Feather Up (5G)
After resolving the avionics malfunction that caused the aborted glide flight, SpaceShipOne and White Knight were back up flying again the very same day. Melvill was dropped at 48,200 feet (14,690 meters) from White Knight flying at a speed of 105 knots. For his first maneuver, he put SpaceShipOne into a full stall to investigate stall characteristics.
The second maneuver was one of the most critical firsts of the entire flight test program. Evaluation of the feather would begin on this flight. The purpose of the feather was to decelerate SpaceShipOne during reentry into the atmosphere.
“That’s something you do in glide tests,” Burt Rutan said. “You don’t have to do that in spaceflight because once you decelerate from your spaceflight, you find yourself in a stable glide, which is identical to the way we flew the airplane on its first glide flight. So, we went out early in the program and put the feather up and put it down.”
Rutan had planned to do a high-speed pull-up in a glide flight and put the feather up as it peaked to simulate zero-g during the beginning of the program. But this turned out unnecessary and would have used up too much altitude. “We started off at 43,000 feet [13,110 meters] and put the feather up to make sure it flew the way we wanted,” Doug Shane said. “We ended up doing feather
Flight Test Log Excerpt for 5G
Date: 27 August 2003
Flight Number Pilot/Flight Engineer
SpaceShipOne 5G Mike Melvill
White Knight 32L Brian Binnie/Cory Bird
Objective: Same objectives as the aborted flight 31LC/4GC earlier today. Second glide flight of SpaceShipOne. Flying qualities and performance in the spaceship reentry or "feather" mode. Pilot workload and situational awareness while transitioning and handling qualities assessment when reconfigured. As a glider, stall investigation both at high and low altitude and envelope expansion out to 200 knots and 4 g’s. More aggressive, lateral directional characteristics including adverse yaw, roll rate effectiveness and control, including 360 degrees aileron roll, and full rudder side slips.
(source: Mojave Aerospace Ventures LLC, provided courtesy of Scaled Composites)
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deployments from tail-slide entries, and it just worked great. Everything was as good as we could have possibly hoped for.”
SpaceShipOne was gliding along at an airspeed of 90 knots when Melvill unlocked and activated the feather. As the tail booms began to elevate to their fully extended position of 65 degrees, the nose of SpaceShipOne pitched up but settled back to a near-level pitch. Melvill encountered a lot of buzzing and buffeting during the 70-second feathered descent.
With the feather deployed, SpaceShipOne dropped at a rate greater than 10,000 feet per minute [3,050 meters per minute]. However, it was extremely stable as it fell to the ground belly first.
“You could change the heading,” Mike Melvill said. “If you were pointing at Cal City, you could turn around and point it to Mojave. And you used the elevons to do that. It was kind of weird because normally it would roll, but your sensation was that it was yawing.”
“If you stepped on the rudders, it wasn’t perceptible to you what was happening. Nothing happened. The only thing that really did anything was lateral spin. It was kind of neat to go over and look at a different view, and look over there and see what was over there. We did that a lot when we were flying as a glider in the atmosphere.”
At 30,000 feet (9,140 meters) Melvill retracted and locked down the feather. SpaceShipOne was back as a glider, as shown in figure 7.6. He expanded the flight envelope for airspeed and g-force. And before landing, he executed SpaceShipOne’s first roll.