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By NASA
3 Min Read NASA, Partners to Conduct Space Station Research During Expedition 73
NASA NASA astronauts are gearing up for a scientific mission aboard the International Space Station. Expedition 73 NASA astronauts Nichole Ayers and Anne McClain, JAXA (Japan Aerospace Exploration Agency) astronaut Takuya Onishi, and Roscosmos cosmonaut Kirill Peskov will launch in March as part of the agency’s SpaceX Crew-10 mission. NASA astronaut Jonny Kim will join the crew when he launches aboard the Roscosmos Soyuz MS-27 spacecraft in April alongside Roscosmos cosmonauts Sergey Ryzhikov and Alexey Zubritsky.
Read more about some of the microgravity research planned by NASA and its partners:
Subjects for human research
NASA Astronauts often serve as test subjects, submitting blood and other samples for research. NASA astronaut Anne McClain is pictured submitting a sample on a previous mission with assistance from CSA (Canadian Space Agency) astronaut David Saint-Jacques. McClain will participate in NASA’s Complement of Integrated Protocols for Human Exploration Research investigation, or CIPHER, a suite of integrated studies on physiological and psychological changes seen in space. Results could provide valuable insights for future deep space missions.
Testing lunar navigation
NASA When Expedition 73 astronauts engage with students worldwide via the ISS Ham Radio program, researchers will use the ham radio hardware to test software for the Navigation and Communication Testbed (NAVCOM) that could help shape future lunar navigation. Researchers from the investigation recently launched a related study to the Moon aboard Firefly’s Blue Ghost to help bridge existing Earth navigation with emerging lunar-specific solutions.
Advancing fire safety
NASA Expedition 73 is scheduled to conduct a Material Ignition and Suppression Test (SoFIE-MIST), testing material flammability in microgravity. This research could improve fire safety on future missions, contributing to models used to select materials for space facilities and helping to determine the best ways to extinguish fires in space.
Keeping blood flowing
Angelo Taibi/ASI Expedition 73 crew members will participate in Drain Brain 2.0, which examines how blood flows from the brain to the heart in microgravity using this plethysmograph, a device that can record the volume of blood drainage from the skull. Results could identify which processes in the body compensate for the lack of gravity, helping to ensure proper blood flow for astronauts on future missions and people with cardiovascular issues on Earth.
The International Space Station is a convergence of science, technology, and human innovation that enables research not possible on Earth. For more than 24 years, NASA has supported a continuous U.S. human presence aboard the orbiting laboratory, through which astronauts have learned to live and work in space for extended periods of time. The space station is a springboard for developing a low Earth economy and NASA’s next great leaps in exploration, including missions to the Moon under Artemis and, ultimately, human exploration of Mars.
Learn more about the International Space Station, its research, and its crew, at:
https://www.nasa.gov/station
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ISS Research International Space Station (ISS) View the full article
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By Space Force
Air Force and Space Force senior leaders took to the stage at the recent Air and Space Forces Association Warfare Symposium March 3-5, outlining their vision for the future of warfare.
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By European Space Agency
Image: A solar array of the Orion spacecraft for Artemis II with the ESA and NASA logos View the full article
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By NASA
On March 2, 1995, space shuttle Endeavour launched from NASA’s Kennedy Space Center in Florida on its eighth trip into space, on the STS-67 Astro-2 mission. The crew included Commander Stephen Oswald, Pilot William Gregory, Mission Specialists John Grunsfeld, Wendy Lawrence, and Tamara Jernigan – who served as payload commander on the mission – and Payload Specialists Samuel Durrance and Ronald Parise. During their then record setting 17-day mission, the astronauts used the three ultraviolet telescopes of the Astro-2 payload to observe hundreds of celestial objects. The mission ended with a landing at Edwards Air Force Base in California.
Official photo of the STS-67 crew of Stephen Oswald, seated at left, Tamara Jernigan, and William Gregory; Ronald Parise, standing at left, Wendy Lawrence, John Grunsfeld, and Samuel Durrance. NASA The STS-67 crew patch. NASA The Astro-2 payload patch.NASA In August 1993, NASA assigned Jernigan as the payload commander for Astro-2, for a weeklong flight aboard Columbia then targeted for late 1994. Jernigan, selected by NASA in 1985, had previously flown aboard STS-40 and STS-52. Two months later, NASA assigned Grunsfeld, a space rookie from the class of 1992, as a mission specialist. In January 1994, NASA rounded out the crew by assigning Oswald, Gregory, Lawrence, Durrance, and Parise. Oswald, from the class of 1985, had flown previously as pilot on STS-42 and STS-56, while STS-67 represented the first spaceflight for Gregory, selected in 1990, and Lawrence, chosen in 1992. Durrance and Parise, selected as payload specialists in 1984, had flown on STS-35, the Astro-1 mission.
