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The Dirigible Hanger at Moffett Field

The Dirigible Hanger at Moffett Field

This is a view of the huge dirigible hangar with doors open at both ends at the NASA Ames Reserach Center, Moffett Field, California. Lockheed Missiles and Space Company under contract to the NASA-Marshall Spac... More

Compressor Stage in the 8- by 6-Foot Supersonic Wind Tunnel

Compressor Stage in the 8- by 6-Foot Supersonic Wind Tunnel

A technician at the National Advisory Committee for Aeronautics (NACA) Lewis Flight Propulsion Laboratory examines one of the massive axial-flow compressor stages that created the high-speed air flow through th... More

Wernher von Braun, NASA history collection

Wernher von Braun, NASA history collection

Dr. von Braun stands beside a model of the upper stage (Earth-returnable stage) of the three-stage launch vehicle built for the series of the motion picture productions of space flight produced by Walt Disney i... More

Early Rockets, NASA history collection

Early Rockets, NASA history collection

Bumper Wac liftoff at the Long Range Proving Ground located at Cape Canaveral, Florida. At White Sands, New Mexico, the German rocket team experimented with a two-stage rocket called Bumper Wac, which intended ... More

Five Stage Missile Research Rocket, Wallops Island , 1957

Five Stage Missile Research Rocket, Wallops Island , 1957

**Note also copied and numbered as L90-3749. -- L57-4827 caption: Take off of a five-stage missile research rocket from Wallops Island in 1957. The first two stages propelled the model to about 100,000 feet ... More

Jupiter-C, the first American Satellite, Explorer 1 launcher

Jupiter-C, the first American Satellite, Explorer 1 launcher

This illustration shows the main characteristics of the Jupiter C launch vehicle and its payload, the Explorer I satellite. The Jupiter C, America's first successful space vehicle, launched the free world's fir... More

CAPE CANAVERAL, Fla. - Ares IX upper stage segments’ ballast assemblies are positioned along the floor of high bay 4 in the Vehicle Assembly Building at NASA’s Kennedy Space Center, part of the preparations for the test of the Ares IX rocket. These ballast assemblies will be installed in the upper stage 1 and 7 segments and will mimic the mass of the fuel. Their total weight is approximately 160,000 pounds. The test launch of the Ares IX in 2009 will be the first designed to determine the flight-worthiness of the Ares I rocket. Ares I is an in-line, two-stage rocket that will transport the Orion crew exploration vehicle to low-Earth orbit. The Ares I first stage will be a five-segment solid rocket booster based on the four-segment design used for the space shuttle. Ares I’s fifth booster segment allows the launch vehicle to lift more weight and reach a higher altitude before the first stage separates from the upper stage, which ignites in midflight to propel the Orion spacecraft to Earth orbit. Photo credit: NASA/Kim Shiflett KSC-08pd3248

CAPE CANAVERAL, Fla. - Ares IX upper stage segments’ ballast assemblie...

CAPE CANAVERAL, Fla. - Ares IX upper stage segments’ ballast assemblies are positioned along the floor of high bay 4 in the Vehicle Assembly Building at NASA’s Kennedy Space Center, part of the preparations for... More

CAPE CANAVERAL, Fla. -- In Firing Room No. 1 in the Launch Control Center at NASA's Kennedy Space Center, the number of new equipment cabinets increases as workers put the elements together. The firing room will support the future Ares rocket launches as part of the Constellation Program. Future astronauts will ride to orbit on Ares I, which uses a single five-segment solid rocket booster, a derivative of the space shuttle's solid rocket booster, for the first stage. Ares will be launched from Pad 39B, which is being reconfigured from supporting space shuttle launches. The Launch Control Center firing rooms face the launch pads. Photo credit: NASA/Kim Shiflett KSC-08pd1095

CAPE CANAVERAL, Fla. -- In Firing Room No. 1 in the Launch Control Cen...

CAPE CANAVERAL, Fla. -- In Firing Room No. 1 in the Launch Control Center at NASA's Kennedy Space Center, the number of new equipment cabinets increases as workers put the elements together. The firing room wi... More

CAPE CANAVERAL, Fla. – Technicians in the Payload Hazardous Servicing Facility remove the protective cover from the Wide Field Camera 3, or WFC3. The WFC3 is part of the payload on space shuttle Atlantis for the fifth and final Hubble servicing mission, STS-125. As Hubble enters the last stage of its life, WFC3 will be Hubble's next evolutionary step, allowing Hubble to peer ever further into the mysteries of the cosmos. WFC3 will study a diverse range of objects and phenomena, from young and extremely distant galaxies, to much more nearby stellar systems, to objects within our very own solar system. WFC3 will take the place of Wide Field Planetary Camera 2, which astronauts will bring back to Earth aboard the shuttle. Launch of Atlantis is targeted at 1:34 a.m. EDT Oct. 8. Photo credit: NASA/Jack Pfaller KSC-08pd2450

CAPE CANAVERAL, Fla. – Technicians in the Payload Hazardous Servicin...

CAPE CANAVERAL, Fla. – Technicians in the Payload Hazardous Servicing Facility remove the protective cover from the Wide Field Camera 3, or WFC3. The WFC3 is part of the payload on space shuttle Atlantis for... More

CAPE CANAVERAL, Fla. – The first stage ignited on NASA’s Ares I-X test rocket at Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. The rocket produces 2.96 million pounds of thrust at liftoff and reaches a speed of 100 mph in eight seconds. This was the first launch from Kennedy's pads of a vehicle other than the space shuttle since the Apollo Program's Saturn rockets were retired. The parts used to make the Ares I-X booster flew on 30 different shuttle missions ranging from STS-29 in 1989 to STS-106 in 2000. The data returned from more than 700 sensors throughout the rocket will be used to refine the design of future launch vehicles and bring NASA one step closer to reaching its exploration goals. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Sandra Joseph and Kevin O'Connell KSC-2009-5987

CAPE CANAVERAL, Fla. – The first stage ignited on NASA’s Ares I-X test...

