What did NASA stand for and what do they do? NASA stands for National Aeronautics and Space Administration. NASA was started on October 1, 1958, as a part of the United States government. NASA is in charge of U.S. science and technology that has to do with airplanes or space. Nasa is the US civilian space agency, an organization so tightly connected to the history of space exploration — from the Moon landings to the iconic space shuttle missions — that it’s easy to forget Nasa is an acronym. Nasa stands for National Aeronautics and Space Administration, which succeeded the National Advisory Committee for Aeronautics (Naca) as the primary federal agency focused on the development of aerospace technologies. While Naca had developed aeronautics technologies for both civilian and military use, Nasa was founded with specific intent to serve as a civilian agency, pursuing the peaceful use of outer space, even as its rocket launches served as a strategic propaganda tool during the Cold War era. While Nasa’s early history focused a great deal on human spaceflight, the mission of the space agency in the 21st century encompasses both human spaceflight and science mission, the International Space Station and the Artemis Moon program, robotic rovers on Mars and the James Webb Space Telescope in deep space. The beginnings of Nasa NASA traces its roots to the National Advisory Committee for Aeronautics (NACA). Despite being the birthplace of aviation, by 1914 the United States recognized that it was far behind Europe in aviation capability. Determined to regain American leadership in aviation, Congress created the Aviation Section of the U.S. Army Signal Corps in 1914 and established NACA in 1915 to foster aeronautical research and development. Over the next forty years NACA would conduct aeronautical research in support of the U.S. Air Force, its predecessors in the U.S. Army, the U.S. Navy, and the civil aviation sector. After the end of World War II, NACA became interested in the possibilities of guided missiles and supersonic aircraft, developing and testing the Bell X-1 in a joint program with the U.S. Air Force. NACA’s interest in space grew out of its rocketry program at the Pilotless Aircraft Research Division. Launch of the Army Ballistic Missile Agency’s Explorer 1, America’s first satellite The Soviet Union’s launch of Sputnik 1 ushered in the Space Age and kicked off the Space Race. Despite NACA’s early rocketry program, the responsibility for launching the first American satellite fell to the Naval Research Laboratory’s Project Vanguard, whose operational issues ensured the Army Ballistic Missile Agency would launch Explorer 1, America’s first satellite, on February 1, 1958. The Eisenhower Administration decided to split the United States’ military and civil spaceflight programs, which were organized together under the Defense Department’s Advanced Research Projects Agency. NASA was established on July 29, 1958, with the signing of the National Aeronautics and Space Act and it began operations on October 1, 1958. As the United States’ premier aeronautics agency, NACA formed the core of NASA’s new structure, absorbing its 8,000 employees and three major research laboratories. NASA also proceeded to absorb the Naval Research Laboratory’s Project Vanguard, the Army’s Jet Propulsion Laboratory, and the Army Ballistic Missile Agency under Wernher von Braun. This left NASA firmly as the United States’ civil space lead and the Air Force as the military space lead. First orbital and hypersonic flights Main : Project Mercury Launch of Friendship 7, NASA’s first orbital flight, February 20, 1962 Plans for human spaceflight began in the U.S. Armed Forces prior to NASA’s creation. The Air Force’s Man in Space Soonest and the Army’s Project Adam served as the foundation for Project Mercury, the first American program to put people in space. NASA established the Space Task Group to manage the program, which would conduct sub-orbital flights with the Army’s Redstone rockets and orbital flights with the Air Force’s Atlas launch vehicles. While NASA intended for its first astronauts to be civilians, President Eisenhower directed that they be selected from the military. The Mercury 7 astronauts included three Air Force pilots, three Navy aviators, and one Marine Corps pilot. The NASA-Air Force X-15 hypersonic aircraft On May 5, 1961 Alan Shepard became the first American to enter space, performing a suborbital spaceflight in the Freedom 7. This flight occurred less than a month after the Soviet Union’s Yuri Gagarin became the first human in space, executing a full orbital spaceflight. NASA’s first orbital spaceflight was conducted by John Glenn on February 20, 1962, in the Friendship 7, conducting three full orbits before reentering. Glenn had to fly parts of his final two orbits manually due to a malfunction in the autopilot. The sixth and final Mercury mission was flown by Gordon Cooper in May 1963, performing 22 orbits over 34 hours in the Faith 7. The Mercury Program was a resounding success, achieving its objectives to orbit a human in space, develop tracking and control systems, and identify other issues associated with human spaceflight. While much of NASA’s attention turned to space, it did not forget its aeronautics mission. Early aeronautics research attempted to build upon the X-1’s supersonic flight to build an aircraft capable of hypersonic flight. The North American X-15 was a joint NASA-U.S. Air Force program, with the hypersonic test aircraft becoming the first non-dedicated spacecraft to cross from the atmosphere to outer space. The X-15 also served as a testbed for Apollo program technologies and ramjet and scramjet propulsion. Moon landing Main articles: Project Gemini and Apollo program Gemini 6 and Gemini 7 conduct