The launch abort motor for Orion’s launch abort system (LAS) for Artemis II, enclosed in its shipping container, arrives at NASA’s Kennedy Space Center in Florida on April 13, 2020. The motor arrived from Northrop Grumman in Promontory, Utah, and was transported to the Launch Abort System Facility where it will undergo testing in preparation for the second Artemis mission. The launch abort motor is one of three motors on the LAS. The LAS will be positioned atop the Orion crew module and is designed to protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. Artemis II will take the first humans in orbit around the Moon in the 21st century.

The launch abort motor for Orion’s launch abort system (LAS) for Artemis II, enclosed in its shipping container, arrives at NASA’s Kennedy Space Center in Florida on April 13, 2020. The motor arrived from Northrop Grumman in Promontory, Utah, and was transported to the Launch Abort System Facility where it will undergo testing in preparation for the second Artemis mission. The launch abort motor is one of three motors on the LAS. The LAS will be positioned atop the Orion crew module and is designed to protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. Artemis II will take the first humans in orbit around the Moon in the 21st century.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The jettison motor for Orion’s Launch Abort System (LAS) is shown inside the Launch Abort System Facility (LASF) at NASA’s Kennedy Space Center in Florida. The motor, which arrived at Kennedy on Sept. 10, 2018, will be stored in the LASF until processing for a full-stress test of the LAS called Ascent Abort-2 (AA-2), scheduled for April 2019. Designed and built by NASA and Lockheed Martin, the LAS will protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. The jettison motor is one of three solid propellant rocket motors in the LAS (the abort motor and attitude control motor are the other two). The jettison motor will pull the LAS away from the crew module, allowing Orion’s parachutes to deploy and the spacecraft to safely land in the ocean.

The third and final aeroshell, center in back, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell arrived by truck from EMF Inc. on nearby Merritt Island. It will be offloaded and placed on slats in the high bay. All three aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells, at right, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell arrived by truck from EMF Inc. on nearby Merritt Island. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

Inside the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, Anthony Sabatino, with Jacobs on the Test and Operations Support Contract, awaits arrival of the first of three aeroshells for Orion's Launch Abort System (LAS) on June 19, 2018. The aeroshell is arriving by truck from EMF Inc. on nearby Merritt Island and will be offloaded and secured in High Bay 4. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

KENNEDY SPACE CENTER, FLA. -- A member of the Columbia Restoration Project Team places a piece of debris on the floor of the RLV Hangar at KSC. A fourth shipment of Columbia debris has arrived at KSC. The team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia as it returned to Earth on mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

Test hardware for Orion crew capsule from the Artemis 1 flight arrives in the SEC (Space Experiments Complex) at ATF (Armstrong Test Facility), The LAS (Launch Abort System) arrived in four separate shipments from locations in Florida and Colorado. It is now being integrated with the Orion CM (crew module) for critical testing before the flight of Artemis II.

The third and final aeroshell for Orion's Launch Abort System (LAS) arrives by truck on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in High Bay 4 of the Vehicle Assembly Building. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells, at right, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The first of three aeroshells for Orion's Launch Abort System (LAS) arrives by truck and is offloaded in High Bay 4 inside the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 19, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The third and final aeroshells for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells, at right, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The third and final aeroshell for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island, and will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

Secured on a flatbed transporter in its shipping container, the ground test motor for Orion's Launch Abort System (LAS) arrives at the Rotation, Processing and Surge Facility (RPSF) on July 20, 2018, at NASA's Kennedy Space Center in Florida. In the RPSF the motor will be inspected and prepared for transport to Space Launch Complex 46 (SLC-46) at Cape Canaveral Air Force Station for mechanical fit testing. This inert motor will not be used for flight, but will be used to certify flight hardware assembly in preparation for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, the booster will launch from SLC 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. NASA's Orion and Exploration Ground Systems programs and their contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch SMC/LEXO, are performing the pathfinding exercises and flight operations for AA-2.

The second of three aeroshells, at right, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The third and final aeroshell for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells, at right, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The ground test motor for Orion's Launch Abort System (LAS) arrives by flatbed truck in its shipping container in the transfer aisle of the Vehicle Assembly Building on July 20, 2018, at NASA's Kennedy Space Center in Florida. It will be transferred to the Rotation, Processing and Surge Facility where it will be inspected and prepared for transport to Space Launch Complex 46 (SLC-46) at Cape Canaveral Air Force Station for mechanical fit testing. This inert motor will not be used for flight, but will be used to certify flight hardware assembly in preparation for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, the booster will launch from SLC 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. NASA's Orion and Exploration Ground Systems programs and their contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch SMC/LEXO, are performing the pathfinding exercises and flight operations for AA-2.

