Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

Rocket Lab’s Electron rocket called “PREFIRE and Ice,” is vertical on the pad awaiting liftoff at Launch Complex 1 in Mahia, New Zealand, ahead of NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission Wednesday, June 5, 2024. The mission, the second of two launches for NASA’S PREFIRE, features two identical 6U CubeSats in asynchronous, near-polar orbits, will study how much of Earth’s heat is lost to space from the Arctic and Antarctica.

Rocket Lab’s Electron payload fairing is in view inside a processing facility near Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats have been encapsulated inside the payload fairing. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Rocket Lab’s Electron rocket called “PREFIRE and Ice,” lifts off from Launch Complex 1 in Māhia, New Zealand at 3:15 p.m. NZST Wednesday, June 5, 2024 (11:15 p.m. EDT, Tuesday, June 4), on the second of two launches for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment). The PREFIRE mission, expected to last at least 10 months, consists of sending two CubeSats to asynchronous, near-polar orbits, to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica.

Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload has been encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

A Rocket Lab Electron rocket soars upward after liftoff from Pad B, Launch Complex 1, in Māhia, New Zealand, at 11:46 p.m. EDT on Thursday, May 25 (3:46 p.m. NZST Friday, May 26) carrying the final pair of NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload has been encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

A Rocket Lab Electron rocket lifts off Launch Complex 1, Pad B, in Māhia, New Zealand on May 8 at 1 p.m. New Zealand time (May 7 at 9 p.m. EDT), carrying two NASA CubeSats designed to study tropical cyclones, including hurricanes and typhoons. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is prepared to be encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

NMTSat is a student-built satellite built by undergraduate and graduates students primarily from New Mexico Tech. NMTSat is designed to operate five sensors in four experiments in space for 3 months of data collection. The experiments will provide data on earth’s magnetic field, high altitude plasma density, atmospheric weather measurements, and an optical beacon experiment. Approximately 50 students have contributed to NMTSat and its design not including the students and groups who have developed the science instruments. NMTSat CubeSat is providing the opportunity for these science experiments to be conducted on orbit and demonstrates the collaborative nature of the Educational Launch of Nano Satellite (ELaNa) Program at NASA. The instruments have been contributed by New Mexico Tech, Turabo University in Puerto Rico, Los Alamos National Laboratory, and Atmospheric and Space Technology Research Associates (ASTRA) in Boulder, CO. Dr. Anders M. Jorgensen, Associate Professor at New Mexico Tech is the PI and Dr. Hien Vo from Vietnamese-German University in Ho Chi Minh University in Vietnam is a Co-Investigator. NMTSat is funded by the New Mexico NASA EPSCoR program as well as New Mexico Tech.

A wet dress rehearsal is underway for Rocket Lab’s Electron rocket at Launch Complex 1 in Mahia, New Zealand on April 28, 2023. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Plasma fluctuations in the upper atmosphere can distort radio signals as they pass into space, damaging radio communication with satellites. The ISX (Ionospheric Scintillation Explorer) mission will study these effects by measuring and comparing digital TV signals produced on the ground. Developed as a collaboration between SRI International and PolySat at Cal Poly, San Luis Obispo, the ISX mission will attempt to improve our understanding of these plasma irregularities and help model space weather predictions in the future.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is prepared to be encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

NMTSat is a student-built satellite built by undergraduate and graduates students primarily from New Mexico Tech. NMTSat is designed to operate five sensors in four experiments in space for 3 months of data collection. The experiments will provide data on earth’s magnetic field, high altitude plasma density, atmospheric weather measurements, and an optical beacon experiment. Approximately 50 students have contributed to NMTSat and its design not including the students and groups who have developed the science instruments. NMTSat CubeSat is providing the opportunity for these science experiments to be conducted on orbit and demonstrates the collaborative nature of the Educational Launch of Nano Satellite (ELaNa) Program at NASA. The instruments have been contributed by New Mexico Tech, Turabo University in Puerto Rico, Los Alamos National Laboratory, and Atmospheric and Space Technology Research Associates (ASTRA) in Boulder, CO. Dr. Anders M. Jorgensen, Associate Professor at New Mexico Tech is the PI and Dr. Hien Vo from Vietnamese-German University in Ho Chi Minh University in Vietnam is a Co-Investigator. NMTSat is funded by the New Mexico NASA EPSCoR program as well as New Mexico Tech.

NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are encapsulated inside Rocket Lab’s Electron payload fairing in a processing facility near Launch Complex 1 in Mahia, New Zealand. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

Technicians check Rocket Lab’s Electron payload fairing inside a processing facility near Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats have been encapsulated inside the payload fairing. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

A Rocket Lab Electron rocket lifts off Launch Complex 1, Pad B, in Māhia, New Zealand on May 8 at 1 p.m. New Zealand time (May 7 at 9 p.m. EDT), carrying two NASA CubeSats designed to study tropical cyclones, including hurricanes and typhoons. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Plasma fluctuations in the upper atmosphere can distort radio signals as they pass into space, damaging radio communication with satellites. The ISX (Ionospheric Scintillation Explorer) mission will study these effects by measuring and comparing digital TV signals produced on the ground. Developed as a collaboration between SRI International and PolySat at Cal Poly, San Luis Obispo, the ISX mission will attempt to improve our understanding of these plasma irregularities and help model space weather predictions in the future.

A Rocket Lab Electron rocket is poised for launch atop Pad B, Launch Complex 1, in Māhia, New Zealand. Launch time is May 8 at 1 p.m. New Zealand time (May 7 at 9 p.m. EDT). The Electron rocket is carrying two NASA CubeSats designed to study tropical cyclones, including hurricanes and typhoons. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

With the umbilical tower in view, Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) CubeSats are encapsulated inside Rocket Lab Electron rocket payload fairings on Tuesday, May 21, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

Rocket Lab’s Electron rocket called “PREFIRE and Ice,” lifts off from Launch Complex 1 in Māhia, New Zealand at 3:15 p.m. NZST Wednesday, June 5, 2024 (11:15 p.m. EDT, Tuesday, June 4), on the second of two launches for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment). The PREFIRE mission, expected to last at least 10 months, consists of sending two CubeSats to asynchronous, near-polar orbits, to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica.

Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

NMTSat is a student-built satellite built by undergraduate and graduates students primarily from New Mexico Tech. NMTSat is designed to operate five sensors in four experiments in space for 3 months of data collection. The experiments will provide data on earth’s magnetic field, high altitude plasma density, atmospheric weather measurements, and an optical beacon experiment. Approximately 50 students have contributed to NMTSat and its design not including the students and groups who have developed the science instruments. NMTSat CubeSat is providing the opportunity for these science experiments to be conducted on orbit and demonstrates the collaborative nature of the Educational Launch of Nano Satellite (ELaNa) Program at NASA. The instruments have been contributed by New Mexico Tech, Turabo University in Puerto Rico, Los Alamos National Laboratory, and Atmospheric and Space Technology Research Associates (ASTRA) in Boulder, CO. Dr. Anders M. Jorgensen, Associate Professor at New Mexico Tech is the PI and Dr. Hien Vo from Vietnamese-German University in Ho Chi Minh University in Vietnam is a Co-Investigator. NMTSat is funded by the New Mexico NASA EPSCoR program as well as New Mexico Tech.

A Rocket Lab Electron rocket stands on Pad B, Launch Complex 1, in Māhia, New Zealand, just ahead of liftoff at 3:46 p.m. NZST Friday, May 26, with NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Rocket Lab’s Electron rocket is vertical on the pad Saturday, May 25, 2024, at Launch Complex 1 in Mahia, New Zealand, loaded with the first of two identical 6U CubeSats for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica. Liftoff of the first CubeSat launch, which Rocket Lab named “Ready, Aim, PREFIRE,” occurred at 7:41 p.m. NZST (3:41 a.m. EDT).