an orbital rendezvous Escalations in the Cold War between the United States and Soviet Union prompted President John F. Kennedy to charge NASA with landing an American on the Moon and returning him safely to Earth by the end of the 1960s, and installed James E. Webb as NASA administrator to achieve this goal. On May 25, 1961, President Kennedy openly declared this goal in his “Urgent National Needs” speech to the United States Congress, declaring: I believe this Nation should commit itself to achieving the goal, before this decade is out, of landing a man on the Moon and returning him safely to Earth. No single space project in this period will be more impressive to mankind, or more important for the long-range exploration of space; and none will be so difficult or expensive to accomplish. Kennedy gave his “We choose to go to the Moon” speech the next year, on September 12, 1962 at Rice University. Despite attacks on the goal of landing astronauts on the Moon from the former president Dwight Eisenhower and 1964 presidential candidate Barry Goldwater, President Kennedy was able to protect NASA’s growing budget, of which 50% went directly to human spaceflight and it was later estimated that, at its height, 5% of Americans worked on some aspect of the Apollo program. Launch of Apollo 11 To manage the Apollo program, NASA required a more rigorous approach than it applied to Project Mercury. Mirroring the Department of Defense’s program management concept using redundant systems in building the first intercontinental ballistic missiles, NASA requested the Air Force assign Major General Samuel C. Phillips to the space agency where he would serve as the director of the Appollo program. Development of the Saturn V rocket was led by Wernher von Braun and his team at the Marshall Space Flight Center, derived from the Army Ballistic Missile Agency’s original Saturn I. The Apollo spacecraft was designed and built by North American Aviation, while the Apollo Lunar Module was designed and built by Grumman. To develop the spaceflight skills and equipment required for a lunar mission, NASA initiated Project Gemini. Using a modified Air Force Titan II launch vehicle, the Gemini capsule could hold two astronauts for flights of over two weeks. Gemini pioneered the use of fuel cells instead of legacy batteries and demonstrated spacewalks and rendezvous operations. NASA also needed more detailed information about the Moon’s geography and composition to prepare for a landing, using three uncrewed spacecraft programs. Buzz Aldrin salutes the United States flag on the lunar surface The Ranger Program was started in the 1950s as a response to Soviet lunar exploration but was generally considered to be a failure. The Lunar Orbiter program had greater success, mapping the surface in preparation for Apollo landings and measured Selenography, conducted meteoroid detection, and measured radiation levels. The Surveyor program conducted uncrewed lunar landings and takeoffs, as well as taking surface and regolith observations. Despite the setback caused by the Apollo 1 fire, which killed three astronauts, the program proceeded. Apollo 8 was the first crewed spacecraft to leave low Earth orbit and the first human spaceflight to reach the Moon. The crew orbited the Moon ten times on December 24 and 25, 1968, and then traveled safely back to Earth.[ The three Apollo 8 astronauts—Frank Borman, James Lovell, and William Anders—were the first humans to see the Earth as a globe in space, the first to witness an Earthrise, and the first to see and manually photograph the far side of the Moon. The first lunar landing was conducted by Apollo 11. Commanded by Neil Armstrong with astronauts Buzz Aldrin and Michael Collins, Apollo 11 was one of the most significant missions in NASA’s history, marking the end of the Space Race when the Soviet Union gave up its lunar ambitions. As the first human to step on the surface of the Moon, Neil Armstrong uttered the now famous words: That’s one small step for man, one giant leap for mankind. NASA would conduct six total lunar landings as part of the Apollo program, with Apollo 17 concluding the program in 1972. Apollo 15 CSM Endeavour in lunar orbit Wernher von Braun had advocated for NASA to develop a space station since the agency was created. In 1973, following the end of the Apollo lunar missions, NASA launched its first space station, Skylab, on the final launch of the Saturn V. Skylab repurposed a significant amount of former Apollo and Saturn hardware, with a repurposed Saturn V third stage serving as primary module for the space station. Damage to Skylab during launch required spacewalks by the first crew to make it habitable and operational. Skylab only hosted 9 missions and was decommissioned in 1974 and deorbited in 1979, two years prior to the Space Shuttle’s launch and any possibility of boosting its orbit. In 1975, the Apollo–Soyuz mission was the first ever international spaceflight and a major diplomatic accomplishment between the Cold War rivals. Flown in 1975, a U.S. Apollo spacecraft docked with a Soviet Soyuz capsule. It also was the last flight of the Apollo capsule. Interplanetary exploration and space science Image from Mars taken by the Viking 2 lander During the 1960s, NASA started its space science and interplanetary probe program. The Mariner program was its flagship program, launching probes to Venus, Mars, and Mercury in the 1960s. The Jet Propulsion Laboratory was the lead NASA center for robotic interplanetary exploration, making significant discoveries about the inner planets. Despite these successes, Congress was unwilling to fund further interplanetary missions and NASA Administrator James Webb suspended all future interplanetary probes to focus resources on the Apollo program. Following