CAPE CANAVERAL, Fla. – The first stage ignited on NASA’s Ares I-X test rocket at Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. The rocket produces 2.96 million pounds of... More

Under the goals of the Vision for Space Exploration, Ares I is a chief component of the cost-effective space transportation infrastructure being developed by NASA's Constellation Program. This transportation system will safely and reliably carry human explorers back to the moon, and then onward to Mars and other destinations in the solar system. The Ares I effort includes multiple project element teams at NASA centers and contract organizations around the nation, and is managed by the Exploration Launch Projects Office at NASA's Marshall Space Flight Center (MFSC). ATK Launch Systems near Brigham City, Utah, is the prime contractor for the first stage booster. ATK's subcontractor, United Space Alliance of Houston, is designing, developing and testing the parachutes at its facilities at NASA's Kennedy Space Center in Florida. NASA's Johnson Space Center in Houston hosts the Constellation Program and Orion Crew Capsule Project Office and provides test instrumentation and support personnel. Together, these teams are developing vehicle hardware, evolving proven technologies, and testing components and systems. Their work builds on powerful, reliable space shuttle propulsion elements and nearly a half-century of NASA space flight experience and technological advances. Ares I is an inline, two-stage rocket configuration topped by the Crew Exploration Vehicle, its service module, and a launch abort system. This HD video image depicts friction stir welding used in manufacturing aluminum panels that will fabricate the Ares I upper stage barrel. The aluminum panels are subjected to confidence panel tests during which the bent aluminum is stressed to breaking point and thoroughly examined. The panels are manufactured by AMRO Manufacturing located in El Monte, California. (Highest resolution available) n/a

Under the goals of the Vision for Space Exploration, Ares I is a chief...

Under the goals of the Vision for Space Exploration, Ares I is a chief component of the cost-effective space transportation infrastructure being developed by NASA's Constellation Program. This transportation sy... More

CAPE CANAVERAL, Fla. -- Space shuttle Discovery is attached to Launch Pad 39A as the sun rises over NASA's Kennedy Space Center in Florida. It took the spacecraft about six hours to make the journey, known as "rollout," from the Vehicle Assembly Building to the pad. Rollout sets the stage for Discovery's STS-133 crew to practice countdown and launch procedures during the Terminal Countdown Demonstration Test in mid-October. Targeted to liftoff Nov. 1, Discovery will take the Permanent Multipurpose Module (PMM) packed with supplies and critical spare parts, as well as Robonaut 2 (R2) to the International Space Station. Photo credit: NASA/Jack Pfaller KSC-2010-4736

CAPE CANAVERAL, Fla. -- Space shuttle Discovery is attached to Launch ...

CAPE CANAVERAL, Fla. -- Space shuttle Discovery is attached to Launch Pad 39A as the sun rises over NASA's Kennedy Space Center in Florida. It took the spacecraft about six hours to make the journey, known as "... More

CAPE CANAVERAL, Fla. – In the Parachute Refurbishment Facility at NASA's Kennedy Space Center, parachutes for the Ares rockets are being prepared for packing. Ares I is an in-line, two-stage rocket that will transport the Orion crew exploration vehicle to low-Earth orbit. The Ares I first stage will be a five-segment solid rocket booster based on the four-segment design used for the shuttle. As with the shuttle, this booster will fall away when spent, lowered by parachute into the Atlantic Ocean where it can be retrieved for re-use. Unlike the shuttle, the booster will be flying faster, at Mach 6, when its separation from the rest of Ares I occurs. Photo credit: NASA/Jack Pfaller KSC-08pd1801

CAPE CANAVERAL, Fla. – In the Parachute Refurbishment Facility at N...

CAPE CANAVERAL, Fla. – In the Parachute Refurbishment Facility at NASA's Kennedy Space Center, parachutes for the Ares rockets are being prepared for packing. Ares I is an in-line, two-stage rocket that wil... More

Saturn Apollo Program - The J-2 engine for Saturn V S-IVB

Saturn Apollo Program - The J-2 engine for Saturn V S-IVB

The J-2 engine for Saturn V S-IVB (third) stage blasted from the test stand at Douglas Aircraft Co., Sacramento Test Operation (SACTO) facility in California. This third stage was used on the unmarned Saturn V ... More

Saturn I RL-10 engine - Saturn Apollo Program

Saturn I RL-10 engine - Saturn Apollo Program

RL-10 engine characteristics. The RL-10 engine was developed under the management of the Marshall Space Flight Center (MSFC) to power the Saturn I upper stage (S-IV stage). The six RL-10 engines, which used liq... More

Saturn V J-2 engine - Saturn Apollo Program

Saturn V J-2 engine - Saturn Apollo Program

This chart is an illustration of J-2 Engine characteristics. A cluster of five J-2 engines powered the Saturn V S-II (second) stage with each engine providing a thrust of 200,000 pounds. A single J-2 engine pow... More

Saturn I - testing of the Saturn I S-I (first) stage - Saturn Apollo Program

Saturn I - testing of the Saturn I S-I (first) stage - Saturn Apollo P...