The engines of the first stage of a Rocket Lab Electron rocket ignite as the rocket lifts off Launch Complex 1, Pad B, in Māhia, New Zealand on May 8 at 1 p.m. New Zealand time (May 7 at 9 p.m. EDT), carrying two NASA CubeSats designed to study tropical cyclones, including hurricanes and typhoons. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

The engines of the first stage of a Rocket Lab Electron rocket ignite as the rocket lifts off Launch Complex 1, Pad B, in Māhia, New Zealand on May 8 at 1 p.m. New Zealand time (May 7 at 9 p.m. EDT), carrying two NASA CubeSats designed to study tropical cyclones, including hurricanes and typhoons. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Two CubeSats are encapsulated at the Rocket Lab facility in Mahia, New Zealand, on April 24, 2023, in preparation for NASA’s second TROPICS (Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats) launch. After successfully launching the first pair of small satellites earlier this month from Launch Complex 1 in Mahia, New Zealand, NASA and Rocket Lab are targeting no earlier than 12 a.m. EDT Thursday, May 25 (4 p.m. NZST), for liftoff of the second pair of storm tracking CubeSats into orbit. NASA will use TROPICS to study tropical cyclones as part of the agency’s Earth Venture Class missions.

The Rocket Lab Electron rocket payload fairing is prepared for the encapsulation of the Educational Launch of Nanosatellites 19 (ELaNa 19) payload on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

A Rocket Lab Electron rocket soars upward after liftoff from Launch Complex 1, Pad B, in Māhia, New Zealand on May 8 at 1 p.m. New Zealand time (May 7 at 9 p.m. EDT), carrying two NASA CubeSats designed to study tropical cyclones, including hurricanes and typhoons. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

RSat is a 3U CubeSat with two seven degree of freedom robotic arms designed to latch onto a host satellite and maneuver around to image and potentially repair malfunctioning components. RSat is part of the AMODS research project developed by a team of Midshipmen from the United States Naval Academy. The three-year-old program aims to employ a small satellite platform to provide both new and legacy spacecraft with cost-effective on-orbit assessments and repair services. Currently, if a satellite makes it to orbit, there is no guarantee it will work as intended. In these cases, not only is the spacecraft lost, but invaluable experience vanishes with it. RSat takes advantage of cost and profile efficiencies of the small satellite platform to offer satellite developers and operators a fundamentally new way to reduce risk, protect investment and effect design improvements correlated against observed space environment experience. RSat-P is launching as part of ELaNa XIX as a free-flying unit intended to validate the on-orbit effectiveness of compact robotic manipulators.

RSat is a 3U CubeSat with two seven degree of freedom robotic arms designed to latch onto a host satellite and maneuver around to image and potentially repair malfunctioning components. RSat is part of the AMODS research project developed by a team of Midshipmen from the United States Naval Academy. The three-year-old program aims to employ a small satellite platform to provide both new and legacy spacecraft with cost-effective on-orbit assessments and repair services. Currently, if a satellite makes it to orbit, there is no guarantee it will work as intended. In these cases, not only is the spacecraft lost, but invaluable experience vanishes with it. RSat takes advantage of cost and profile efficiencies of the small satellite platform to offer satellite developers and operators a fundamentally new way to reduce risk, protect investment and effect design improvements correlated against observed space environment experience. RSat-P is launching as part of ELaNa XIX as a free-flying unit intended to validate the on-orbit effectiveness of compact robotic manipulators.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload has been encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

Rocket Lab’s Electron rocket called “PREFIRE and Ice,” lifts off from Launch Complex 1 in Māhia, New Zealand at 3:15 p.m. NZST Wednesday, June 5, 2024 (11:15 p.m. EDT, Tuesday, June 4), on the second of two launches for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment). The PREFIRE mission, expected to last at least 10 months, consists of sending two CubeSats to asynchronous, near-polar orbits, to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload has been encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