The third and final aeroshell for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. A technician assists with crane attachment so that the aeroshell can be offloaded and placed on slats in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

Secured on a flatbed transporter in its shipping container, the ground test motor for Orion's Launch Abort System (LAS) arrives at the Rotation, Processing and Surge Facility (RPSF) on July 20, 2018, at NASA's Kennedy Space Center in Florida. In the RPSF the motor will be inspected and prepared for transport to Space Launch Complex 46 (SLC-46) at Cape Canaveral Air Force Station for mechanical fit testing. This inert motor will not be used for flight, but will be used to certify flight hardware assembly in preparation for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, the booster will launch from SLC 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. NASA's Orion and Exploration Ground Systems programs and their contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch SMC/LEXO, are performing the pathfinding exercises and flight operations for AA-2.

The second of three aeroshells for Orion's Launch Abort System (LAS) arrives by truck at the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in High Bay 4. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The second of three aeroshells, at right, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The first of three aeroshells for Orion's Launch Abort System (LAS) arrives by truck in High Bay 4 inside the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 19, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The ground test motor for Orion's Launch Abort System (LAS) arrives by flatbed truck in its shipping container in the transfer aisle of the Vehicle Assembly Building on July 20, 2018, at NASA's Kennedy Space Center in Florida. It will be transferred to the Rotation, Processing and Surge Facility where it will be inspected and prepared for transport to Space Launch Complex 46 (SLC-46) at Cape Canaveral Air Force Station for mechanical fit testing. This inert motor will not be used for flight, but will be used to certify flight hardware assembly in preparation for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, the booster will launch from SLC 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. NASA's Orion and Exploration Ground Systems programs and their contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch are performing the pathfinding exercises and flight operations for AA-2.

The second of three aeroshells for Orion's Launch Abort System (LAS) arrives by truck at the Vehicle Assembly Building at NASA's Kennedy Space Center in Florida, on June 26, 2018. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in High Bay 4. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The ground test motor for Orion's Launch Abort System (LAS) arrives by flatbed truck in its shipping container in the transfer aisle of the Vehicle Assembly Building on July 20, 2018, at NASA's Kennedy Space Center in Florida. It will be transferred to the Rotation, Processing and Surge Facility where it will be inspected and prepared for transport to Space Launch Complex 46 (SLC-46) at Cape Canaveral Air Force Station for mechanical fit testing. This inert motor will not be used for flight, but will be used to certify flight hardware assembly in preparation for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, the booster will launch from SLC 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. NASA's Orion and Exploration Ground Systems programs and their contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch SMC/LEXO, are performing the pathfinding exercises and flight operations for AA-2.

The third and final aeroshell for Orion's Launch Abort System (LAS) arrives by truck at the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in High Bay 4. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

The third and final aeroshell, at left, for Orion's Launch Abort System (LAS) arrives by flatbed truck in High Bay 4 of the Vehicle Assembly Building on July 12, 2018, at NASA's Kennedy Space Center in Florida. The aeroshell was shipped from EMF Inc. on nearby Merritt Island. It will be offloaded and secured in the high bay. The aeroshells will be stacked and prepared for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, a booster will launch from Space Launch Complex 46 at Cape Canaveral Air Force Station, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1.

KENNEDY SPACE CENTER, FLA. - KSC Director Roy D. Bridges (second from left) inspects Columbia debris arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. The debris is being collected at the RLV Hangar near the Shuttle Landing Facility. Workers there will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

NASA Deputy Administrator Lori Garver and President and founder of Bigelow Aerospace Robert T. Bigelow talk while standing next to the Bigelow Expandable Activity Module (BEAM) during a media briefing where is was announced that the BEAM expandable space habitat technology will be tested on the International Space Station, Wednesday, Jan. 16, 2013 in Las Vegas. BEAM is scheduled to arrive at the space station in 2015 for a two-year technology demonstration. Photo Credit: (NASA/Bill Ingalls)

KENNEDY SPACE CENTER, FLA. -- A truckload of recovered Columbia debris arrives at the RLV Hangar near the Shuttle Landing Facility. It was transported from the collection point at Barksdale Air Force Base, Shreveport, La. Workers in the RLV will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. - In the RLV Hangar at KSC, members of the Columbia Restoration Project Team show Shuttle Program Manager Ron Dittemore (third from left) and Ralph Roe, with the Orbiter Work Group at JSC, a piece of Columbia debris. The team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