Pictured is one of the earliest testing of the Saturn I S-I (first) stage, with a cluster of eight H-1 engines, at the Marshall Space Flight Center (MSFC). It was a part of the test program to prove out the clu... More

CAPE CANAVERAL, Fla. – NASA's Ares I-X test rocket ignites its first stage at Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. The Constellation Program's 327-foot-tall rocket produces 2.96 million pounds of thrust at liftoff and reaches a speed of 100 mph in eight seconds. This was the first launch from Kennedy's pads of a vehicle other than the space shuttle since the Apollo Program's Saturn rockets were retired. The parts used to make the Ares I-X booster flew on 30 different shuttle missions ranging from STS-29 in 1989 to STS-106 in 2000. The data returned from more than 700 sensors throughout the rocket will be used to refine the design of future launch vehicles and bring NASA one step closer to reaching its exploration goals. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/ George Roberts and Tony Gray KSC-2009-5968

CAPE CANAVERAL, Fla. – NASA's Ares I-X test rocket ignites its first s...

CAPE CANAVERAL, Fla. – NASA's Ares I-X test rocket ignites its first stage at Launch Pad 39B at NASA's Kennedy Space Center in Florida at 11:30 a.m. EDT on Oct. 28. The Constellation Program's 327-foot-tall roc... More

CAPE CANAVERAL, Fla. -- Workers unload a container holding the cruise stage, one of the first three elements for NASA's Mars Science Laboratory (MSL) that arrived at NASA Kennedy Space Center's Shuttle Landing Facility aboard an Air Force C-17 cargo plane. The cruise stage, back shell and heat shield, the first flight elements to arrive for the MSL mission, were taken to the Payload Hazardous Servicing Facility (PHSF) located in the KSC Industrial Area to begin processing. The Curiosity rover will arrive next month. A United Launch Alliance Atlas V-541 configuration will be used to loft MSL into space. Curiosity’s 10 science instruments are designed to search for evidence on whether Mars has had environments favorable to microbial life, including chemical ingredients for life. The unique rover will use a laser to look inside rocks and release its gasses so that the rover’s spectrometer can analyze and send the data back to Earth. MSL is scheduled to launch from Cape Canaveral Air Force Station in Florida Nov. 25 with a window extending to Dec. 18 and arrival at Mars Aug. 2012. For more information, visit http://www.nasa.gov/msl. Photo credit: NASA/Troy Cryder KSC-2011-3510

CAPE CANAVERAL, Fla. -- Workers unload a container holding the cruise ...

CAPE CANAVERAL, Fla. -- Workers unload a container holding the cruise stage, one of the first three elements for NASA's Mars Science Laboratory (MSL) that arrived at NASA Kennedy Space Center's Shuttle Landing ... More

CAPE CANAVERAL, Fla. – At Hangar AF on Cape Canaveral Air Force Station in Florida, workers prepare to inspect the spent first stage of NASA's Ares I-X rocket, secured in a slip. The booster was recovered by the solid rocket booster recovery ship Freedom Star after it splashed down in the Atlantic Ocean following its flight test. Liftoff of the 6-minute flight test was at 11:30 a.m. EDT Oct. 28. This was the first launch from Kennedy's pads of a vehicle other than the space shuttle since the Apollo Program's Saturn rockets were retired. The parts used to make the Ares I-X booster flew on 30 different shuttle missions ranging from STS-29 in 1989 to STS-106 in 2000. The data returned from more than 700 sensors throughout the rocket will be used to refine the design of future launch vehicles and bring NASA one step closer to reaching its exploration goals. For information on the Ares I-X vehicle and flight test, visit http://www.nasa.gov/aresIX. Photo credit: NASA/Kim Shiflett KSC-2009-6031

CAPE CANAVERAL, Fla. – At Hangar AF on Cape Canaveral Air Force Statio...

CAPE CANAVERAL, Fla. – At Hangar AF on Cape Canaveral Air Force Station in Florida, workers prepare to inspect the spent first stage of NASA's Ares I-X rocket, secured in a slip. The booster was recovered by t... More

Saturn I - Saturn Apollo Program - the first stage of the Saturn I

Saturn I - Saturn Apollo Program - the first stage of the Saturn I

This cutaway illustrates the S-I stage, the first stage of the Saturn I vehicle developed by the Marshall Space Flight Center (MSFC). The stage was propelled by a cluster of eight H-1 engines, capable of produc... More

Centaur Rocket Installation in PSL #1

Centaur Rocket Installation in PSL #1

Centaur Rocket Installation in PSL - Propulsion Systems Laboratory #1. The RL-10 Rocket was developed by Pratt and Whitney in the late 1950's and tested at the Lewis Research Center (now known as the John H. Gl... More

Saturn V first stage - Saturn Apollo Program

Saturn V first stage - Saturn Apollo Program

This photograph shows a Saturn V first stage (S-1C). This stage was assembled at the Manufacturing Engineering Laboratory at NASA's Marshall Space Flight Center. With assistance by the Boeing Company, the manuf... More

The Mars Odyssey spacecraft is removed from the Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. Mars Odyssey will be moved on a transport trailer from KSC’s Shuttle Landing Facility to the Spacecraft Assembly and Encapsulation Facility 2 (SAEF-2) located in the KSC Industrial Area. In the SAEF it will undergo final assembly and checkout. This includes installation of two of the three science instruments, integration of the three-panel solar array, and a spacecraft functional test. It will be fueled and then mated to an upper stage booster, the final activities before going to the launch pad. Launch is planned for April 7, 2001 the first day of a 21-day planetary window. Mars Odyssey will be inserted into an interplanetary trajectory by a Boeing Delta II launch vehicle from Pad A at Complex 17 at the Cape Canaveral Air Force Station, Fla. The spacecraft will arrive at Mars on Oct. 20, 2001, for insertion into an initial elliptical capture orbit. Its final operational altitude will be a 250-mile-high, Sun-synchronous polar orbit. Mars Odyssey will spend two years mapping the planet's surface and measuring its environment KSC01pp0033

The Mars Odyssey spacecraft is removed from the Air Force C-17 cargo a...