Two CubeSats are encapsulated at the Rocket Lab facility in Mahia, New Zealand, on April 24, 2023, in preparation for NASA’s second TROPICS (Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats) launch. After successfully launching the first pair of small satellites earlier this month from Launch Complex 1 in Mahia, New Zealand, NASA and Rocket Lab are targeting no earlier than 12 a.m. EDT Thursday, May 25 (4 p.m. NZST), for liftoff of the second pair of storm tracking CubeSats into orbit. NASA will use TROPICS to study tropical cyclones as part of the agency’s Earth Venture Class missions.

Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand, during a May 18, 2023, wet dress rehearsal for NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) launch. After successfully launching the first pair of small satellites earlier this month from New Zealand, NASA and Rocket Lab are targeting no earlier than 12 a.m. EDT Thursday, May 25 (4 p.m. NZST), to launch the second pair of storm tracking CubeSats into orbit. NASA will use TROPICS to study tropical cyclones as part of the agency’s Earth Venture Class missions.

Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand, loaded with the second of two identical 6U CubeSats for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica. Liftoff of the second CubeSat launch, which Rocket Lab named “PREFIRE and Ice” was targeted for Saturday, June 1, 2024, but was scrubbed for the day.

NASA’s Educational Launch of Nanosatellites-19 (ELaNa-19) payload after separation from a Rocket Lab Electron rocket after successful liftoff from Launch Complex-1 at Māhia Peninsula in New Zealand. Launched at 6:33 a.m. UTC on Dec. 17 (1:33 p.m. EST on Dec 16), this marks the first flight of a payload under NASA’s Venture Class Launch Services (VCLS). Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to provide increased access to space specifically for payloads like this, carrying small spacecraft called CubeSats. The successful launch and deployment officially begins the venture-class era.

Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand, loaded with the second of two identical 6U CubeSats for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica. Liftoff of the second CubeSat launch, which Rocket Lab named “PREFIRE and Ice” was targeted for Saturday, June 1, 2024, but was scrubbed for the day.

CubeSail is a nano-scale flight experiment to demonstrate deployment and control of a single 250-meter (20 m2) solar sail blade as a low-cost risk reduction precursor of the exciting advanced interplanetary UltraSail concept having four 5-kilometer blades (with approximately 100,000 m2 of sail area). CubeSail was built by the University of Illinois at Urbana-Champaign and CU Aerospace, the same team that designed the I-Sail and UltraSail concepts funded by NASA’s SBIR program. CubeSail represents an affordable stepping-stone towards the future development of the UltraSail solar sail concept that would enable very high-energy inner heliosphere and interstellar scientific missions. In addition, near-earth missions such as Heliostorm for early warning of solar storms will provide more warning margin as the solar sail performance is increased with UltraSail technology. Spacecraft design studies show that for sail areal densities below 5 gm/m2, as proposed with UltraSail, that spacecraft payloads can be significantly increased to 50-60% because of the elimination of the propellant, without sacrificing flight time. Furthermore, higher payload fractions will result in dramatically lower total spacecraft mass and consequently much lower launch cost, enabling more missions for the research dollar.

Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

CubeSail is a nano-scale flight experiment to demonstrate deployment and control of a single 250-meter (20 m2) solar sail blade as a low-cost risk reduction precursor of the exciting advanced interplanetary UltraSail concept having four 5-kilometer blades (with approximately 100,000 m2 of sail area). CubeSail was built by the University of Illinois at Urbana-Champaign and CU Aerospace, the same team that designed the I-Sail and UltraSail concepts funded by NASA’s SBIR program. CubeSail represents an affordable stepping-stone towards the future development of the UltraSail solar sail concept that would enable very high-energy inner heliosphere and interstellar scientific missions. In addition, near-earth missions such as Heliostorm for early warning of solar storms will provide more warning margin as the solar sail performance is increased with UltraSail technology. Spacecraft design studies show that for sail areal densities below 5 gm/m2, as proposed with UltraSail, that spacecraft payloads can be significantly increased to 50-60% because of the elimination of the propellant, without sacrificing flight time. Furthermore, higher payload fractions will result in dramatically lower total spacecraft mass and consequently much lower launch cost, enabling more missions for the research dollar.