the conclusion of the Apollo program, NASA resumed launching interplanetary probes and expanded its space science program. The first planet tagged for exploration was Venus, sharing many similar characteristics to Earth. First visited by American Mariner 2 spacecraft, Venus was observed to be a hot and inhospitable planet. Follow-on missions included the Pioneer Venus project in the 1970s and Magellan, which performed radar mapping of Venus’ surface in the 1980s and 1990s. Future missions were flybys of Venus, on their way to other destinations in the Solar System. Mars has long been a planet of intense fascination for NASA, being suspected of potentially having harbored life. Mariner 5 was the first NASA spacecraft to flyby Mars, followed by Mariner 6 and Mariner 7. Mariner 9 was the first orbital mission to Mars. Launched in 1975, Viking program consisted of two landings on Mars in 1976. Follow-on missions would not be launched until 1996, with the Mars Global Surveyor orbiter and Mars Pathfinder, deploying the first Mars rover, Sojourner. During the early 2000s, the 2001 Mars Odyssey orbiter reached the planet and in 2004 the Sprit and Opportunity rovers landed on the Red Planet. This was followed in 2005 by the Mars Reconnaissance Orbiter and 2007 Phoenix Mars lander. The 2012 landing of Curiosity discovered that the radiation levels on Mars were equal to those on the International Space Station, greatly increasing the possibility of Human exploration, and observed the key chemical ingredients for life to occur. In 2013, the Mars Atmosphere and Volatile Evolution (MAVEN) mission observed the Martian upper atmosphere and space environment and in 2018, the Interior exploration using Seismic Investigations Geodesy, and Heat Transport (InSight) studied the Martian interior. The 2021 Perseverance rover carried the first extraplanetary aircraft, a helicopter named Ingenuity. Curiosity on the surface of Mars NASA also launched missions to Mercury in 2004, with the MESSENGER probe demonstrating as the first use of a solar sail. NASA also launched probes to the outer Solar System starting in the 1960s. Pioneer 10 was the first probe to the outer planets, flying by Jupiter, while Pioneer 11 provided the first close up view of the planet. Both probes became the first objects to leave the Solar System. The Voyager program launched in 1977, conducting flybys of Jupiter and Saturn, Neptune, and Uranus on a trajectory to leave the Solar System. The Galileo spacecraft, deployed from the Space Shuttle flight STS-34, was the first spacecraft to orbit Jupiter, discovering evidence of subsurface oceans on the Europa and observed that the moon may hold ice or liquid water. A joint NASA-European Space Agency-Italian Space Agency mission, Cassini–Huygens, was sent to Saturn’s moon of Titan, which along with Mars and Europa, are the only objects non-Terran objects in the Solar System suspected of being capable of harboring life. Cassini discovered three new moons of Saturn and the Huygens probe entered Titan’s atmosphere. The mission discovered evidence of liquid hydrocarbon lakes on Titan and subsurface water oceans on the moon of Enceladus, which could harbor life. Finally launched in 2006, the New Horizons mission was the first spacecraft to visit Pluto and the Kuiper Belt. Beyond interplanetary probes, NASA has a long tradition of launching space telescopes. Launched in the 1960s, the Orbiting Astronomical Observatory were NASA’s first orbital telescopes, providing ultraviolet, gamma-ray, x-ray, and infrared observations. Not just looking up, NASA launched the Orbiting Geophysical Observatory to look down at Earth and observe its interactions with the Sun. The Uhuru satellite was the first dedicated x-ray telescope, mapping 85% of the sky and discovering a large number of black holes. The Hubble Space Telescope in Low Earth Orbit Launched in the 1990s and early 2000s, the Great Observatories program are among NASA’s most powerful telescopes. The Hubble Space Telescope was launched in 1990 on STS-31 from the Discovery and could view galaxies 15 light years away. A major defect in the telescope’s mirror could have cripped the program, had NASA not used computer enhancement to compensate for the imperfection and launched five Space Shuttle servicing flights to replace the damaged components. The Compton Gamma Ray Observatory was launched from the Atlantis on STS-37 in 1991, discovering a possible source of antimatter at the center of the Milky Way and observing that the majority of gamma-ray bursts occur outside of the Milky Way galaxy. The Chandra X-ray Observatory was launched from the Columbia on STS-93 in 1999, observing black holes, quasars, supernova, and dark matter. It provided critical observations on the Sagittarius A* black hole at the center of the Milky Way galaxy and the separation of dark and regular matter during galactic collisions. Finally, the Spitzer Space Telescope is an infrared telescope and the last of the great observatories, launched in 2003 from a Delta II rocket. It is in a trailing orbit around the Sun, following the Earth and discovered the existence of brown dwarf stars. Other telescopes, such as the Cosmic Background Explorer and the Wilkinson Microwave Anisotropy Probe, provided evidence to support the Big Bang. The James Webb Space Telescope, named after the NASA administrator who lead the Apollo program, is an infrared observatory launched in 2021. The James Webb Space Telescope is a direct successor to the Hubble Space Telescope, intended to observe the formation of the first galaxies. Other space telescopes include the Kepler space telescope, launched in 2009 to identify planets orbiting extrasolar stars that may be Terran and possibly harbor life. The first exoplanet that the Keplar space