After Virgin Galactic’s SpaceShipTwo, dubbed VSS Unity, took to the skies for its third-ever test flight on Thursday — and again had to scrub a “glide test” at the last minute — the aerospace company is now looking ahead to its next test run.
The glider remained attached to its WhiteKnightTwo mothership, and the highly anticipated glide test was delayed yet again. Another test flight has not been announced.
On Tuesday, heavy crosswinds forced Virgin Galactic to call a scrub for the gliding test, with the pair of planes landing safely in the Mojave desert about an hour and a half after takeoff.
During the glide test, the two vehicles take off as a mated pair, with the SpaceShipTwo detaching from its mothership during flight and gently gliding back to the runway. Following a successful capture carry test, this is the next step before resuming rocket-powered flights.
Even though the glide tests are not designed to go into space, they are a major step towards Virgin Galactic’s ultimate goal of launching people into space. However, the aerospace company must first prove its vehicles are safe to carry human passengers. In order to do so, the company has to complete a lengthy testing process that includes glide tests and free-flight tests.
The last time Virgin Galactic performed a free-flight of its SpaceShipTwo vehicle was two years ago, when the vehicle — dubbed the VSS Enterprise — broke apart in-flight, injuring the pilot and killing the co-pilot.
The company is taking a cautious approach to testing and decided to pull the plug on today’s test after seeing something in the data they didn’t like.
Virgin Galactic controllers are combing over the data collected and will be ready to try again in the near future.
Quelle: INVERSE
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Update: 4.12.2016
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New SpaceShipTwo Flies Free for the First Time
Dozens more test flights will follow for the Virgin Galactic spaceplane "Unity" before paying passengers are aboard.
Virgin Galactic's new six-passenger SpaceShipTwo made its first glide test over Mojave, California on Saturday.
The ship is the second in a series of commercial spaceships built for Richard Branson's space company, which is selling tickets to ride for $250,000.
The first ship, manufactured and tested by contractor Northrop Grumman's Scaled Composites, was destroyed during a fatal test flight on Oct. 31, 2014.
The new ship, named Unity and built by Virgin's The SpaceShip Company, previously made four flights attached to its carrier aircraft.
On Saturday, SpaceShipTwo and its mothership, WhiteKnightTwo, took off at 6:49 a.m. from California's Mojave Air and Space Port, located in the Mojave Desert about 200 miles northwest of Los Angeles.
"We've got an exciting year ahead and this is just the start of it," Branson told a small group braving the 28-degree Fahrenheit temperature to watch the spaceship fly.
"I'm afraid you're going to see a lot of me these next few months," Branson said in a video from the spaceport's runway posted by Douglas Messier at ParabolicArc.com.
With Virgin Galactic pilots Mark Stucky and David Mackay at the helm, Unity separated from WhiteKnightTwo at an altitude of just over 50,000 feet, said Virgin Galactic President Mike Moses.
"She looked beautiful," Moses said in a telephone interview after the flight.
Unity flew at Mach 0.6 for an initial check of handling characteristics and vibration tests, then landed on the spaceport runway.
"Next time we'll fly faster," Moses said, adding that the 15-minute flight flight marked a major milestone for the program.
"Flying captive is great, but there is nothing like a free flight when it's a true airplane," Moses said. "We got a glider today, but it's well on its way to becoming a spaceship."
WATCH VIDEO: Will We Ever be Able to Vacation in Space?
Virgin Galactics SpaceShipTwo, dubbed the VSS Unity, took to the skies over Mojave, California this morning to complete the craft’s first ever free-flight test. And preliminary data shows it was a huge success.
Today’s flight marked the fifth overall flight for the VSS Unity, which has the distinction of being the only spacecraft built by the company’s in-house manufacturing team — TheSpaceshipCompany — and the 218th flight for its mothership, the WhiteKnightTwo.
Earlier in the week, the duo joined forces to complete a fourth captive carry test. Following the pair’s second captive-carry test in September, engineers decided that all systems were performing as expected and the crew could move onto free-flight testing. The first two attempts (both in November) were thwarted due to weather and an unexpected anomaly, which prevented the crew from separating the two vehicles.
That was not the case today. Following takeoff, the pilots of both vehicles tested multiple on board systems, ensuring they were ready (and able) to release the spacecraft. Once they received the green light from the control room, the VSS Unity was set free, and coasted down to a gentle landing.
During free-flight (also known as a glide test) testing, the two vehicles take off as a mated pair, with the SpaceShipTwo detaching from the WhiteKnightTwo during flight before gently gliding back to the runway. In-flight testing allows engineers thoroughly study how various systems on board the vehicles perform during flight.
The glide tests are not designed to go into space; however, they are a major step towards Virgin Galactic’s ultimate goal: launching people into space. Before that can happen, the aerospace company must first prove its vehicles are safe to carry human passengers. In order to do so, the company has to complete a lengthy testing process that includes captive-carry, free-flight, and rocket-powered tests.
Rocket-powered testing was suspended following a tragic accident in 2014, when the first SpaceShipTwo crashed as a result of pilot error. The accident resulted in the death of one pilot, leaving a second injured.
Today’s successful free-flight test, was a crucial step to resuming rocket-powered flights.
Both vehicles are reported to have landed safely, and the team will now begin the tedious process of analyzing all the data collected during the test.
Quelle: INVERSE
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