NASA Deputy Administrator Lori Garver and President and founder of Bigelow Aerospace Robert T. Bigelow, announce a planned addition to the International Space Station that will use the orbiting laboratory to test expandable space habitat technology during a press conference held at Bigelow Aerospace on Wednesday, Jan. 16, 2013 in Las Vegas. The $17.8 million contract with Bigelow Aerospace will provide a Bigelow Expandable Activity Module (BEAM), which is scheduled to arrive at the space station in 2015 for a two-year technology demonstration. Photo Credit: (NASA/Bill Ingalls)

KENNEDY SPACE CENTER, FLA. - The first truckload of recovered Columbia debris arrives at the RLV Hangar near the Shuttle Landing Facility. It was transported from the collection point at Barksdale Air Force Base, Shreveport, La. Workers in the RLV will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. -- Shuttle Program Manager Ron Dittemore (third from left) and Ralph Roe (fourth from left), with the Orbiter Work Group, JSC, examine a piece of debris from Columbia. A Columbia Restoration Project Team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. -- Columbia Reconstruction Project Team members catalog pieces of debris from the Space Shuttle Columbia in the RLV Hangar. The debris arrived at KSC today from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. - Truckloads of recovered Columbia debris arrive at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. They will be taken to the RLV Hangar near the Shuttle Landing Facility. Workers there will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. -- A Columbia Reconstruction Project Team member surveys pieces of debris from the Space Shuttle Columbia in the RLV Hangar. The debris arrived at KSC today from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

President and founder of Bigelow Aerospace Robert T. Bigelow, talks during a media briefing where he and NASA Deputy Administrator Lori Garver discussed their $17.8 million contract to provide a Bigelow Expandable Activity Module (BEAM) to the International Space Station to test expandable space habitat technology, Wednesday, Jan. 16, 2013 at Bigelow Aerospace in Las Vegas. BEAM is scheduled to arrive at the space station in 2015 for a two-year technology demonstration. Photo Credit: (NASA/Bill Ingalls)

KENNEDY SPACE CENTER, FLA. -- Columbia Reconstruction Project Team members examine newly arrived pieces of debris from the Space Shuttle Columbia in the RLV Hangar. The debris was shipped to KSC from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. - Workers look at a piece of the Columbia debris ready to be moved into the RLV Hangar near the Shuttle Landing Facility. Truckloads of the debris arrived from the collection point at Barksdale Air Force Base, Shreveport, La. The workers will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. -- Shuttle Program Manager Ron Dittemore (second from left) and Ralph Roe, (third from left), with the Orbiter Work Group, JSC, examine a piece of debris from Columbia. A Columbia Restoration Project Team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. -- Workers look at a piece of the Columbia debris ready to be moved into the RLV Hangar near the Shuttle Landing Facility. Truckloads of the debris arrived from the collection point at Barksdale Air Force Base, Shreveport, La. The workers will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. -- Several more pieces of debris are moved into the RLV Hangar near the Shuttle Landing Facility. Truckloads of the debris arrived from the collection point at Barksdale Air Force Base, Shreveport, La. The workers will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. -- In the RLV Hangar at KSC, pieces of debris from Columbia lie across the grid on the floor. Members of the Columbia Restoration Project Team are examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

In the RLV Hangar, a Columbia Reconstruction Project Team member examines a piece of debris from the Space Shuttle Columbia. The debris has begun arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, Fla. - A member of the Columbia Reconstruction Project Team looks at piece of Columbia debris newly arrived from Barksdale Air Force Base, Shreveport, La. Inside the RLV Hangar, the team is identifying pieces and placing them on a floor grid in a configuration of the orbiter. The team will attempt to reconstruct the bottom of the orbiter as part of the investigation into the accident that caused the destruction of Columbia and loss of its crew as it returned to Earth on mission STS-107. To date, 35,319 pieces have been shipped to KSC; 1,218 are identified and placed on the grid.

KENNEDY SPACE CENTER, FLA. -- A Columbia Reconstruction Project Team member examines pieces of debris from the Space Shuttle Columbia in the RLV Hangar. The debris arrived at KSC today from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. -- Ralph Roe (second from right), with the Orbiter Work Group, JSC, and Shuttle Program Manager Ron Dittemore (third from right) look at Columbia debris in the RLV Hangar at KSC. The Columbia Restoration Project Team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. - Members of the Columbia Restoration Project Team look at a piece of debris on the floor of the RLV Hangar at KSC. The team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. - Workers inside the RLV Hangar near the Shuttle Landing Facility look at a piece of the Columbia debris newly arrived from the collection point at Barksdale Air Force Base, Shreveport, La. The workers will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107. .