telescope confirmed was Kepler-22b, orbiting within the habitable zone of its star. NASA also launched a number of different satellites to study Earth, such as Television Infrared Observation Satellite (TIROS) in 1960, which was the first weather satellite. NASA and the United States Weather Bureau cooperated on future TIROS and the second generation Nimbus program of weather satellites. It also worked with the Environmental Science Services Administration on a series of weather satellites and the agency launched its experimental Applications Technology Satellites into geosynchronous orbit. NASA’s first dedicated Earth observation satellite, Landsat, was launched in 1972. This led to NASA and the National Oceanic and Atmospheric Administration jointly developing the Geostationary Operational Environmental Satellite and discovering Ozone depletion. Space Shuttle Main : Space Shuttle Launch of the Space Shuttle Discovery on STS-120 NASA had been pursuing spaceplanes since the 1960s, blending the administration’s dual aeronautics and space missions. NASA viewed a spaceplane as part of a larger program, providing routine and economical logistical support to a space station in Earth orbit that would be used as a hub for lunar and Mars missions. A reusable launch vehicle would end the need for expensive and expendable boosters like the Saturn In 1969, NASA designated the Johnson Space Center as the lead center for developing the design, development, and manufacturing of the Space Shuttle orbiter, while the Marshall Space Flight Center would lead the development of the launch system. NASA’s series of lifting body aircraft, culminating in the joint NASA-U.S. Air Force Martin Marietta X-24, directly informed the development of the Space Shuttle and future hypersonic flight aircraft. Official development of the Space Shuttle began in 1972, with Rockwell International contracted to design the orbiter and engines, Martin Marietta for the external fuel tank, and Morton Thiokol for the solid rocket boosters. NASA acquired six orbiters: the Enterprise, Columbia, Challenger, Discovery, Atlantis, and Endeavour The Space Shuttle program also allowed NASA to make dramatic changes to its Astronaut Corps. While almost all previous astronauts were Air Force or Naval test pilots, the Space Shuttle allowed NASA to begin recruiting more non-military scientific and technical experts. A prime example is Sally Ride, who became the first American woman to fly in space on STS-7. It also allowed NASA to accept exchange astronauts from U.S. allies and partners for the first time. The first Space Shuttle flight occurred in 1981, when the Columbia launched on the STS-1 mission, designed to serve as a flight test for the new spaceplane. NASA intended for the Space Shuttle to replace expendable launch systems like the Air Force’s Atlas, Delta, and Titan and the European Space Agency’s Ariane. The Space Shuttle’s Spacelab payload, developed by the European Space Agency, dramatically increased the scientific capabilities of shuttle missions over anything NASA was able to previously accomplish. Space Shuttle Discovery in Low Earth Orbit on STS-120 NASA launched its first commercial satellites on the STS-5 mission and in 1984, the STS-41-C mission conducted the world’s first on-orbit satellite servicing mission when the Challenger captured and repaired the malfunctioning Solar Maximum Mission satellite. It also had the capability to return malfunctioning satellite to Earth, like it did with the Palapa B2 and Westar 6 satellites. Once returned to Earth, the satellites were repaired and relaunched. Despite ushering in a new era of spaceflight, where NASA was contracting launch services to commercial companies, the Space Shuttle was criticized for not being as reusable and cost-effective as advertised. In 1986, Challenger disaster on the STS-51L mission resulted in the loss of the spacecraft and all seven astronauts on launch, grounding the entire space shuttle fleet for 36 months and forced the 44 commercial companies that contracted with NASA to deploy their satellites to return to expendable launch vehicles. When the Space Shuttle returned to flight with the STS-26 mission, it had undergone significant modifications to improve its reliability and safety. An Air Force Space Command Defense Support Program missile warning spacecraft deploys from the Space Shuttle Atlantis on the STS-44 mission Following the collapse of the Soviet Union, the Russian Federation and United States initiated the Shuttle-Mir program. The first Russian cosmonaut flew on the STS-60 mission in 1994 and the Discovery rendezvoused, but did not dock with, the Russian Mir in the STS-63 mission. This was followed by Atlantis’ STS-71 mission where it accomplished the initial intended mission for the Space Shuttle, docking with a space station and transferring supplies and personnel. The Shuttle-Mir program would continue until 1998, when a series of orbital accidents on the space station spelled an end to the program. In 2003, a second space shuttle was lost when the Columbia was lost upon reentry during the STS-107 mission, resulting in the loss of the spacecraft and all seven astronauts. This accident marked the beginning of the end of the Space Shuttle program, with President George W. Bush directing that upon the completion of the International Space Station, the space shuttle be retired. In 2006, the Space Shuttle returned to flight and flew several additional missions, flying several mission to service the Hubble Space Telescope, but was retired with the completion of the completion of the STS-135 resupply mission to the International Space Station in 2011. Space stations Main : Space Station Freedom and International Space Station Skylab seen on the Skylab 4 mission NASA never gave up