The Mars Odyssey spacecraft is removed from the Air Force C-17 cargo airplane that brought it from Denver, Colo.., location of the Lockheed Martin plant where the spacecraft was built. Mars Odyssey will be move... More

KENNEDY SPACE CENTER, FLA. -- In the hypergolic maintenance facility at NASA's Kennedy Space Center, a technician monitors equipment during testing of the Ares I-X Roll Control System, or RoCS. The RoCS Servicing Simulation Test is to gather data that will be used to help certify the ground support equipment design and validate the servicing requirements and processes. The RoCS is part of the Interstage structure, the lowest axial segment of the Upper Stage Simulator. In an effort to reduce costs and meet the schedule, most of the ground support equipment that will be used for the RoCS servicing is of space shuttle heritage. This high-fidelity servicing simulation will provide confidence that servicing requirements can be met with the heritage system. At the same time, the test will gather process data that will be used to modify or refine the equipment and processes to be used for the actual flight element. Photo credit: NASA/Kim Shiflett KSC-08pd0085

KENNEDY SPACE CENTER, FLA. -- In the hypergolic maintenance facility...

KENNEDY SPACE CENTER, FLA. -- In the hypergolic maintenance facility at NASA's Kennedy Space Center, a technician monitors equipment during testing of the Ares I-X Roll Control System, or RoCS. The RoCS Serv... More

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, testing of the Tilt-Up Umbilical Arm (TUUA) prototype's Environmental Control System Quick Disconnect takes place in the Launch Equipment Test Facility's 6,000-square-foot high bay. The prototype is used to demonstrate the safe disconnect and retraction of ground umbilical plates and associated hardware of a launch vehicle's upper stage and service module. The Environmental Control System consists of regulated air, which would be used to purge an inner tank and crew module. Since 1977, the facility has supported NASA’s Launch Services, shuttle, International Space Station, and Constellation programs, as well as commercial providers. The facility recently underwent a major upgrade to support even more programs, projects and customers. It houses a cable fabrication and molding shop, pneumatics shop, machine and weld shop and full-scale control room. Outside, the facility features a water flow test loop, vehicle motion simulator, 600-ton test fixture, launch simulation towers and a cryogenic system. Photo credit: NASA/Jack Pfaller KSC-2010-5293

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, tes...

CAPE CANAVERAL, Fla. -- At NASA's Kennedy Space Center in Florida, testing of the Tilt-Up Umbilical Arm (TUUA) prototype's Environmental Control System Quick Disconnect takes place in the Launch Equipment Test ... More

At Launch Pad 36A, Cape Canaveral Air Force Station, lines help guide the ascent of a Centaur rocket up the launch tower where it will be mated with the lower stage Atlas IIA rocket already in the tower. The Lockheed-built Atlas IIA/Centaur rocket will launch the latest Tracking and Data Relay Satellite (TDRS) June 29 from CCAFS. The TDRS is one of three (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif. The new satellites will augment the TDRS system’s existing Sand Ku-band frequencies by adding Ka-band capability. TDRS will serve as the sole means of continuous, high-data-rate communication with the space shuttle, with the International Space Station upon its completion, and with dozens of unmanned scientific satellites in low earth orbit KSC-00pp0704

At Launch Pad 36A, Cape Canaveral Air Force Station, lines help guide ...

At Launch Pad 36A, Cape Canaveral Air Force Station, lines help guide the ascent of a Centaur rocket up the launch tower where it will be mated with the lower stage Atlas IIA rocket already in the tower. The Lo... More

CAPE CANAVERAL, Fla. -- Bathed in bright xenon lights, space shuttle Discovery makes its nighttime trek, known as "rollout," from the Vehicle Assembly Building to Launch Pad 39A at NASA's Kennedy Space Center in Florida. It will take the shuttle, attached to its external fuel tank, twin solid rocket boosters and mobile launcher platform, about six hours to complete the move atop a crawler-transporter. Rollout sets the stage for Discovery's STS-133 crew to practice countdown and launch procedures during the Terminal Countdown Demonstration Test in mid-October. Targeted to liftoff Nov. 1, Discovery will take the Permanent Multipurpose Module (PMM) packed with supplies and critical spare parts, as well as Robonaut 2 (R2) to the International Space Station. Photo credit: NASA/Jim Grossmann KSC-2010-4709

CAPE CANAVERAL, Fla. -- Bathed in bright xenon lights, space shuttle D...

CAPE CANAVERAL, Fla. -- Bathed in bright xenon lights, space shuttle Discovery makes its nighttime trek, known as "rollout," from the Vehicle Assembly Building to Launch Pad 39A at NASA's Kennedy Space Center i... More

Centaur Rocket Engine, NASA Glenn Research Center

Centaur Rocket Engine, NASA Glenn Research Center

The Centaur upper stage rocket being developed in the 1960s at the Propulsion Systems Laboratory at Lewis Research Center, now John H. Glenn Research Center. The Centaur was an ambitious rocket using liquid oxy... More

CAPE CANAVERAL, Fla. -- Shuttle Atlantis' three main engines take center stage in this image as Atlantis is being moved to the Vehicle Assembly Building (VAB) from Orbiter Processing Faciity-1 at NASA's Kennedy Space Center in Florida. The move called "rollover" is a major milestone in processing for the STS-135 mission to the International Space Station. Inside the VAB, the shuttle will be attached to its external fuel tank and solid rocket boosters. Commander Chris Ferguson, Pilot Doug Hurley and Mission Specialists Sandra Magnus and Rex Walheim are targeted to launch in early July, taking with them the Raffaello multipurpose logistics module packed with supplies, logistics and spare parts. The STS-135 mission also will fly a system to investigate the potential for robotically refueling existing spacecraft and return a failed ammonia pump module to help NASA better understand the failure mechanism and improve pump designs for future systems. STS-135 will be the 33rd flight of Atlantis, the 37th shuttle mission to the space station, and the 135th and final mission of NASA's Space Shuttle Program. For more information visit, www.nasa.gov/mission_pages/shuttle/shuttlemissions/sts135/index.html. Photo credit: NASA/Frankie Martin KSC-2011-3657

CAPE CANAVERAL, Fla. -- Shuttle Atlantis' three main engines take cent...