KENNEDY SPACE CENTER, FLA. -- In the RLV Hangar, Columbia Reconstruction Project Team members examine pieces of debris from the Space Shuttle Columbia. The debris has begun arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. -- Pieces of debris from Columbia lie across the grid on the floor of the RLV Hangar at KSC. Members of the Columbia Restoration Project Team are examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. -- The grid on which the pieces of Columbia debris will be organized is captured in this aerial view of the RLV Hangar floor. The debris has begun arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. - KSC Director Roy D. Bridges (third from left) inspects Columbia debris arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. The debris is being collected at the RLV Hangar near the Shuttle Landing Facility. Workers there will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. -- Shuttle Program Manager Ron Dittemore (third from right) and Ralph Roe (fourth from right), with the Orbiter Work Group, JSC, look at Columbia debris being held my a member of the Columbia Restoration Project Team. The team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. - KSC Director Roy D. Bridges (second from left) inspects Columbia debris arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. The debris is being collected at the RLV Hangar near the Shuttle Landing Facility. Workers there will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

NASA Deputy Administrator Lori Garver talks during a media briefing where she and President and founder of Bigelow Aerospace Robert T. Bigelow, discussed their $17.8 million contract to provide a Bigelow Expandable Activity Module (BEAM) to the International Space Station to test expandable space habitat technology, Wednesday, Jan. 16, 2013 at Bigelow Aerospace in Las Vegas. BEAM is scheduled to arrive at the space station in 2015 for a two-year technology demonstration. Photo Credit: (NASA/Bill Ingalls)

NASA Deputy Administrator Lori Garver and President and founder of Bigelow Aerospace Robert T. Bigelow talk while standing next to the Bigelow Expandable Activity Module (BEAM) during a media briefing where it is was announced that the BEAM expandable space habitat technology will be tested on the International Space Station, Wednesday, Jan. 16, 2013 in Las Vegas. BEAM is scheduled to arrive at the space station in 2015 for a two-year technology demonstration. Photo Credit: (NASA/Bill Ingalls)

KENNEDY SPACE CENTER, FLA. - Shuttle Program Manager Ron Dittemore (center, pointing) looks over Columbia debris with members of the Columbia Restoration Project Team. To his right is Ralph Roe, with the Orbiter Work Group, JSC. The team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

KENNEDY SPACE CENTER, FLA. -- Columbia Reconstruction Project Team members survey pieces of debris from the Space Shuttle Columbia in the RLV Hangar. The debris arrived at KSC today from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. -- In the RLV Hangar, Columbia Reconstruction Project Team members examine a piece of debris from the Space Shuttle Columbia. The debris has begun arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. - Members of the Columbia Restoration Project Team look at debris on the floor of the RLV Hangar at KSC. The team is examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

In the RLV Hangar, a Columbia Reconstruction Project Team member examines pieces of debris from the Space Shuttle Columbia. The debris has begun arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La. As part of the ongoing investigation into the tragic accident that claimed Columbia and her crew of seven, workers will attempt to reconstruct the orbiter inside the hangar.

KENNEDY SPACE CENTER, FLA. - Columbia debris arriving at KSC from the collection point at Barksdale Air Force Base, Shreveport, La., awaits identification and placement in the RLV Hangar near the Shuttle Landing Facility. Workers there will attempt to reconstruct the orbiter as part of the ongoing investigation of the accident that destroyed the Columbia and claimed the lives of seven astronauts as they returned to Earth after a 16-day research mission, STS-107.

KENNEDY SPACE CENTER, FLA. - Pieces of debris from Columbia lie across the grid on the floor of the RLV Hangar at KSC. Members of the Columbia Restoration Project Team are examining pieces and attempting to reconstruct the orbiter as part of the investigation into the accident that caused the destruction of Columbia on its return to Earth from mission STS-107. To date, four shipments have arrived from Barksdale AFB, Shreveport, La., the collection point for debris.

The abort motor for NASA’s Artemis 1 mission, secured in a heavy transport truck, arrives at the Launch Abort System Facility (LASF) at the agency’s Kennedy Space Center in Florida on June 6, 2019. The abort motor, manufactured by Northrop Grumman, will be offloaded and moved into the LASF where it will be integrated with Orion subcomponents and prepared for Artemis 1. The abort motor is one of three motors located on the tower of the Launch Abort System (LAS). The LAS is designed to pull the Orion capsule and its crew away to safety if an emergency occurs during ascent of the Space Launch System (SLS) rocket. During Artemis 1, the uncrewed Orion spacecraft will launch atop the SLS from Launch Pad 39B at Kennedy. Orion will embark on an approximately three-week mission that will take the spacecraft thousands of miles past the Moon. Orion will return to Earth and splashdown in the Pacific Ocean off the coast of California, where it will be retrieved and returned to Kennedy.

