the company said the next powered test flight of VSS Unity, the second SpaceShipTwo, is planned for a window that opens Dec. 13 from the Mojave Air and Space Port in California. The flight would be the fourth powered flight for this vehicle and the first since July. The statement came shortly after the publication of airspace restrictions in the vicinity of the airport "for rocket launch and recovery" for Dec. 13 through 15.

"At a basic level, this flight will aim to fly higher and faster," the company said in its statement. "We plan to burn the rocket motor for longer than we ever have in flight before, but not to its full duration." [Virgin Galactic's VSS Unity Spaceliner in Pictures]

The flight will collect "new and important data points" about the vehicle at higher altitudes and speeds, including supersonic handling qualities and thermal dynamics. How well the vehicle is doing will determine how long they burn the rocket motor, the company stated. On the previous flight, SpaceShipTwo’s hybrid rocket motor burned for 42 seconds, while a full-duration burn would run about one minute.

On that previous flight, SpaceShipTwo reached a peak altitude of 32 miles (52 kilometers), and the company suggested the vehicle could go much higher on the upcoming flight. "At the end stages of the rocket burn in the thin air of the mesosphere and with the speeds that we expect to achieve, additional altitude is added rapidly," it stated.

That could be enough for the vehicle to fly high enough to reach space, depending on the definition used. "We also plan to burn the rocket motor for durations which will see our pilots and spaceship reach a space altitude for the first time," Virgin Galactic stated, but noted that, depending on the outcome of this flight, "it may take us a little longer to get to that milestone."

The statement didn’t specify what it meant by "space altitude," but company officials have previously said they were using the altitude of 50 miles, or approximately 80 kilometers, used by NASA and the U.S. Air Force for awarding astronaut wings.

"For Virgin Galactic, the major milestone that we perceive is the altitude at which NASA and Air Force folks get their astronaut wings, which is 50 miles," George Whitesides, chief executive of Virgin Galactic, said last month. "For us and our customers, I think we’ll be focused on 50 miles, at least at the start."

That is below the 100-kilometer Karman Line commonly used as the boundary of space, including in the Ansari X Prize competition won by SpaceShipOne in 2004. However, the Fédération Aéronautique Internationale (FAI), the world air sports federation that maintains records for both aviation and spaceflight, announced Nov. 30 it would reconsider that definition with an eye toward lowering it.

The company added that, on this test flight, it is carrying four unnamed payloads through NASA’s Flight Opportunities program, which provides suborbital and related flights of research payloads. Those experiments, the company said, are part of an effort by the company "to start simulating the commercial weight distribution in the spaceship represented by our future passengers."

This story was provided by SpaceNews, dedicated to covering all aspects of the space industry.

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Jeff Foust
SpaceNews Senior Staff Writer

Jeff Foust is a Senior Staff Writer at SpaceNews, a space industry news magazine and website, where he writes about space policy, commercial spaceflight and other aerospace industry topics. Jeff has a Ph.D. in planetary sciences from the Massachusetts Institute of Technology and earned a bachelor's degree in geophysics and planetary science from the California Institute of Technology. You can see Jeff's latest projects by following him on Twitter.