CAPE CANAVERAL, Fla. -- Shuttle Atlantis' three main engines take center stage in this image as Atlantis is being moved to the Vehicle Assembly Building (VAB) from Orbiter Processing Faciity-1 at NASA's Kennedy... More

CAPE CANAVERAL, Fla. – After rotation of the Wide Field Camera 3 (background left), or WFC3, in the Payload Hazardous Servicing Facility at NASA's Kennedy Space Center, technicians check the data. The WFC3 will be transferred to the Super Lightweight Interchangeable Carrier. WFC3 is part of the payload on space shuttle Atlantis' STS-125 mission for the fifth and final Hubble servicing flight to NASA's Hubble Space Telescope. The curved edge shown at top is the radiator, the "outside" of WFC3 that will be exposed to space and will expel heat out of Hubble and into space through black body radiation. As Hubble enters the last stage of its life, WFC3 will be Hubble's next evolutionary step, allowing Hubble to peer ever further into the mysteries of the cosmos. WFC3 will study a diverse range of objects and phenomena, from young and extremely distant galaxies, to much more nearby stellar systems, to objects within our very own solar system. WFC3 will take the place of Wide Field Planetary Camera 2, which astronauts will bring back to Earth aboard the shuttle. Launch of Atlantis is targeted at 1:34 a.m. EDT Oct. 8. Photo credit: NASA/Amanda Diller KSC-08pd2467

CAPE CANAVERAL, Fla. – After rotation of the Wide Field Camera 3 (bac...

CAPE CANAVERAL, Fla. – After rotation of the Wide Field Camera 3 (background left), or WFC3, in the Payload Hazardous Servicing Facility at NASA's Kennedy Space Center, technicians check the data. The WFC3 wi... More

The static firing of a Saturn F-1 engine at the Marshall Space Flight Center's Static Test Stand. The F-1 engine is a single-start, 1,5000,000 Lb fixed-thrust, bipropellant rocket system. The engine uses liquid oxygen as the oxidizer and RP-1 (kerosene) as fuel. The five-engine cluster used on the first stage of the Saturn V produces 7,500,000 lbs of thrust. n/a

The static firing of a Saturn F-1 engine at the Marshall Space Flight ...

The static firing of a Saturn F-1 engine at the Marshall Space Flight Center's Static Test Stand. The F-1 engine is a single-start, 1,5000,000 Lb fixed-thrust, bipropellant rocket system. The engine uses liqui... More

Saturn Apollo Program. NASA public domain image colelction.

Saturn Apollo Program. NASA public domain image colelction.

On October 27, 1961, the Marshall Space Flight Center (MSFC) and the Nation marked a high point in the 3-year-old Saturn development program when the first Saturn vehicle flew a flawless 215-mile ballistic traj... More

Saturn I - Saturn Apollo Program

Saturn I - Saturn Apollo Program

The second flight of the Saturn I vehicle, the SA-2, was successfully launched from Cape Canaveral, Florida on April 15, 1962. This vehicle had a secondary mission. After the first stage shutoff, at a 65-mile a... More

Saturn I - Saturn Apollo Program

Saturn I - Saturn Apollo Program

The Saturn I (SA-3) flight lifted off from Kennedy Space Center launch Complex 34, November 16, 1962. The third launch of Saturn launch vehicles, developed at the Marshall Space Flight Center (MSFC) under the d... More

Saturn V F-1 Engine - Saturn Apollo Program

Saturn V F-1 Engine - Saturn Apollo Program

A close-up view of the F-1 Engine for the Saturn V S-IC (first) stage depicts the complexity of the engine. Developed by Rocketdyne under the direction of the Marshall Space Flight Center, the F-1 engine was ut... More

Saturn Apollo Program - working on a mock up of the S-IC thrust structure

Saturn Apollo Program - working on a mock up of the S-IC thrust struct...

This photograph depicts Marshall Space Flight Center employees, James Reagin, machinist (top); Floyd McGinnis, machinist; and Ernest Davis, experimental test mechanic (foreground), working on a mock up of the S... More

The Saturn I (SA-4) flight lifted off from Kennedy Space Center launch Complex 34, March 28, 1963. The fourth launch of Saturn launch vehicles, developed at the Marshall Space Flight Center (MSFC) under the direction of Dr. Wernher von Braun, incorporated a Saturn I, Block I engine. The typical height of a Block I vehicle was approximately 163 feet and had only one live stage. It consisted of eight tanks, each 70 inches in diameter, clustered around a central tank, 105 inches in diameter. Four of the external tanks were fuel tanks for the RP-1 (kerosene) fuel. The other four, spaced alternately with the fuel tanks, were liquid oxygen tanks as was the large center tank. All fuel tanks and liquid oxygen tanks drained at the same rates respectively. The thrust for the stage came from eight H-1 engines, each producing a thrust of 165,000 pounds, for a total thrust of over 1,300,000 pounds. The engines were arranged in a double pattern. Four engines, located inboard, were fixed in a square pattern around the stage axis and canted outward slightly, while the remaining four engines were located outboard in a larger square pattern offset 40 degrees from the inner pattern. Unlike the inner engines, each outer engine was gimbaled. That is, each could be swung through an arc. They were gimbaled as a means of steering the rocket, by letting the instrumentation of the rocket correct any deviations of its powered trajectory. The block I required engine gimabling as the only method of guiding and stabilizing the rocket through the lower atmosphere. The upper stages of the Block I rocket reflected the three-stage configuration of the Saturn I vehicle. Like SA-3, the SA-4 flight’s upper stage ejected 113,560 liters (30,000 gallons) of ballast water in the upper atmosphere for "Project Highwater" physics experiment. Release of this vast quantity of water in a near-space environment marked the second purely scientific large-scale experiment. The SA-4 was the last Block I rocket launch. n/a

The Saturn I (SA-4) flight lifted off from Kennedy Space Center launch...