The abort motor for NASA’s Artemis 1 mission, secured in a heavy transport truck, arrives at the entrance to the agency’s Kennedy Space Center in Florida on June 6, 2019. The abort motor, manufactured by Northrop Grumman, will be delivered to the Launch Abort System Facility and integrated with Orion subcomponents and prepared for Artemis 1. It is one of three motors located on the tower of the Launch Abort System (LAS). The LAS is designed to pull the Orion capsule and its crew away to safety if an emergency occurs during ascent of the Space Launch System (SLS) rocket. During Artemis 1, the uncrewed Orion spacecraft will launch atop the SLS from Launch Pad 39B at Kennedy. Orion will embark on an approximately three-week mission that will take the spacecraft thousands of miles past the Moon. Orion will return to Earth and splashdown in the Pacific Ocean off the coast of California, where it will be retrieved and returned to Kennedy.

The abort motor for NASA’s Artemis 1 mission, secured in a heavy transport truck, arrives at the entrance to the agency’s Kennedy Space Center in Florida on June 6, 2019. The abort motor, manufactured by Northrop Grumman, will be delivered to the Launch Abort System Facility and integrated with Orion subcomponents and prepared for Artemis 1. It is one of three motors located on the tower of the Launch Abort System (LAS). The LAS is designed to pull the Orion capsule and its crew away to safety if an emergency occurs during ascent of the Space Launch System (SLS) rocket. During Artemis 1, the uncrewed Orion spacecraft will launch atop the SLS from Launch Pad 39B at Kennedy. Orion will embark on an approximately three-week mission that will take the spacecraft thousands of miles past the Moon. Orion will return to Earth and splashdown in the Pacific Ocean off the coast of California, where it will be retrieved and returned to Kennedy.

The abort motor for NASA’s Artemis 1 mission, secured in a heavy transport truck, arrives at the Launch Abort System Facility (LASF) at the agency’s Kennedy Space Center in Florida on June 6, 2019. The abort motor, manufactured by Northrop Grumman, will be offloaded and moved into the LASF where it will be integrated with Orion subcomponents and prepared for Artemis 1. The abort motor is one of three motors located on the tower of the Launch Abort System (LAS). The LAS is designed to pull the Orion capsule and its crew away to safety if an emergency occurs during ascent of the Space Launch System (SLS) rocket. During Artemis 1, the uncrewed Orion spacecraft will launch atop the SLS from Launch Pad 39B at Kennedy. Orion will embark on an approximately three-week mission that will take the spacecraft thousands of miles past the Moon. Orion will return to Earth and splashdown in the Pacific Ocean off the coast of California, where it will be retrieved and returned to Kennedy.

KENNEDY SPACE CENTER, Fla. - A member of the Columbia Reconstruction Project Team checks out a piece of Columbia debris newly arrived from Barksdale Air Force Base, Shreveport, La. Inside the RLV Hangar, the team is identifying pieces and placing them on a floor grid in a configuration of the orbiter. The team will attempt to reconstruct the bottom of the orbiter as part of the investigation into the accident that caused the destruction of Columbia and loss of its crew as it returned to Earth on mission STS-107. To date, 35,319 pieces have been shipped to KSC; 1,218 are identified and placed on the grid.

KENNEDY SPACE CENTER, Fla. - Members of the Columbia Reconstruction Project Team check out a piece of Columbia debris newly arrived from Barksdale Air Force Base, Shreveport, La. Inside the RLV Hangar, the team is identifying pieces and placing them on a floor grid in a configuration of the orbiter. The team will attempt to reconstruct the bottom of the orbiter as part of the investigation into the accident that caused the destruction of Columbia and loss of its crew as it returned to Earth on mission STS-107. To date, 35,319 pieces have been shipped to KSC; 1,218 are identified and placed on the grid.

Secured on a flatbed transporter in its shipping container, the ground test motor for Orion's Launch Abort System (LAS) arrives at the Rotation, Processing and Surge Facility (RPSF) on July 20, 2018, at NASA's Kennedy Space Center in Florida. In the RPSF the motor will be inspected and prepared for transport to Space Launch Complex 46 (SLC-46) at Cape Canaveral Air Force Station for mechanical fit testing. This inert motor will not be used for flight, but will be used to certify flight hardware assembly in preparation for a full-stress test of the LAS, called Ascent Abort-2 (AA-2) flight test, scheduled for April 2019. During the test, the booster will launch from SLC 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. Orion is being prepared for its first integrated uncrewed flight atop the SLS on Exploration Mission-1. NASA's Orion and Exploration Ground Systems programs and their contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch SMC/LEXO, are performing the pathfinding exercises and flight operations for AA-2.