Space shuttle Endeavour rolls out to Launch Pad 39A at NASA’s Kennedy Space Center in Florida.NASA The STS-67 crew during a countdown demonstration test. NASA The STS-67 astronauts walk out for their ride to the launch pad. NASA The Astro-2 science payload consisted of three ultraviolet telescopes mounted on a Spacelab instrument pointing system in the shuttle’s cargo bay. The trio of telescopes flew previously on STS-35, the Astro-1 mission, in December 1990. That mission, originally planned to fly on STS-61E in March 1986, remained grounded following the Challenger accident. Due to equipment malfunctions, the Astro-1 mission only achieved 80% of its objectives, leading to the reflight of the instruments on Astro-2, originally planned as a seven-day mission aboard Discovery. A switch to Columbia enabled a mission twice as long, with significantly more observation time. A scheduled maintenance period for Columbia resulted in Astro-2 switching to Endeavour, with a new flight duration of more than 15 days, but a launch delay to February 1995. The three telescopes supported 23 different studies, observing more than 250 celestial objects including joint observations with the Hubble Space Telescope of the planet Jupiter.
The launch of space shuttle Endeavour on STS-67 to begin the Astro-2 mission.NASA The Astro-2 telescopes deployed in Endeavour’s payload bay. NASA Endeavour returned to Kennedy following its previous flight, STS-68, in October 1994. After servicing the orbiter, workers rolled it to the vehicle assembly building on Feb. 3, 1995, for mating with its external tank and solid rocket boosters, and then out to Launch Pad 39A on Feb. 8. At 1:38 a.m. EST on March 2, Endeavour thundered into the night sky to begin the STS-67 mission. Eight and a half minutes later, the shuttle and its crew had reached space.
Shortly after reaching orbit, the crew opened the payload bay doors and deployed the shuttle’s radiators. Jernigan and Durrance activated the Spacelab pallet and its pointing system and the telescopes. The crew split into two shifts to enable data collection around the clock during the mission. Oswald, Gregory, Grunsfeld, and Parise made up the red shift while Lawrence, Jernigan, and Durrance comprised the blue shift.
Stephen Oswald conducts a session with the Middeck Active Control Experiment. NASA Wendy Lawrence monitors a protein crystal growth apparatus. NASA John Grunsfeld, left, and Samuel Durrance at the controls of the telescopes on the shuttle’s aft flight deck. NASA William Gregory conducts a biotechnology experiment in Endeavour’s middeck. NASA Samuel Durrance and Tamara Jernigan assemble the day’s teleprinter message. NASA Ronald Parise floats near the shuttle’s overhead window.NASA For the remainder of the mission, the astronauts operated the telescopes, conducting 385 maneuvers of Endeavour to point the instruments at the celestial targets. The results met or exceeded preflight expectations. The crew also conducted a series of middeck investigations in technology demonstration and biotechnology. The Middeck Active Control Experiment studied the active control of flexible structures in space. Five years later, a newer version flew as one of the first experiments on the International Space Station.
A selection of the STS-67 crew Earth observation photographs. Gulf of Batabano, Cuba.NASA Antofagasta, Chile. NASA Volcanic eruption on Barren Island, Andaman Islands.NASA Disappointment Reach, Western Australia. NASA Like all space crews, the STS-67 astronauts also spent time taking photographs of the Earth using handheld cameras. The mission’s long duration enabled them to image many targets.
The seven-person STS-67 crew poses for an in-flight photo. NASA Endeavour touches down at Edwards Air Force Base in California. NASA On March 14, an eighth American joined the STS-67 crew in space when NASA astronaut Norman Thagard blasted off with two cosmonauts, headed for space station Mir. With three other cosmonauts already aboard Mir, the total number of humans in orbit grew to a then-record of 13. Two days later, Oswald and Thagard, who had flown together on STS-42, talked to each other via ship-to-ship radio.
Inclement weather at Kennedy thwarted the planned reentry on March 17, and the astronauts spent an extra day in space. On March 18, they again waved off a Kennedy landing and one orbit later, Oswald and Gregory piloted Endeavour to a smooth landing at Edwards Air Force Base in California. The crew had flown 262 orbits around the Earth in 16 days, 15 hours, and 9 minutes, at the time the longest space shuttle mission. A few hours later, a large crowd greeted the astronauts upon their return to Houston’s Ellington Field. Endeavour began its ferry flight back to Kennedy on March 26, arriving there the next day. Workers towed Endeavour to the processing facility to prepare it for its next flight, STS-73, then planned for September 1995.
Watch the crew narrate a video about the STS-67 mission.