The Saturn I (SA-4) flight lifted off from Kennedy Space Center launch Complex 34, March 28, 1963. The fourth launch of Saturn launch vehicles, developed at the Marshall Space Flight Center (MSFC) under the dir... More

The Saturn I (SA-4) flight lifted off from Kennedy Space Center launch Complex 34, March 28, 1963. The fourth launch of Saturn launch vehicles developed at the Marshall Space Flight Center (MSFC), under the direction of Dr. Wernher von Braun, incorporated a Saturn I, Block I engine. The typical height of a Block I vehicle was approximately 163 feet and had only one live stage. It consisted of eight tanks, each 70 inches in diameter, clustered around a central tank, 105 inches in diameter. Four of the external tanks were fuel tanks for the RP-1 (kerosene) fuel. The other four, spaced alternately with the fuel tanks, were liquid oxygen tanks as was the large center tank. All fuel tanks and liquid oxygen tanks drained at the same rates respectively. The thrust for the stage came from eight H-1 engines, each producing a thrust of 165,000 pounds, for a total thrust of over 1,300,000 pounds. The engines were arranged in a double pattern. Four engines, located inboard, were fixed in a square pattern around the stage axis and canted outward slightly, while the remaining four engines were located outboard in a larger square pattern offset 40 degrees from the inner pattern. Unlike the inner engines, each outer engine was gimbaled. That is, each could be swung through an arc. They were gimbaled as a means of steering the rocket, by letting the instrumentation of the rocket correct any deviations of its powered trajectory. The block I required engine gimabling as the only method of guiding and stabilizing the rocket through the lower atmosphere. The upper stages of the Block I rocket reflected the three-stage configuration of the Saturn I vehicle. Like SA-3, the SA-4 flight’s upper stage ejected 113,560 liters (30,000 gallons) of ballast water in the upper atmosphere for "Project Highwater" physics experiment. Release of this vast quantity of water in a near-space environment marked the second purely scientific large-scale experiment. The SA-4 was the last Block I rocket launch. n/a

The Saturn I (SA-4) flight lifted off from Kennedy Space Center launch...

The Saturn I (SA-4) flight lifted off from Kennedy Space Center launch Complex 34, March 28, 1963. The fourth launch of Saturn launch vehicles developed at the Marshall Space Flight Center (MSFC), under the dir... More

Saturn Apollo Program, Apollo program Saturn V rocket images

Saturn Apollo Program, Apollo program Saturn V rocket images

The test laboratory of the Marshall Space Flight Center (MSFC) tested the F-1 engine, the most powerful rocket engine ever fired at MSFC. The engine was tested on the newly modified Saturn IB static test stand ... More

Saturn Apollo Program, Apollo program Saturn V rocket images

Saturn Apollo Program, Apollo program Saturn V rocket images

The test laboratory of the Marshall Space Flight Center (MSFC) tested the F-1 engine, the most powerful rocket engine ever fired at MSFC. The engine was tested on the newly modified Saturn IB Static Test Stand ... More

Saturn V - Saturn Apollo Program

Saturn V - Saturn Apollo Program

This close-up view of the F-1 engine for the Saturn V S-IC (first) stage shows the engine's complexity, and also its large size as it dwarfs the technician. Developed by Rocketdyne, under the direction of the M... More

The launch of the SA-5 - Saturn I - Saturn Apollo Program

The launch of the SA-5 - Saturn I - Saturn Apollo Program

The launch of the SA-5 on January 29, 1964 was the fifth Saturn I launch vehicle. The SA-5 marked a number of firsts in the Marshall Space Flight Center-managed Saturn development program, including the first f... More

Saturn V SII (2nd Stage) - Saturn Apollo Program

Saturn V SII (2nd Stage) - Saturn Apollo Program

This illustration, with callouts, is of the Saturn V SII (2nd Stage) developed by the Space Division of North American Aviation under the direction of the Marshall Space Flight Center. The 82-foot-long and 33-f... More

Saturn V fuel tank assembly - Saturn Apollo Program

Saturn V fuel tank assembly - Saturn Apollo Program

At the Marshall Space Flight Center (MSFC), the fuel tank assembly for the Saturn V S-IC-T (static test stage) fuel tank assembly is mated to the liquid oxygen (LOX) tank in building 4705. This stage underwent ... More

Saturn V - Saturn Apollo Program

Saturn V - Saturn Apollo Program

This photograph shows how the fuel tank assembly and the liquid oxygen tank for the Saturn V S-IC (first) stage are placed side by side prior to commencement of the mating of the two stages in the Marshall Spac... More

Saturn V fuel tank assembly for the Saturn V S-IC - Saturn Apollo Program

Saturn V fuel tank assembly for the Saturn V S-IC - Saturn Apollo Prog...