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a truck arrives at the Launch Abort System Facility with the jettison motor from Aerojet in Redmond, Wash. The motor is part of the Launch Abort System, or LAS, for Exploration Flight Test 1, or EFT-1, of the agency’s Orion Multi-Purpose Crew Vehicle. The motor will jettison the LAS away from the Orion crew capsule during the flight test’s early ascent phase. Orion’s Launch Abort System is designed to safely pull the Orion crew module away from the launch vehicle in the event of an emergency on the launch pad or during the initial ascent of NASA’s Space Launch System, or SLS, rocket. Orion is the exploration spacecraft designed to carry crews to space beyond low Earth orbit. It will provide emergency abort capability, sustain the crew during the space travel and provide safe re-entry from deep space return velocities. Orion’s first unpiloted test flight is scheduled to launch in 2014 atop a Delta IV rocket. A second uncrewed flight test is scheduled for 2017 on the SLS rocket. For more information, visit http:__www.nasa.gov_orion. Photo credit: NASA_Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a truck arrives at the Launch Abort System Facility with the jettison motor from Aerojet in Redmond, Wash. The motor is part of the Launch Abort System, or LAS, for Exploration Flight Test 1, or EFT-1, of the agency’s Orion Multi-Purpose Crew Vehicle. The motor will jettison the LAS away from the Orion crew capsule during the flight test’s early ascent phase. Orion’s Launch Abort System is designed to safely pull the Orion crew module away from the launch vehicle in the event of an emergency on the launch pad or during the initial ascent of NASA’s Space Launch System, or SLS, rocket. Orion is the exploration spacecraft designed to carry crews to space beyond low Earth orbit. It will provide emergency abort capability, sustain the crew during the space travel and provide safe re-entry from deep space return velocities. Orion’s first unpiloted test flight is scheduled to launch in 2014 atop a Delta IV rocket. A second uncrewed flight test is scheduled for 2017 on the SLS rocket. For more information, visit http:__www.nasa.gov_orion. Photo credit: NASA_Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a truck arrives at the Launch Abort System Facility with the jettison motor from Aerojet in Redmond, Wash. The motor is part of the Launch Abort System, or LAS, for Exploration Flight Test 1, or EFT-1, of the agency’s Orion Multi-Purpose Crew Vehicle. The motor will jettison the LAS away from the Orion crew capsule during the flight test’s early ascent phase. Orion’s Launch Abort System is designed to safely pull the Orion crew module away from the launch vehicle in the event of an emergency on the launch pad or during the initial ascent of NASA’s Space Launch System, or SLS, rocket. Orion is the exploration spacecraft designed to carry crews to space beyond low Earth orbit. It will provide emergency abort capability, sustain the crew during the space travel and provide safe re-entry from deep space return velocities. Orion’s first unpiloted test flight is scheduled to launch in 2014 atop a Delta IV rocket. A second uncrewed flight test is scheduled for 2017 on the SLS rocket. For more information, visit http:__www.nasa.gov_orion. Photo credit: NASA_Dimitri Gerondidakis

A heavy transport truck containing the Northrop Grumman-provided ascent test booster for the Orion Ascent Abort-2 (AA-2) Flight Test, arrives at the Rotation, Processing and Surge Facility (RPSF) at NASA’s Kennedy Space Center in Florida on Jan. 29, 2019. The booster will be unloaded and moved into the RPSF where it will be outfitted for flight. AA-2 is a full-stress test of the Launch Abort System, scheduled for April 2019. AA-2 will launch from Space Launch Complex 46, carrying a fully functional LAS and a 22,000-pound Orion test vehicle to an altitude of 31,000 feet and traveling at more than 1,000 miles an hour. The test will verify the LAS can steer the crew module and astronauts aboard to safety in the event of an issue with the Space Launch System (SLS) rocket when the spacecraft is under the highest aerodynamic loads it will experience during a rapid climb into space. NASA's Orion and Exploration Ground Systems programs and contractors from Jacob's and Northrup Grumman in conjunction with the Air Force Space and Missile Center's Launch Operations branch are performing flight operations for AA-2.

