The X-57 fuselage is positioned under the Mod II wing section so that it can be reattached. The components were separated for transport to NASA's Armstrong Flight Research Center in California. Reintegration began shortly after the aircraft arrived. The X-57 is intended to help develop certification standards for emerging electric aircraft markets.

NASA's all-electric X-57 Maxwell aircraft undergoes high voltage ground testing at NASA's Armstrong Flight Research Center in California. A goal of the X-57 project is to help the Federal Aviation Administration set certification standards for emerging electric aircraft markets.

NASA's all-electric X-57 Maxwell aircraft tests the motors with the battery packs installed on the aircraft at NASA's Armstrong Flight Research Center in California. A goal of the X-57 project is to help the Federal Aviation Administration set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA’s first all-electric X-plane, through its initial telemetry tests at NASA’s Armstrong Flight Research Center in California, testing the aircraft’s ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it’s decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA’s first all-electric X-plane, through its initial telemetry tests at NASA’s Armstrong Flight Research Center in California, testing the aircraft’s ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it’s decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA's first all-electric X-plane, through its initial telemetry tests at NASA's Armstrong Flight Research Center in California, testing the aircraft's ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it's decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57's goal is to help set certification standards for emerging electric aircraft markets.

NASA’s all-electric X-57 Maxwell prepares for ground vibration testing, or GVT, at NASA’s Armstrong Flight Research Center in California. Done in parallel with cruise motor controller testing, the GVT tested the vehicle at various vibration levels, helping engineers to examine and validate the integrity of the vehicle for flight conditions. A goal of X-57 is to help the Federal Aviation Administration set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA's first all-electric X-plane, through its initial telemetry tests at NASA's Armstrong Flight Research Center in California, testing the aircraft's ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it's decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57's goal is to help set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA’s first all-electric X-plane, through its initial telemetry tests at NASA’s Armstrong Flight Research Center in California, testing the aircraft’s ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it’s decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA's first all-electric X-plane, through its initial telemetry tests at NASA's Armstrong Flight Research Center in California, testing the aircraft's ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it's decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57's goal is to help set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA’s first all-electric X-plane, through its initial telemetry tests at NASA’s Armstrong Flight Research Center in California, testing the aircraft’s ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it’s decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

NASA engineers put the X-57 Maxwell, NASA's first all-electric X-plane, through its initial telemetry tests at NASA's Armstrong Flight Research Center in California, testing the aircraft's ability to transmit data to teams on the ground. The data is packaged and transmitted down to ground assets, where it's decoded into a format that can be presented to a flight control team to look at screens in real time for flight operations. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA's first all-electric X-plane, as the operations crew at NASA's Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57's functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA's first all-electric X-plane, as the operations crew at NASA's Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57's functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA's first all-electric X-plane, as the operations crew at NASA's Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57's functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA's first all-electric X-plane, as the operations crew at NASA's Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57's functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA's first all-electric X-plane, as the operations crew at NASAâ' Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57's functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

The X-57 operations crew at NASA's Armstrong Flight Research Center prepare for telemetry testing on NASA's first all-electric X-plane, the X-57 Maxwell. Shown here in its first all-electric configuration, known as Mod II, X-57's series of functional tests helps engineers confirm that the vehicle will be ready for taxi and flight tests, and the telemetry testing confirms the ability of the aircraft to transmit location and test data to the ground. X-57 will help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA's first all-electric X-plane, as the operations crew at NASA's Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57's functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57's goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

The X-57 operations crew at NASA's Armstrong Flight Research Center prepare for telemetry testing on NASA's first all-electric X-plane, the X-57 Maxwell. Shown here in its first all-electric configuration, known as Mod II, X-57's series of functional tests helps engineers confirm that the vehicle will be ready for taxi and flight tests, and the telemetry testing confirms the ability of the aircraft to transmit location and test data to the ground. X-57 will help set certification standards for emerging electric aircraft markets.

Telemetry testing begins on the X-57 Maxwell, NASA’s first all-electric X-plane, as the operations crew at NASA’s Armstrong Flight Research Center records the results. Telemetry testing is a critical phase in X-57’s functional test series. In addition to confirming the ability of the X-57 aircraft to transmit speed, altitude, direction, and location to teams on the ground, telemetry testing also confirms the ability to transmit mission-critical-data, such as voltage, power consumption, and structural integrity. X-57’s goal is to help set certification standards for emerging electric aircraft markets.

Advanced Air Mobility, with its many vehicle concepts and potential uses in both local and intraregional applications, is shown in this illustration.