The fuel tank assembly for the Saturn V S-IC (first) stage arrived at the Marshall Space Flight Center, building 4707, for mating to the liquid oxygen tank. The fuel tank carried kerosene as its fuel. The S-IC ... More

Saturn V fuel tank assembly - Saturn Apollo Program

Saturn V fuel tank assembly - Saturn Apollo Program

The fuel tank assembly of the Saturn V S-IC (first) stage is readied to be mated to the liquid oxygen tank at the Marshall Space Flight Center. The fuel tank carried kerosene as its fuel. The S-IC stage utilize... More

Saturn V fuel tank assembly - Saturn Apollo Program

Saturn V fuel tank assembly - Saturn Apollo Program

The fuel tank assembly of the Saturn V S-IC (first) stage supported with the aid of a C frame on the transporter was readied to be transported to the Marshall Space Flight Center, building 4705. The fuel tank c... More

Saturn V fuel tank assembly - Saturn Apollo Program

Saturn V fuel tank assembly - Saturn Apollo Program

This photograph shows the fuel tank assembly for the Saturn V S-IC (first) stage being transported to the Marshall Space Flight Center, building 4705 for mating to the liquid oxygen (LOX) tank. The fuel tank ca... More

Saturn V static testing - Saturn Apollo Program

Saturn V static testing - Saturn Apollo Program

The Saturn V first stages were test fired at the Mississippi Test Facility and at the Marshall Space Flight Center (MSFC). Five F-1 engines powered the first stage, each developing 1.5 million pounds of thrust.... More

Saturn V F-I engine - Saturn Apollo Program

Saturn V F-I engine - Saturn Apollo Program

Engineers and technicians at the Marshall Space Flight Center were installing an F-I engine on the Saturn V S-IC (first) stage thrust structure in building 4705. The S-IC (first) stage used five F-1 engines tha... More

Saturn V static testing stage - Saturn Apollo Program

Saturn V static testing stage - Saturn Apollo Program

Pictured is the Saturn V S-IC-T stage (static testing stage) being assembled in the horizontal assembly station at the Marshall Space Flight Center (MSFC), building 4705. This stage underwent numerous static fi... More

Saturn V S-IC-T stage - Saturn Apollo Program

Saturn V S-IC-T stage - Saturn Apollo Program

The S-IC-T stage was hoisted into the S-IC Static Test Stand at the Marshall Space Flight Center. The S-IC-T stage was a static test vehicle, not intended for flight. It was ground tested repeatedly over a peri... More

Saturn V F-1 engines - Saturn Apollo Program

Saturn V F-1 engines - Saturn Apollo Program

Engineers at the Marshall Space Flight Center install the F-1 engines on the S-IC stage thrust structure at the S-IC static test stand. Engines are installed on the stage after it has been placed in the test st... More

Saturn V S-IC-T stage (static testing stage)

Saturn V S-IC-T stage (static testing stage)

The Saturn V S-IC-T stage (static testing stage) was enroute from the Manufacturing Engineering Laboratory to the newly-built S-1C Static Test Stand at the Marshall Space Flight Center west test area. Known as ... More

Saturn V F-1 engines - Saturn Apollo Program

Saturn V F-1 engines - Saturn Apollo Program

Engineers at the Marshall Space Flight Center install the F-1 engines on the S-IC stage thrust structure at the S-IC static test stand. Engines are installed on the stage after it has been placed in the test st... More

Saturn V S-IC static test stand - Saturn Apollo Program

Saturn V S-IC static test stand - Saturn Apollo Program

The S-IC-T stage was hoisted into the S-IC static test stand at the Marshall Space Flight Center. The S-IC-T stage was a static test vehicle not intended for flight. It was ground tested repeatedly over a perio... More

Saturn V - Saturn Apollo Program

Saturn V - Saturn Apollo Program

Engineers at the Marshall Space Flight Center install the F-1 engines on the S-IC stage thrust structure at the S-IC static test stand. Engines are installed on the stage after it has been placed in the test st... More

Saturn V - moving the Saturn V S-IC (First) stage liquid oxygen (LOX) tank

Saturn V - moving the Saturn V S-IC (First) stage liquid oxygen (LOX) ...

This photograph depicts engineers and technicians moving the Saturn V S-IC (First) stage liquid oxygen (LOX) tank from the Manufacturing Engineering Laboratory for load testing under simulated firing loads at t... More

Saturn V - S-IC-T stage is hoisted into the S-IC static test stand

Saturn V - S-IC-T stage is hoisted into the S-IC static test stand

The S-IC-T stage is hoisted into the S-IC static test stand at the Marshall Space Flight Center. The S-IC-T stage is a static test vehicle not intended for flight. It was ground tested repeatedly over a period ... More

Saturn Apollo Program J-2 engine

Saturn Apollo Program J-2 engine

Pictured is a J-2 engine being processed at Marshall Space Flight Center (MSFC). A single J-2 engine was utilized on the S-IVB stage, the second stage of the Saturn IB and the third stage of the Saturn V vehicl... More

Saturn Apollo Program J-2 engine

Saturn Apollo Program J-2 engine

Pictured is a J-2 engine being processed at Marshall Space Flight Center (MSFC). A single J-2 engine was utilized on the S-IVB stage, the second stage of the Saturn IB and the third stage of the Saturn V vehicl... More

Saturn V - S-IC-T stage (static firing stage)

Saturn V - S-IC-T stage (static firing stage)

The S-IC-T stage (static firing stage) is installed and awaits the first static firing of all five F-1 engines at the Marshall Space Flight Center S-IC static test stand. Constructed in 1964, the S-IC static te... More

CAPE KENNEDY, Fla. -- At Cape Kennedy Air Force Station in Florida, a thrust augmented improved Delta lifts off with a three hundred eighty five pound geodetic Explorer spacecraft, designated GEOS-A. The spacecraft contains five geodetic instrumentation systems to provide simultaneous measurements that scientists require to establish a more precise model of the Earth's gravitational field, and to map a world coordinate system relating points on, or near the surface to the common center of mass. This will be the first launch for the improved Delta second stage. Photo Credit: NASA KSC-65P-0205

CAPE KENNEDY, Fla. -- At Cape Kennedy Air Force Station in Florida, a ...