The last of three motors required to assemble the Launch Abort System for NASA’s Artemis II mission, the attitude control motor (ACM), arrives at Kennedy Space Center in Florida on August 28. The attitude control motor (ACM) was delivered by truck from Northrop Grumman’s manufacturing facility in Maryland, to the Launch Abort System Facility (LASF) at Kennedy. During launch of Orion atop the agency’s Space Launch System rocket, the LAS motors work together to separate the spacecraft from the rocket in the unlikely event of an emergency during launch. The LAS includes three motors – the launch abort motor, the jettison motor, and the attitude control motor—that once activated, will steer the spacecraft carrying the astronauts to safety. The ACM operates to keep Orion’s crew module on a controlled flight path in the event it needs to jettison and steer away from the rocket. Artemis II is the first crewed flight in a series of increasingly complex missions to the Moon that will lay the foundation for exploration of Mars and beyond. Artemis II will confirm all of the Orion spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard. As part of the Artemis program, NASA will send the first woman and next man to the Moon in 2024.

The last of three motors required to assemble the Launch Abort System for NASA’s Artemis II mission, the attitude control motor (ACM), arrives at Kennedy Space Center in Florida on August 28. The attitude control motor (ACM) was delivered by truck from Northrop Grumman’s manufacturing facility in Maryland, to the Launch Abort System Facility (LASF) at Kennedy. During launch of Orion atop the agency’s Space Launch System rocket, the LAS motors work together to separate the spacecraft from the rocket in the unlikely event of an emergency during launch. The LAS includes three motors – the launch abort motor, the jettison motor, and the attitude control motor—that once activated, will steer the spacecraft carrying the astronauts to safety. The ACM operates to keep Orion’s crew module on a controlled flight path in the event it needs to jettison and steer away from the rocket. Artemis II is the first crewed flight in a series of increasingly complex missions to the Moon that will lay the foundation for exploration of Mars and beyond. Artemis II will confirm all of the Orion spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard. As part of the Artemis program, NASA will send the first woman and next man to the Moon in 2024.

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a truck arrives at the Launch Abort System Facility with the jettison motor from Aerojet in Redmond, Wash. The motor is part of the Launch Abort System, or LAS, for Exploration Flight Test 1, or EFT-1, of the agency’s Orion Multi-Purpose Crew Vehicle. The motor will jettison the LAS away from the Orion crew capsule during the flight test’s early ascent phase. Orion’s Launch Abort System is designed to safely pull the Orion crew module away from the launch vehicle in the event of an emergency on the launch pad or during the initial ascent of NASA’s Space Launch System, or SLS, rocket. Orion is the exploration spacecraft designed to carry crews to space beyond low Earth orbit. It will provide emergency abort capability, sustain the crew during the space travel and provide safe re-entry from deep space return velocities. Orion’s first unpiloted test flight is scheduled to launch in 2014 atop a Delta IV rocket. A second uncrewed flight test is scheduled for 2017 on the SLS rocket. For more information, visit http:__www.nasa.gov_orion. Photo credit: NASA_Dimitri Gerondidakis

The last of three motors required to assemble the Launch Abort System for NASA’s Artemis II mission, the attitude control motor (ACM), arrives at Kennedy Space Center in Florida on August 28. The attitude control motor (ACM) was delivered by truck from Northrop Grumman’s manufacturing facility in Maryland, to the Launch Abort System Facility (LASF) at Kennedy. During launch of Orion atop the agency’s Space Launch System rocket, the LAS motors work together to separate the spacecraft from the rocket in the unlikely event of an emergency during launch. The LAS includes three motors – the launch abort motor, the jettison motor, and the attitude control motor—that once activated, will steer the spacecraft carrying the astronauts to safety. The ACM operates to keep Orion’s crew module on a controlled flight path in the event it needs to jettison and steer away from the rocket. Artemis II is the first crewed flight in a series of increasingly complex missions to the Moon that will lay the foundation for exploration of Mars and beyond. Artemis II will confirm all of the Orion spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard. As part of the Artemis program, NASA will send the first woman and next man to the Moon in 2024.

The last of three motors required to assemble the Launch Abort System for NASA’s Artemis II mission, the attitude control motor (ACM), arrives at Kennedy Space Center in Florida on August 28. The attitude control motor (ACM) was delivered by truck from Northrop Grumman’s manufacturing facility in Maryland, to the Launch Abort System Facility (LASF) at Kennedy. During launch of Orion atop the agency’s Space Launch System rocket, the LAS motors work together to separate the spacecraft from the rocket in the unlikely event of an emergency during launch. The LAS includes three motors – the launch abort motor, the jettison motor, and the attitude control motor—that once activated, will steer the spacecraft carrying the astronauts to safety. The ACM operates to keep Orion’s crew module on a controlled flight path in the event it needs to jettison and steer away from the rocket. Artemis II is the first crewed flight in a series of increasingly complex missions to the Moon that will lay the foundation for exploration of Mars and beyond. Artemis II will confirm all of the Orion spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard. As part of the Artemis program, NASA will send the first woman and next man to the Moon in 2024.