Technicians prepare NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats for encapsulation in Rocket Lab’s Electron payload fairing in a processing facility near Launch Complex 1 in Mahia, New Zealand. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

RSat is a 3U CubeSat with two seven degree of freedom robotic arms designed to latch onto a host satellite and maneuver around to image and potentially repair malfunctioning components. RSat is part of the AMODS research project developed by a team of Midshipmen from the United States Naval Academy. The three-year-old program aims to employ a small satellite platform to provide both new and legacy spacecraft with cost-effective on-orbit assessments and repair services. Currently, if a satellite makes it to orbit, there is no guarantee it will work as intended. In these cases, not only is the spacecraft lost, but invaluable experience vanishes with it. RSat takes advantage of cost and profile efficiencies of the small satellite platform to offer satellite developers and operators a fundamentally new way to reduce risk, protect investment and effect design improvements correlated against observed space environment experience. RSat-P is launching as part of ELaNa XIX as a free-flying unit intended to validate the on-orbit effectiveness of compact robotic manipulators.

Plasma fluctuations in the upper atmosphere can distort radio signals as they pass into space, damaging radio communication with satellites. The ISX (Ionospheric Scintillation Explorer) mission will study these effects by measuring and comparing digital TV signals produced on the ground. Developed as a collaboration between SRI International and PolySat at Cal Poly, San Luis Obispo, the ISX mission will attempt to improve our understanding of these plasma irregularities and help model space weather predictions in the future.

With the umbilical tower in view, Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Technicians process NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) ahead of integration with a Rocket Lab Electron rocket on Thursday, May 2, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

A wet dress rehearsal is underway for Rocket Lab’s Electron rocket at Launch Complex 1 in Mahia, New Zealand on April 28, 2023. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is prepared to be encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

A Rocket Lab Electron rocket lifts off from Launch Complex 1 in Māhia, New Zealand at 7:41 p.m. NZST (3:41 a.m. EDT) Saturday, May 25, 2024, on the first of two launches which Rocket Lab named “Ready, Aim, PREFIRE,” for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission. The PREFIRE mission, expected to last at least 10 months, consists of sending two CubeSats to asynchronous, near-polar orbits, to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica.

Technicians place NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats in Rocket Lab’s Electron payload fairing in a processing facility near Launch Complex 1 in Mahia, New Zealand. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Two CubeSats are encapsulated at the Rocket Lab facility in Mahia, New Zealand, on April 24, 2023, in preparation for NASA’s second TROPICS (Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats) launch. After successfully launching the first pair of small satellites earlier this month from Launch Complex 1 in Mahia, New Zealand, NASA and Rocket Lab are targeting no earlier than 12 a.m. EDT Thursday, May 25 (4 p.m. NZST), for liftoff of the second pair of storm tracking CubeSats into orbit. NASA will use TROPICS to study tropical cyclones as part of the agency’s Earth Venture Class missions.

The first stage of a Rocket Lab Electron rocket ignites at liftoff from Pad B, Launch Complex 1, in Māhia, New Zealand, at 11:46 p.m. EDT on Thursday, May 25 (3:46 p.m. NZST Friday, May 26) carrying the final pair of NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is prepared to be encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

Rocket Lab’s Electron rocket is vertical on the pad Saturday, May 25, 2024, at Launch Complex 1 in Mahia, New Zealand, loaded with the first of two identical 6U CubeSats for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica. Liftoff of the first CubeSat launch, which Rocket Lab named “Ready, Aim, PREFIRE,” occurred at 7:41 p.m. NZST (3:41 a.m. EDT).