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8 min read NASA’s Hubble Celebrates Decade of Tracking Outer Planets
Encountering Neptune in 1989, NASA’s Voyager mission completed humankind’s first close-up exploration of the four…
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By NASA
On March 3, 1915, the United States Congress created the National Advisory Committee for Aeronautics (NACA). Although the NACA’s founding took place just over 11 years after the Wright Brothers’ first powered flightfirst powered flight at Kitty Hawk, North Carolina, Congress took the action in response to America lagging behind other world powers’ advances in aviation and aeronautics. From its modest beginnings as an advisory committee, over the years, the NACA established research centers and test facilities that enabled groundbreaking advances in civilian and military aviation, as well as the fledgling discipline of spaceflight. With the creation of the National Aeronautics and Space Administration in 1958, the new agency incorporated the NACA’s facilities, its employees, and its annual budget. The NACA provided NASA with a strong foundation as it set out to explore space.
The first meeting of the National Advisory Committee for Aeronautics on April 23, 1915.NASA The NACA executive committee in 1934. NASA The Congressional action that created the NACA, implemented as a rider to the 1915 Naval Appropriations Bill, reads in part, “…It shall be the duty of the advisory committee for aeronautics to supervise and direct the scientific study of the problems of flight with a view to their practical solution. …”. In its initial years, the NACA fulfilled its intended role, coordinating activities already in place in the area of aeronautics research, reporting directly to the president. The committee, made up of 12 representatives from government agencies, academia, and the military, first met on April 23 in the Office of the Secretary of War in Washington, D.C. It established a nine-member executive committee to oversee day-to-day operations and spent the first few years establishing its headquarters in Washington.
The committee’s logo, approved in 1941.NASA The committee’s seal, approved by presidential executive order in 1953.NASA
Hangars at the Langley Memorial Aeronautical Laboratory in Hampton, Virginia, in 1931. NASA The Variable Density Tunnel at Langley. NASA Aerial view of the Ames Aeronautical Laboratory in Sunnyvale, California, in 1944. NASA Aerial view of the Aircraft Engine Research Laboratory in Cleveland, Ohio, in 1945.NASA Within a few years, the NACA’s role began to expand with the establishment of research facilities. The Langley Memorial Aeronautical Laboratory, today NASA’s Langley Research Center, in Hampton, Virginia, opened on June 11, 1920. Over the next few decades, Langley served as a testing facility for new types of aircraft, using wind tunnels and other technological advances. The Ames Aeronautical Laboratory in Sunnyvale, California, today NASA’s Ames Research Center, opened in 1940 and the Aircraft Engine Research Laboratory in Cleveland, today NASA’s Glenn Research Center, in 1941. The three labs achieved many breakthroughs in civilian and military aviation before, during, and after World War II. The Cleveland lab, renamed the Lewis Flight Propulsion Laboratory in 1948, concentrated most of its efforts on advances in jet propulsion.
The NACA High-Speed Flight Station, now NASA’s Armstrong Flight Research Center, at Edwards Air Force Base in California’s Mojave Desert. NASA The Bell X-1, the first aircraft to break the sound barrier in 1947.NASA The first sounding rocket launch from the Pilotless Aircraft Research Station at Wallops Island, Virginia, in 1945.NASA After World War II, the NACA began work on achieving supersonic flight. In 1946, the agency established the Muroc Flight Test Unit at the Air Force’s Muroc Field, later renamed Edwards Air Force Base, in California’s Mojave Desert. In a close collaboration, the NACA, the Air Force, and Bell Aircraft developed the X-1 airplane that first broke the sound barrier in 1947. Muroc Field underwent several name changes, first to the High-Speed Flight Station in 1949, then in 1976 to NASA’s Dryden, and in 2014 to Armstrong Flight Research Center. In 1945, the NACA established the Pilotless Aircraft Research Station on Wallops Island, Virginia, now NASA’s Wallops Flight Facility, as a test site for rocketry research, under Langley’s direction. From the first launch in 1945 through 1958, the NACA launched nearly 400 different types of rockets from Wallops.
Shadowgraph of finned hemispherical model in free flight shows shock waves produced by blunt bodies.NACA Meeting of the NACA’s Special Committee on Space Technology in May 1958.NASA In the 1950s, the NACA began to study the feasibility of spaceflight, including sending humans into space. In 1952, NACA engineers developed the concept of a blunt body capsule as the most efficient way to return humans from space. The design concept found its way into the Mercury capsule and all future American spacecraft. Following the dawn of the space age in 1957, the NACA advocated that it take the lead in America’s spaceflight effort. The Congress passed, and President Dwight D. Eisenhower signed legislation to create a new civilian space agency, and on Oct. 1, 1958, NASA officially began operations. The new organization incorporated the NACA’s research laboratories and test facilities, its 8,000 employees, and its $100 million annual budget. Many of NASA’s key early leaders and engineers began their careers in the NACA. The NACA’s last director, Hugh Dryden, served as NASA’s first deputy administrator.
For more information about the NACA and its transition to NASA, read former NASA Chief Historian Roger Launius’ book NASA to NASA to Now: The Frontiers of Air and Space in the American Century. Watch this video narrated by former NASA Chief Historian Bill Barry about the NACA.
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