The test version of Orion attached to the Launch Abort System for the Ascent Abort-2 (AA-2) flight test arrives at Space Launch Complex 46 at Cape Canaveral Air Force Station in Florida on May 23, 2019. The flight test article will be hoisted up and moved inside the vertical integration facility for stacking atop the booster. The booster was procured by the U.S. Air Force and manufactured by Northrop Grumman. During AA-2, targeted for July 2, the LAS with Orion will launch on the booster more than six miles in altitude, where Orion’s launch abort system will pull the capsule and its crew away to safety if an emergency occurs during ascent on the Space Launch System rocket. AA-2 is a critical safety test that helps pave the way for Artemis missions near the Moon, and will enable astronauts to set foot on the lunar surface by 2024.

KENNEDY SPACE CENTER, FLA. - Space Shuttle Discovery, atop a modified Boeing 747 Shuttle Carrier Aircraft (SCA), has arrived at the Mate_Demate Device (MDD) at NASA Kennedy Space Center's Shuttle Landing Facility (SLF) following touchdown on runway 15 at about 10:00 a.m. EDT. The cross-country ferry flight became necessary when two days of unfavorable weather conditions at KSC forced Discovery to land on runway 22 at Edwards Air Force Base, Calif., on Aug. 9 following mission STS-114. On the return trip, stops were made at Altus Air Force Base, Okla., and Barksdale Air Force Base, La., where Discovery stayed for two nights. A crane on the MDD will lift Discovery from the SCA and place it on solid ground. Discovery will then be towed to the Orbiter Processing Facility where preparations will begin for its next flight, STS-121.

The test version of Orion attached to the Launch Abort System for the Ascent Abort-2 (AA-2) flight test arrives at Space Launch Complex 46 at Cape Canaveral Air Force Station in Florida on May 23, 2019. The flight test article will be hoisted up and moved inside the vertical integration facility for stacking atop the booster. The booster was procured by the U.S. Air Force and manufactured by Northrop Grumman. During AA-2, targeted for July 2, the LAS with Orion will launch on the booster more than six miles in altitude, where Orion’s launch abort system will pull the capsule and its crew away to safety if an emergency occurs during ascent on the Space Launch System rocket. AA-2 is a critical safety test that helps pave the way for Artemis missions near the Moon, and will enable astronauts to set foot on the lunar surface by 2024.

The test version of Orion attached to the Launch Abort System for the Ascent Abort-2 (AA-2) flight test arrives at Space Launch Complex 46 at Cape Canaveral Air Force Station in Florida on May 23, 2019. The flight test article will be hoisted up and moved inside the vertical integration facility for stacking atop the booster. The booster was procured by the U.S. Air Force and manufactured by Northrop Grumman. During AA-2, targeted for July 2, the LAS with Orion will launch on the booster more than six miles in altitude, where Orion’s launch abort system will pull the capsule and its crew away to safety if an emergency occurs during ascent on the Space Launch System rocket. AA-2 is a critical safety test that helps pave the way for Artemis missions near the Moon, and will enable astronauts to set foot on the lunar surface by 2024.

The Launch Abort System and the Orion Crew Module, also known as the Orion Environmental Test Article (ETA), returned to NASA’s Neil Armstrong Test Facility in Sandusky, Ohio, in October 2023 through January 2024 and completed an 11-month test campaign necessary for the safety and success of Artemis II. Photo Credit: (NASA/Jordan Salkin)

The Launch Abort System and the Orion Crew Module, also known as the Orion Environmental Test Article (ETA), returned to NASA’s Neil Armstrong Test Facility in Sandusky, Ohio, in October 2023 through January 2024 and completed an 11-month test campaign necessary for the safety and success of Artemis II. Photo Credit: (NASA/Jordan Salkin)

The Launch Abort System and the Orion Crew Module, also known as the Orion Environmental Test Article (ETA), returned to NASA’s Neil Armstrong Test Facility in Sandusky, Ohio, in October 2023 through January 2024 and completed an 11-month test campaign necessary for the safety and success of Artemis II. Photo Credit: (NASA/Quentin Schwinn)