NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Part of Batch image transfer from Flickr.

The model of the Space Launch System for the Orion Space Capsule is being prepared for windtunnel test in the 14x22 Subsonic windtunnel at NASA Langley.

The model of the Space Launch System for the Orion Space Capsule is being prepared for windtunnel test in the 14x22 Subsonic windtunnel at NASA Langley.

Focus on active photos –Class B Simulation Evaluation in the ATOL Lab at Langley (Also at FAA Tech Center) where team is working with one another in the lab, reviewing data on the monitors. Working the software, adjusting the software systems. Going over the shoulder to show the displays and screens as the software is running. John Foster (left) in the role of an air taxi pilot in the simulator chair with Jim Chamberlain and Terence McClain at the flight manager stations running virtual air taxi integration simulations focusing on urban air space at NASA’s Langley Research Center in Hampton, Virginia on Sept. 25, 2024.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Award presented to Mike Rodriguez. Part of Batch image transfer from Flickr.

Focus on active photos –Class B Simulation Evaluation in the ATOL Lab at Langley (Also at FAA Tech Center) where team is working with one another in the lab, reviewing data on the monitors. Working the software, adjusting the software systems. Going over the shoulder to show the displays and screens as the software is running. A pilot’s point of view from the controls of the air taxi simulator. An out-the-window simulation appears on the top screen, the primary flight display on the lower left, the virtual moving map in the middle, and the detect and avoid display on the lower right at NASA’s Langley Research Center in Hampton, Virginia on Sept. 25, 2024.

The model of the Space Launch System for the Orion Space Capsule is being prepared for windtunnel test in the 14x22 Subsonic windtunnel at NASA Langley.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Award presented to Wayne Walters. Part of Batch image transfer from Flickr.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Award presented to John Davidson. Part of Batch image transfer from Flickr.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Part of Batch image transfer from Flickr.

Focus on active photos –Class B Simulation Evaluation in the ATOL Lab at Langley (Also at FAA Tech Center) where team is working with one another in the lab, reviewing data on the monitors. Working the software, adjusting the software systems. Going over the shoulder to show the displays and screens as the software is running. Andy Burroughs (left) and Paul Friz in the roles of air taxi pilots running through air taxi integration simulations focusing on urban air space at NASA’s Langley Research in Hampton, Virginia on Sept. 25, 2024.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Award is presented to Kevin Rivers. Part of Batch image transfer from Flickr.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Part of Batch image transfer from Flickr.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Award was presented to Robert G. Parker. Part of Batch image transfer from Flickr.

The model of the Space Launch System for the Orion Space Capsule is being prepared for windtunnel test in the 14x22 Subsonic windtunnel at NASA Langley.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Part of Batch image transfer from Flickr.

NASA and Lockheed Martin Orion leadership visit Langley Research Center in Hampton, VA on March 19, 2015 to celebrate the center's contribution to Orion's Exploration Flight Test-1 (EFT-1). Part of Batch image transfer from Flickr.

The model of the Space Launch System for the Orion Space Capsule is being prepared for windtunnel test in the 14x22 Subsonic windtunnel at NASA Langley.

NASA employees Broderic J. Gonzalez, left, and David W. Shank, right, install pieces of a 7-foot wing model in preparation for testing in the 14-by-22-Foot Subsonic Wind Tunnel at NASA's Langley Research Center in Hampton, Virginia, in May 2025. The lessons learned from this testing will be shared with the public to support advanced air mobility aircraft development.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

At NASA’s Langley Research Center in Hampton, Virginia, a mock-up of the Boeing CST-100 Starliner spacecraft goes through a series of land landing qualification tests to simulate what the actual spacecraft and crew members may experience while returning to Earth from space. The Starliner is being developed in collaboration with NASA’s Commercial Crew Program. Along with SpaceX’s Crew Dragon, the spacecraft is part of the agency’s effort to return America’s capability to launch astronauts from the agency's Kennedy Space Center in Florida to the International Space Station.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

Engineers at NASA’s Langley Research Center in Hampton, Virginia, install test dummies into the seats of an Orion test article on Feb. 26, 2016. The capsule, coupled with the heat shield from the spacecraft’s first flight, will be used for water-impact testing to simulate what astronauts will experience when landing in the Pacific Ocean during a real mission.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

The Orion aerosciences team has performed more than 30 tests across the United States in support of the program, investigating the heating of the spacecraft during re-entry into Earth’s atmosphere. Testing recently concluded at NASA’s Langley Research Center in Hampton, Virginia with a 6-inch Orion heat shield model in the 20-inch Mach 6 wind tunnel, shown here on Feb. 4, 2019. The team includes engineers at Langley, NASA’s Johnson Space Center in Houston, Texas, and NASA’s Ames Research Center in Silicon Valley.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