Technicians integrate NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) payload inside the Rocket Lab Electron rocket payload fairing on Wednesday, May 15, 2024, at the company’s facility in New Zealand. The agency’s PREFIRE mission to study heat loss to space in Earth’s polar regions will launch two CubeSats on two different flights aboard Rocket Lab's Electron rockets from the company’s Launch Complex 1 in Māhia, New Zealand.

A Rocket Lab Electron rocket lifts off from Pad B, Launch Complex 1, in Māhia, New Zealand, at 11:46 p.m. EDT on Thursday, May 25 (3:46 p.m. NZST Friday, May 26) carrying the final pair of NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

A wet dress rehearsal is underway for Rocket Lab’s Electron rocket at Launch Complex 1 in Mahia, New Zealand on April 28, 2023. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats are secured in the payload fairing atop the rocket. TROPICS is scheduled to launch from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

CubeSail is a nano-scale flight experiment to demonstrate deployment and control of a single 250-meter (20 m2) solar sail blade as a low-cost risk reduction precursor of the exciting advanced interplanetary UltraSail concept having four 5-kilometer blades (with approximately 100,000 m2 of sail area). CubeSail was built by the University of Illinois at Urbana-Champaign and CU Aerospace, the same team that designed the I-Sail and UltraSail concepts funded by NASA’s SBIR program. CubeSail represents an affordable stepping-stone towards the future development of the UltraSail solar sail concept that would enable very high-energy inner heliosphere and interstellar scientific missions. In addition, near-earth missions such as Heliostorm for early warning of solar storms will provide more warning margin as the solar sail performance is increased with UltraSail technology. Spacecraft design studies show that for sail areal densities below 5 gm/m2, as proposed with UltraSail, that spacecraft payloads can be significantly increased to 50-60% because of the elimination of the propellant, without sacrificing flight time. Furthermore, higher payload fractions will result in dramatically lower total spacecraft mass and consequently much lower launch cost, enabling more missions for the research dollar.

A Rocket Lab Electron rocket lifts off from Launch Complex 1 in Māhia, New Zealand at 7:41 p.m. NZST (3:41 a.m. EDT) Saturday, May 25, 2024, on the first of two launches which Rocket Lab named “Ready, Aim, PREFIRE,” for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission. The PREFIRE mission, expected to last at least 10 months, consists of sending two CubeSats to asynchronous, near-polar orbits, to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica.

A Rocket Lab Electron rocket lifts off from Pad B, Launch Complex 1, in Māhia, New Zealand, at 11:46 p.m. EDT on Thursday, May 25 (3:46 p.m. NZST Friday, May 26) carrying the final pair of NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

A Rocket Lab Electron rocket stands on Pad B, Launch Complex 1, in Māhia, New Zealand, just ahead of liftoff at 3:46 p.m. NZST Friday, May 26, with NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

A Rocket Lab Electron rocket stands on Pad B, Launch Complex 1, in Māhia, New Zealand, just ahead of liftoff at 3:46 p.m. NZST Friday, May 26, with NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Rocket Lab’s Electron payload fairing is in view inside a processing facility near Launch Complex 1 in Mahia, New Zealand. NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats have been encapsulated inside the payload fairing. TROPICS is scheduled to launch on Monday, May 1, at 1 a.m. New Zealand time from Launch Complex 1, Pad B. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

NASA’s Educational Launch of Nanosatellites-19 (ELaNa-19) payload separates from the upper stage of a Rocket Lab Electron rocket after successful liftoff from Launch Complex-1 at Māhia Peninsula in New Zealand. Launched at 6:33 a.m. UTC on Dec. 17 (1:33 p.m. EST on Dec. 16), this marks the first flight of a payload under NASA’s Venture Class Launch Services (VCLS). Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to provide increased access to space specifically for these small spacecraft, called CubeSats.