on the idea of a space station after Skylab’s reentry in 1979. The agency began lobbing politicians to support building a space station as soon as the Space Shuttle began flying, selling it as an orbital laboratory, repair station, and a jumping off point for lunar and Mars missions. NASA found a strong advocate in President Ronald Reagan, who declared in a 1984 speech: America has always been greatest when we dared to be great. We can reach for greatness again. We can follow our dreams to distant stars, living and working in space for peaceful, economic, and scientific gain. Tonight I am directing NASA to develop a permanently manned space station and to do it within a decade. In 1985, NASA proposed the Space Station Freedom, which both the agency and President Reagan intended to be an international program. While this would add legitimacy to the program, there were concerns within NASA that the international component would dilute its authority within the project, having never been willing to work with domestic or international partners as true equals. There was also a concern with sharing sensitive space technologies with the Europeans, which had the potential to dilute America’s technical lead. Ultimately, an international agreement to develop the Space Station Freedom program would be signed with thirteen countries in 1985, including the European Space Agency member states, Canada, and Japan. Despite its status as the first international space program, the Space Station Freedom was controversial, with much of the debate centering on cost. Several redesigns to reduce cost were conducted in the early 1990s, stripping away much of its functions. Despite calls for Congress to terminate the program, it continued, in large part because by 1992 it had created 75,000 jobs across 39 states. By 1993, President Bill Clinton attempted to significantly reduce NASA’s budget and directed costs be significantly reduced, aerospace industry jobs were not lost, and the Russians be included. The International Space Station seen from the Space Shuttle Atlantis on the STS-132 mission In 1993, the Clinton Administration announced that the Space Station Freedom would become the International Space Station in an agreement with the Russian Federation. This allowed the Russians to maintain their space program through an infusion of American currency to maintain their status as one of the two premier space programs. While the United States built and launched the majority of the International Space Station, Russia, Canada, Japan, and the European Space Agency all contributed components. Despite NASA’s insistence that costs would be kept at a budget of $17.4, they kept rising and NASA had to transfer funds from other programs to keep the International Space Station solvent. Ultimately, the total cost of the station was $150 billion, with the United States paying for two-thirds.Following the Space Shuttle Columbia disaster in 2003, NASA was forced to rely on Russian Soyuz launches for its astronauts and the 2011 retirement of the Space Shuttle accelerated the station’s completion. In the 1980s, right after the first flight of the Space Shuttle, NASA started a joint program with the Department of Defense to develop the Rockwell X-30 National Aerospace Plane. NASA realized that the Space Shuttle, while a massive technological accomplishment, would not be able to live up to all its promises. Designed to be a single-stage-to-orbit spaceplane, the X-30 had both civil and military applications. With the end of the Cold War, the X-30 was canceled in 1992 before reaching flight status. Unleashing commercial space and return to the Moon Main articles: Commercial Crew Program and Artemis program Launch of SpaceX Demo-2 from Kennedy Space Center, the first U.S. crewed space launch since the end of the Space Shuttle program Following the 2003 Space Shuttle Columbia disaster, President Bush started the Constellation program to smoothly replace the Space Shuttle and expand space exploration beyond low Earth orbit. Constellation was intended to use a significant amount of former Space Shuttle equipment and return astronauts to the Moon. This program was canceled by the Obama Administration and former astronauts Neil Armstrong, Gene Cernan, and Jim Lovell sent a letter to President Barack Obama to warn him that if the United States did not get new human spaceflight ability, the U.S. risked become a second or third-rate space power. SpaceX Crew-2 docks with the International Space Station As early as the Reagan Administration, there had been calls for NASA to expand private sector involvement in space exploration rather than do it all in house. In the 1990s, NASA and Lockheed Martin entered into an agreement to develop the Lockheed Martin X-33 and VentureStar spaceplane, which was intended to replace the Space Shuttle. Due to technical challenges, the spacecraft was cancelled in 2001. Despite this, it was the first time a commercial space company directly expended a significant amount of its own resources into spacecraft development. The advent of space tourism also forced NASA to challenge its assumption that only governments would have people in space. The first space tourist was Dennis Tito, an American investment manager and former aerospace engineer who contracted with the Russians to fly to the International Space Station for four days, despite the opposition of NASA to the idea. Launch of Artemis 1 Advocates of this new commercial approach for NASA included former astronaut Buzz Aldrin, who remarked that it would return NASA to its roots as a research and development agency, with commercial entities actually operating the space systems. Having corporations take over orbital operations would also allow NASA to focus all its efforts on deep space exploration and returning humans to the Moon and going to Mars. Embracing this approach, NASA’s Commercial Crew Program started by contracting cargo delivery to the International Space Station and flew its first operational contracted mission on SpaceX Crew-1. This marked the first time since the retirement of the Space Shuttle that NASA was able to launch its own astronauts on an American spacecraft from the United States, ending a decade of reliance on the Russians. In 2019, NASA announced the Artemis program, intending to return to the Moon and establish a permanent human presence.