Carrier landing simulation tests The landing gear on aircraft used on aircraft carriers must be stronger than those on land-based aircraft, due to higher approach speeds and sink rates during carrier landings. As early as the 1940s, drop tests were conducted by lifting a carrier-based plane such as the
Grumman F6F Hellcat to a height of ten feet and then dropped, simulating the impact of a landing at . The F6F was ultimately dropped from a height of , demonstrating it could absorb twice the force of a carrier landing. Drop tests are still used in the development and testing of carrier-based aircraft; in 2010, the
Lockheed Martin F-35C Lightning II underwent drop tests to simulate its maximum descent rate of during carrier landings. research vehicle is released from
Balls 8,
NASA's
B-52 mothership during a drop test. The pylon used to carry experimental vehicles is visible near the top of the photo, between the fuselage and inboard right engine.
Experimental aircraft Numerous
experimental and
prototype aircraft have been drop tested or drop launched. Many powered
X-planes, including the
Bell X-1,
Bell X-2,
North American X-15,
Martin Marietta X-24A and
X-24B,
Orbital Sciences X-34,
Boeing X-40, and
NASA X-43A were specifically designed to be drop launched.
test articles of the unpowered
NASA X-38 were also drop tested, from altitudes of up to , in order to study its
aerodynamic and handling qualities,
autonomous flight capabilities, and deployment of its steerable
parafoil. Some experimental aircraft designed for airborne launches, such as the
Northrop HL-10, have made both unpowered drop tests and powered drop launches. Prior to powered flights using its rocket engine, the HL-10 made 11 unpowered drop flights in order to study the handling qualities and stability of the
lifting body in flight.
Balls 8 mothership Early experimental aircraft, such as the
X-1 and
X-2, were carried aboard modified
B-29 and
B-50 bombers. In the 1950s, the
United States Air Force provided
NASA with a
B-52 bomber to be used as a
mothership for the experimental
X-15. Built in 1955, the B-52 was only the 10th to come off the assembly line, and was used by the Air Force for
flight testing before turning it over to NASA. Flying with NASA tail number 008, the plane was nicknamed
Balls 8 by Air Force pilots, following a tradition of referring to aircraft numbered with multiple zeroes as "Balls" plus the final number.
Balls 8 received significant modifications in order to carry the X-15. A special
pylon, designed to carry and release the X-15, was installed under the right wing between the fuselage and inboard engine. A notch was also cut out of one of the right wing's flaps so that the plane could accommodate the X-15's vertical tail.
Balls 8 was one of two such bombers modified to carry the X-15; while the other plane was retired in 1969 after the end of the X-15 program, NASA continued using
Balls 8 for drop tests until it was retired in 2004. During its 50-year career,
Balls 8 carried numerous experimental vehicles including the HL-10, X-24A, X-24B, X-38, and X-43A. '' being released by
Shuttle Carrier Aircraft Space Shuttle Enterprise In 1977, a series of drop tests of the were conducted to test the Space Shuttle's flight characteristics. Because the Space Shuttle is designed to glide unpowered during its descent and landing, a series of drop tests using a test orbiter were used to demonstrate that the orbiter could be successfully controlled in unpowered flight. These drop tests, known as the
Approach and Landing Test program, used a modified
Boeing 747, known as the
Shuttle Carrier Aircraft or SCA, to carry
Enterprise to an altitude of . After a series of captive-flight tests in which the orbiter was not released, five free-flight tests were performed in August through October 1977. While free-flight tests of
Enterprise involved the release of an unpowered aircraft from a powered aircraft, these tests were not typical of drop testing because the orbiter was actually carried and released from a position above the SCA. This arrangement was potentially dangerous because it placed
Enterprise in free flight directly in front of the SCA's
tail fin immediately after release. As a result, the "drop" was conducted by using a series of carefully planned maneuvers to minimize the risk of aircraft collision. Immediately after release, the
Enterprise would climb to the right while the SCA performed a shallow dive to the left, allowing for quick vertical and horizontal separation between the two aircraft.
Dream Chaser In mid-2013,
Sierra Nevada Corporation plans to conduct drop tests of its
Dream Chaser prototype
commercial spaceplane. The uncrewed first flight test will drop the Dream Chaser prototype from an altitude of by a Columbia 234-UT helicopter, where it is planned that the vehicle will autonomously fly to an unpowered landing at
Dryden Flight Research Center. The Dream Chaser successfully completed the free-flight and passed the drop test on November 11 over the
Mojave Desert. The uncrewed vehicle made a landing at
Edwards Air Force Base. ==Crewed capsule testing==