Rocket Lab’s Electron rocket is vertical on the pad at Launch Complex 1 in Mahia, New Zealand, during a May 18, 2023, wet dress rehearsal for NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) launch. After successfully launching the first pair of small satellites earlier this month from New Zealand, NASA and Rocket Lab are targeting no earlier than 12 a.m. EDT Thursday, May 25 (4 p.m. NZST), to launch the second pair of storm tracking CubeSats into orbit. NASA will use TROPICS to study tropical cyclones as part of the agency’s Earth Venture Class missions.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

Rocket Lab’s Electron rocket is vertical on the pad Saturday, May 25, 2024, at Launch Complex 1 in Mahia, New Zealand, loaded with the first of two identical 6U CubeSats for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica. Liftoff of the first CubeSat launch, which Rocket Lab named “Ready, Aim, PREFIRE,” occurred at 7:41 p.m. NZST (3:41 a.m. EDT).

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is prepared to be encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

The Educational Launch of Nanosatellites 19 (ELaNa 19) payload is encapsulated inside the Rocket Lab Electron rocket payload fairing on Dec. 1, 2018, at the company’s facility in New Zealand. The ELaNa 19 payload comprises 10 CubeSats selected through NASA’s CubeSat Launch Initiative. The liftoff marks the debut of the agency’s innovative Venture Class Launch Services (VCLS) effort. Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to offer small payloads dedicated rides to space.

Rocket Lab’s Electron rocket is vertical on the pad Saturday, May 25, 2024, at Launch Complex 1 in Mahia, New Zealand, loaded with the first of two identical 6U CubeSats for NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission to help close a gap in our understanding of how much of Earth’s heat is lost to space from the Arctic and Antarctica. Liftoff of the first CubeSat launch, which Rocket Lab named “Ready, Aim, PREFIRE,” occurred at 7:41 p.m. NZST (3:41 a.m. EDT).

A Rocket Lab Electron rocket stands on Pad B, Launch Complex 1, in Māhia, New Zealand, just ahead of liftoff at 3:46 p.m. NZST Friday, May 26, with NASA’s Time-Resolved Observations of Precipitation structure and storm Intensity with a Constellation of Smallsats (TROPICS) CubeSats secured in the payload fairing atop the rocket. The successful launch placed the final pair of TROPICS CubeSats into orbit, completing the constellation. TROPICS will provide data on temperature, precipitation, water vapor, and clouds by measuring microwave frequencies, providing insight into storm formation and intensification.

Rocket Lab’s Electron rocket called “PREFIRE and Ice,” is vertical on the pad awaiting liftoff at Launch Complex 1 in Mahia, New Zealand, ahead of NASA’s PREFIRE (Polar Radiant Energy in the Far-InfraRed Experiment) mission Wednesday, June 5, 2024. The mission, the second of two launches for NASA’S PREFIRE, features two identical 6U CubeSats in asynchronous, near-polar orbits, will study how much of Earth’s heat is lost to space from the Arctic and Antarctica.

A Rocket Lab Electron rocket lifts off Launch Complex-1 at Māhia Peninsula in New Zealand carrying NASA’s Educational Launch of Nanosatellites-19 (ELaNa-19) payload. Liftoff occurred at 6:33 a.m. UTC on Dec. 17 (1:33 p.m. EST on Dec. 16). The liftoff marks the first flight of a payload under NASA’s Venture Class Launch Services (VCLS). Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to provide increased access to space specifically for these small spacecraft, called CubeSats.

A Rocket Lab Electron rocket’s nine first-stage Rutherford engines ignite as NASA’s Educational Launch of Nanosatellites-19 (ELaNa-19) payload lifts off at 6:33 a.m. UTC on Dec. 17 (1:33 p.m. EST on Dec. 16) from Launch Complex-1, located at Māhia Peninsula in New Zealand. The liftoff marks the first flight of a payload under NASA’s Venture Class Launch Services (VCLS). Managed by NASA’s Launch Services Program at Kennedy Space Center in Florida, VCLS was developed to provide increased access to space specifically for these small spacecraft, called CubeSats.