[15] This was paired with the Artemis Accords with partner nations to establish rules of behavior and norms of space commercialization on the Moon. Active programs Human spaceflight International Space Station (1993–present) Further information: International Space Station The International Space Station as seen from Space Shuttle Endeavour during STS-134 The International Space Station (ISS) combines NASA’s Space Station Freedom project with the Soviet/Russian Mir-2 station, the European Columbus station, and the Japanese Kibō laboratory module. NASA originally planned in the 1980s to develop Freedom alone, but US budget constraints led to the merger of these projects into a single multi-national program in 1993, managed by NASA, the Russian Federal Space Agency (RKA), the Japan Aerospace Exploration Agency (JAXA), the European Space Agency (ESA), and the Canadian Space Agency (CSA). The station consists of pressurized modules, external trusses, solar arrays and other components, which were manufactured in various factories around the world, and have been launched by Russian Proton and Soyuz rockets, and the US Space Shuttles. The on-orbit assembly began in 1998, the completion of the US Orbital Segment occurred in 2009 and the completion of the Russian Orbital Segment occurred in 2010, though there are some debates of whether new modules should be added in the segment. The ownership and use of the space station is established in intergovernmental treaties and agreements which divide the station into two areas and allow Russia to retain full ownership of the Russian Orbital Segment (with the exception of Zarya), with the US Orbital Segment allocated between the other international partners. Long-duration missions to the ISS are referred to as ISS Expeditions. Expedition crew members typically spend approximately six months on the ISS. The initial expedition crew size was three, temporarily decreased to two following the Columbia disaster. Since May 2009, expedition crew size has been six crew members. Crew size is expected to be increased to seven, the number the ISS was designed for, once the Commercial Crew Program becomes operational. The ISS has been continuously occupied for the past 23 years and 136 days, having exceeded the previous record held by Mir; and has been visited by astronauts and cosmonauts from 15 different nations. The station can be seen from the Earth with the naked eye and, as of 2024, is the largest artificial satellite in Earth orbit with a mass and volume greater than that of any previous space station.The Russian Soyuz and American Dragon spacecraft are used to send astronauts to and from the ISS. Several uncrewed cargo spacecraft provide service to the ISS; they are the Russian Progress spacecraft which has done so since 2000, the European Automated Transfer Vehicle (ATV) since 2008, the Japanese H-II Transfer Vehicle (HTV) since 2009, the (uncrewed) Dragon since 2012, and the American Cygnus spacecraft since 2013. The Space Shuttle, before its retirement, was also used for cargo transfer and would often switch out expedition crew members, although it did not have the capability to remain docked for the duration of their stay. Between the retirement of the Shuttle in 2011 and the commencement of crewed Dragon flights in 2020, American astronauts exclusively used the Soyuz for crew transport to and from the ISS[31] The highest number of people occupying the ISS has been thirteen; this occurred three times during the late Shuttle ISS assembly missions. The ISS program is expected to continue to 2030,after which the space station will be retired and destroyed in a controlled de-orbit. Commercial Resupply Services (2008–present) Further information: Commercial Resupply Services Dragon Cygnus Commercial Resupply Services missions approaching International Space Station Commercial Resupply Services (CRS) are a contract solution to deliver cargo and supplies to the International Space Station (ISS) on a commercial basis. NASA signed its first CRS contracts in 2008 and awarded $1.6 billion to SpaceX for twelve cargo Dragon and $1.9 billion to Orbital Sciences for eight Cygnus flights, covering deliveries to 2016. Both companies evolved or created their launch vehicle products to support the solution (SpaceX with The Falcon 9 and Orbital with the Antares). SpaceX flew its first operational resupply mission (SpaceX CRS-1) in 2012. Orbital Sciences followed in 2014 (Cygnus CRS Orb-1). In 2015, NASA extended CRS-1 to twenty flights for SpaceX and twelve flights for Orbital ATK. A second phase of contracts (known as CRS-2) was solicited in 2014; contracts were awarded in January 2016 to Orbital ATK Cygnus, Sierra Nevada Corporation Dream Chaser, and SpaceX Dragon 2, for cargo transport flights beginning in 2019 and expected to last through 2024. In March 2022, NASA awarded an additional six CRS-2 missions each to both SpaceX and Northrop Grumman (formerly Orbital). Northrop Grumman successfully delivered Cygnus NG-17 to the ISS in February 2022 In July 2022, SpaceX launched its 25th CRS flight (SpaceX CRS-25) and successfully delivered its cargo to the ISS. In late 2022, Sierra Nevada continued to assemble their Dream Chaser