At NASA’s Langley Research Center in Hampton, Virginia, a mock-up of the Boeing CST-100 Starliner spacecraft goes through a series of land landing qualification tests to simulate what the actual spacecraft and crew members may experience while returning to Earth from space. The Starliner is being developed in collaboration with NASA’s Commercial Crew Program. Along with SpaceX’s Crew Dragon, the spacecraft is part of the agency’s effort to return America’s capability to launch astronauts from the agency's Kennedy Space Center in Florida to the International Space Station.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

The Orion aerosciences team has performed more than 30 tests across the United States in support of the program, investigating the heating of the spacecraft during re-entry into Earth’s atmosphere. Testing recently concluded at NASA’s Langley Research Center in Hampton, Virginia with a 6-inch Orion heat shield model in the 20-inch Mach 6 wind tunnel, shown here on Feb. 4, 2019. The team includes engineers at Langley, NASA’s Johnson Space Center in Houston, Texas, and NASA’s Ames Research Center in Silicon Valley.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

Engineers at NASA’s Langley Research Center in Hampton, Virginia, install test dummies into the seats of an Orion test article on Feb. 26, 2016. The capsule, coupled with the heat shield from the spacecraft’s first flight, will be used for water-impact testing to simulate what astronauts will experience when landing in the Pacific Ocean during a real mission.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

Orion's 2016 water drop test series included heavily instrumented test dummies, shown here on May 6, 2016, to assess the impact future crews will experience in Orion splashdown scenarios.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

Data from the American Airlines ramp tower at Charlotte airport is among the information to be coordinated as part of ATD-2.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

Engineers at NASA’s Langley Research Center in Hampton, Virginia, install test dummies into the seats of an Orion test article on Feb. 26, 2016. The capsule, coupled with the heat shield from the spacecraft’s first flight, will be used for water-impact testing to simulate what astronauts will experience when landing in the Pacific Ocean during a real mission.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

The Orion aerosciences team has performed more than 30 tests across the United States in support of the program, investigating the heating of the spacecraft during re-entry into Earth’s atmosphere. Testing recently concluded at NASA’s Langley Research Center in Hampton, Virginia with a 6-inch Orion heat shield model in the 20-inch Mach 6 wind tunnel, shown here on Feb. 4, 2019. The team includes engineers at Langley, NASA’s Johnson Space Center in Houston, Texas, and NASA’s Ames Research Center in Silicon Valley.

Orion's 2016 water drop test series included heavily instrumented test dummies, shown here on May 6, 2016, to assess the impact future crews will experience in Orion splashdown scenarios.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

At NASA’s Langley Research Center in Hampton, Virginia, a mock-up of the Boeing CST-100 Starliner spacecraft goes through a series of land landing qualification tests to simulate what the actual spacecraft and crew members may experience while returning to Earth from space. The Starliner is being developed in collaboration with NASA’s Commercial Crew Program. Along with SpaceX’s Crew Dragon, the spacecraft is part of the agency’s effort to return America’s capability to launch astronauts from the agency's Kennedy Space Center in Florida to the International Space Station.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

"Thumbs up" is signaled by ground personnel at NASA’s Langley Research Center in Hampton, Virginia, after a mock-up of the Boeing CST-100 Starliner spacecraft completed a land landing qualification test. The operation was to simulate what the actual spacecraft and crew members may experience while returning to Earth from space. The Starliner is being developed in collaboration with NASA’s Commercial Crew Program. Along with SpaceX’s Crew Dragon, the spacecraft is part of the agency’s effort to return America’s capability to launch astronauts from the agency's Kennedy Space Center in Florida to the International Space Station.

The Orion Ground Test Article completes its first swing water impact test at NASA's Langley Research Center in Virginia on June 8, 2016.

An Orion water drop test, with instrumented test dummies, takes place on May 11, 2016 at NASA's Langley Research Center in Virginia.

On April 6, 2016, engineers at NASA’s Langley Research Center in Hampton, Virginia, kicked off a series of nine drop tests of a representative Orion crew capsule with crash test dummies inside to understand what the spacecraft and astronauts may experience when landing in the Pacific Ocean after deep-space missions. The high-fidelity capsule, coupled with the heat shield from Orion's first flight in space, was hoisted approximately 16 feet above the water and vertically dropped into Langley’s 20-foot-deep Hydro Impact Basin. The crash test dummies were instrumented to provide data and secured inside the capsule to help provide information engineers need to ensure astronauts will be protected from injury during splashdown. Each test in the series simulates different scenarios for Orion’s parachute-assisted landings, wind conditions, velocities and wave heights the spacecraft may experience when touching down in the ocean.

Engineers at NASA’s Langley Research Center in Hampton, Virginia, install test dummies into the seats of an Orion test article on Feb. 26, 2016. The capsule, coupled with the heat shield from the spacecraft’s first flight, will be used for water-impact testing to simulate what astronauts will experience when landing in the Pacific Ocean during a real mission.