CRS solution; current estimates put its first launch in early 2023. Commercial Crew Program (2011–present) Further information: Commercial Crew Program The Crew Dragon (left) and Starliner (right) approaching the ISS on their respective missions The Commercial Crew Program (CCP) provides commercially operated crew transportation service to and from the International Space Station (ISS) under contract to NASA, conducting crew rotations between the expeditions of the International Space Station program. American space manufacturer SpaceX began providing service in 2020, using the Crew Dragon spacecraft and NASA plans to add Boeing when its Boeing Starliner spacecraft becomes operational some time after 2024.NASA has contracted for six operational missions from Boeing and fourteen from SpaceX, ensuring sufficient support for ISS through 2030. The spacecraft are owned and operated by the vendor, and crew transportation is provided to NASA as a commercial service. Each mission sends up to four astronauts to the ISS, with an option for a fifth passenger available. Operational flights occur approximately once every six months for missions that last for approximately six months. A spacecraft remains docked to the ISS during its mission, and missions usually overlap by at least a few days. Between the retirement of the Space Shuttle in 2011 and the first operational CCP mission in 2020, NASA relied on the Soyuz program to transport its astronauts to the ISS. A Crew Dragon spacecraft is launched to space atop a Falcon 9 Block 5 launch vehicle and the capsule returns to Earth via splashdown in the ocean near Florida. The program’s first operational mission, SpaceX Crew-1, launched on November 16, 2020. Boeing Starliner operational flights will now commence after its final test flight which was launched atop an Atlas V N22 launch vehicle. Instead of a splashdown, a Starliner capsule returns on land with airbags at one of four designated sites in the western United States. Artemis (2017–present) Further information: Artemis program SLS with Orion rolling to Launch Complex 39B for tests, Mar 2022 Since 2017, NASA’s crewed spaceflight program has been the Artemis program, which involves the help of US commercial spaceflight companies and international partners such as ESA, JAXA, and CSA. The goal of this program is to land “the first woman and the next man” on the lunar south pole region by 2025. Artemis would be the first step towards the long-term goal of establishing a sustainable presence on the Moon, laying the foundation for companies to build a lunar economy, and eventually sending humans to Mars. The Orion Crew Exploration Vehicle was held over from the canceled Constellation program for Artemis. Artemis 1 was the uncrewed initial launch of Space Launch System (SLS) that would also send an Orion spacecraft on a Distant Retrograde Orbit. NASA’s next major space initiative is to be the construction of the Lunar Gateway, a small space station in lunar orbit. This space station will be designed primarily for non-continuous human habitation. The first tentative steps of returning to crewed lunar missions will be Artemis 2, which is to include the Orion crew module, propelled by the SLS, and is to launch in 2025. This mission is to be a 10-day mission planned to briefly place a crew of four into a Lunar flyby. The construction of the Gateway would begin with the proposed Artemis 3, which is planned to deliver a crew of four to Lunar orbit along with the first modules of the Gateway. This mission would last for up to 30 days. NASA plans to build full scale deep space habitats such as the Lunar Gateway and the Nautilus-X as part of its Next Space Technologies for Exploration Partnerships (NextSTEP) program. In 2017, NASA was directed by the congressional NASA Transition Authorization Act of 2017 to get humans to Mars-orbit (or to the Martian surface) by the 2030s. In support of the Artemis missions, NASA has been funding private companies to land robotic probes on the lunar surface in a program known as the Commercial Lunar Payload Services. As of March 2022, NASA has awarded contracts for robotic lunar probes to companies such as Intuitive Machines, Firefly Space Systems, and Astrobotic. On April 16, 2021, NASA announced they had selected the SpaceX Lunar Starship as its Human Landing System. The agency’s Space Launch System rocket will launch four astronauts aboard the Orion spacecraft for their multi-day journey to lunar orbit where they will transfer to SpaceX’s Starship for the final leg of their journey to the surface of the Moon. In November 2021, it was announced that the goal of landing astronauts on the Moon by 2024 had slipped to no earlier than 2025 due to numerous factors. Artemis 1 launched on November 16, 2022, and returned to Earth safely on December 11, 2022. As of June 2022, NASA plans to launch Artemis 2 in May 2024 and Artemis 3 in December 2025.Additional Artemis missions, Artemis 4 and Artemis 5, are planned to launch after 2025. Commercial LEO Development (2021–present) The Commercial Low Earth Orbit Destinations program is an initiative by NASA to support work on commercial space stations that the agency hopes to have in place by the end of the current decade to replace the “International Space Station”. The three selected companies are: Blue Origin (et al.) with their Orbital Reef station concept, Nanoracks (et al.) with their Starlab Space Station concept, and Northrop Grumman with a station concept based on the HALO-module for the Gateway station. Robotic exploration Further information: List of NASA missions and List of uncrewed NASA missions Video of many of the uncrewed missions used to explore the outer reaches of space NASA has conducted many uncrewed and robotic spaceflight programs throughout its history. More than 1,000 uncrewed missions have been designed to explore the Earth and the Solar System. Mission selection process NASA executes a mission development framework to plan, select, develop, and operate robotic missions. This framework defines cost, schedule and technical risk parameters to enable competitive selection of missions involving mission candidates that have been developed by principal investigators and their teams from across NASA, the broader U.S. Government research and development stakeholders, and industry. The mission development construct is defined by four umbrella programs. Explorer program Further information: Explorers Program The Explorer program derives its origin from the earliest days of the U.S. Space program. In current form, the program consists of three classes of systems – Small Explorers (SMEX), Medium Explorers (MIDEX), and University-Class Explorers (UNEX) missions. The NASA Explorer program office provides frequent flight opportunities for moderate cost innovative solutions from the heliophysics and astrophysics science areas. The Small Explorer missions are required to limit cost to NASA to below $150M (2022 dollars). Medium class explorer missions have typically involved NASA cost caps of $350M. The Explorer program office is based at NASA Goddard Space Flight Center. Nasa was founded in 1958, and, while it took over some of the responsibilities of Naca, it was born out of two important political realities of the times, according to Mike Neufeld, a senior curator in the space history department of the US National and Space Museum. “Nasa came out of Sputnik,” he told The Independent in an interview. “The Soviets launch of Sputnik in the fall of 1957 and the sense that America was behind and the need to be more competitive.” That was one driver of Nasa’s beginnings, but also important was the behind-the-scenes rivalry between the US military services. “Too many newspapers and then now have it that NASA was created to create the space program. There already was a space program, several military space programs,” Dr Neufeld said. “Whatever we did in space in 1957, ’58, was done by the Army, Navy or Air Force. There was no civilian space agency.” Before Nasa, there were turf struggles over which branch would end up leading America’s space flight efforts. President Dwight Eisenhower, meanwhile, wasn’t sure the military was the right institution to front America’s efforts in space, according to Nasa historian Brian Odom. “Eisenhower is somebody who really understands the nature of the military,” Dr Odom told The Independent in an interview. Eisenhower valued “keeping the military separate from people, research and development.” So Nasa was stood up as a civilian space and a human spaceflight agency with the Mercury program, Dr Neufeld said, despite Mr Eisenhower’s own misgivings about the entire project. “He was very skeptical that we needed to send any astronauts into space. He thought it was a stunt and basically didn’t really care for the whole idea,” Dr Neufeld said. “But he was pressed by the space race and by demands of the public and military to have a manned space program, as that was called then.” Expanding human spaceflight Nasa’s Mercury program was ultimately a success. It led to the first American flight into space, Alan Shepard on 5 May 1961, and the first American to orbit the Earth, John Glenn in 1962. But the US was still behind the Soviets, whose cosmonaut Yuri Gargarin had beat American astronauts to space and orbit with his 12 April 1961 orbital flight. The sea change was when US President John F. Kennedy announced that Nasa would send astronauts to the Moon in what would become the Apollo program. From there, the space agency grew significantly, both in its focus on human spaceflight and in its funding. “When Kennedy decided that we should go to the land humans on the moon to beat the Soviets, that greatly expanded the mission of NASA,” Dr Neufeld told The Independent. “Nasa’s budget quintupled between 1960 and the mid-60s; it went from a $1 billion agency to a $5 billion agency because of the race to the Moon.” Even after Nasa faced budget cuts in the 1970s, with President Richard Nixon canceling the Apollo program after the 1972 Apollo mission, the space agency would continue pioneering human spaceflight. The space shuttle program and the International Space Station refocused that spaceflight to Earth orbit, but astronauts kept flying. Nasa as a scientific agency Notably, Nasa wasn’t only a human spaceflight agency. “The other side is scientific discovery,” Dr Odom told The Independent. “Balancing human spaceflight with scientific discovery.” Astronomer Nancy Grace Roman joined Nasa in 1959 to become Nasa’s first chief of astronomy, he noted, building the space agency’s astronomy program from scratch and bringing scientists into the Nasa fold as well as pilots and engineers. Roman, who passed away in 2018, was instrumental in developing the Hubble Space Telescope, and is sometimes known as the “Mother of Hubble.” The James Webb Space Telescope, which will soon celebrate the one-year anniversary of its launch on 25 December 2021, is part of that scientific legacy at Nasa. It would be a mistake to think that Nasa, as it exists today, is an organization with purely spaceflight and scientific programs. Instead, exploration, scientific investigation and human adventure exist hand in hand, according to Dr Odom. This can be seen in Nasa’s Mars program, which involves robotic missions today, but could see human missions sometime in the 2040s. “Think about the Curiosity and Perseverance rovers on Mars today,” he said. “Which bucket do they fall into? That’s not human spaceflight, but it is building a platform on which human space exploration will build one day.”