CAPE KENNEDY, Fla. -- At Cape Kennedy Air Force Station in Florida, a thrust augmented improved Delta lifts off with a three hundred eighty five pound geodetic Explorer spacecraft, designated GEOS-A. The spacec... More

VANDENBERG AIR FORCE BASE, Calif. -- The first stage of the Delta II rocket that will carry NASA's Aquarius satellite into low Earth orbit is raised onto the launch pad at Vandenberg Air Force Base's Space Launch Complex-2 (SLC-2) in California. While the Delta II rocket is stacked on SLC-2, teams for NASA's Glory spacecraft and Orbital Sciences Taurus XL rocket are in launch preparation mode at Vandenberg's nearby Space Launch Complex 576-E. Scheduled to launch in June, Aquarius' mission will be to provide monthly maps of global changes in sea surface salinity. By measuring ocean salinity from space, Aquarius will provide new insights into how the massive natural exchange of freshwater between the ocean, atmosphere and sea ice influences ocean circulation, weather and climate. Also going up with the satellite are optical and thermal cameras, a microwave radiometer and the SAC-D spacecraft, which were developed with the help of institutions in Italy, France, Canada and Argentina. Photo credit: NASA/VAFB KSC-2011-1966

VANDENBERG AIR FORCE BASE, Calif. -- The first stage of the Delta II r...

VANDENBERG AIR FORCE BASE, Calif. -- The first stage of the Delta II rocket that will carry NASA's Aquarius satellite into low Earth orbit is raised onto the launch pad at Vandenberg Air Force Base's Space Laun... More

APOLLO/SATURN (A/S) 204 - SATURN V THIRD STAGE(S-IVB) ARRIVAL - BARGE PROMISE - CAPE

APOLLO/SATURN (A/S) 204 - SATURN V THIRD STAGE(S-IVB) ARRIVAL - BARGE...

S66-50152 (1966) --- A stage of the uprated Saturn 1 launch vehicle unloaded from NASA barge Promise after arrival at Cape Kennedy. Launch vehicle for Apollo/Saturn 204 mission.

Saturn V S-II (second) stage. NASA public domain image colelction.

Saturn V S-II (second) stage. NASA public domain image colelction.

This cutaway illustration shows the Saturn V S-II (second) stage with callouts of major components. When the Saturn V first stage burns out and drops away, power for the Saturn was provided by the S-II (second)... More

McDornel-Douglas install the Saturn IB S-IVB (second) stage

McDornel-Douglas install the Saturn IB S-IVB (second) stage

Workers at McDornel-Douglas install the Saturn IB S-IVB (second) stage for the Apollo-Soyuz mission into the company's S-IVB assembly and checkout tower in Huntington Beach, California. The Saturn IB launch veh... More

Saturn V S-IVB (third) stage - Saturn Apollo Program

Saturn V S-IVB (third) stage - Saturn Apollo Program

This cutaway illustration shows the Saturn V S-IVB (third) stage with the callouts of its major components. When the S-II (second) stage of the powerful Saturn V rocket burnt out and was separated the remaining... More

Saturn V launch vehicle. NASA Skylab space station

Saturn V launch vehicle. NASA Skylab space station

This is a cutaway illustration of the Saturn V launch vehicle with callouts of the major components. The Saturn V is the largest and most powerful launch vehicle developed in the United States. It was a three s... More

Saturn V S-IC-5 (first) flight stage - Saturn Apollo Program

Saturn V S-IC-5 (first) flight stage - Saturn Apollo Program

This photograph is a view of the Saturn V S-IC (first) test stage being hoisted into the S-IC-B1 test stand at the Mississippi Test Facility (MTF), Bay St. Louis, Mississippi. This stage was used to prove the o... More

AS-209 (Apollo-Soyuz test project backup vehicle)

AS-209 (Apollo-Soyuz test project backup vehicle)

This is a view of the Saturn V S-IVB (third) stage for the AS-209 (Apollo-Soyuz test project backup vehicle) on a transporter in the right foreground, and the S-IVB stage for AS-504 (Apollo 9 mission) being ins... More

Illustration of Saturn V - Saturn Apollo Program

Illustration of Saturn V - Saturn Apollo Program

This illustration shows a cutaway drawing with callouts of the major components for the S-IC (first) stage of the Saturn V launch vehicle. The S-IC stage is 138 feet long and 33 feet in diameter, producing more... More

Saturn V S-II (second) stage being hoisted at the S-II-A2 test stand

Saturn V S-II (second) stage being hoisted at the S-II-A2 test stand

This photograph shows the Saturn V S-II (second) stage being hoisted at the S-II-A2 test stand at the Mississippi Test Facility (MTF). When the Saturn V booster stage (S-IC) burns out and drops away, power for ... More

Saturn VS-II (second) stage - Saturn Apollo Program

Saturn VS-II (second) stage - Saturn Apollo Program

This photograph shows the Saturn V S-II (second) stage of the Apollo 6 mission being lowered atop of the S-IC (first) stage during the final assembly operations in the Vehicle Assembly Building (VAB) at the Ken... More

Saturn IB - Saturn IB S-IVB-206

Saturn IB - Saturn IB S-IVB-206

Workmen remove the Saturn IB S-IVB-206, the second flight stage for the Skylab 2 mission, from the vehicle assembly building at the Kennedy Space Center. Designed and developed by the Marshall Space Flight Cent... More

Saturn V S-IC-5 (first) flight stage - Saturn Apollo Program

Saturn V S-IC-5 (first) flight stage - Saturn Apollo Program

This photograph is a view of the Saturn V S-IC-5 (first) flight stage being hoisted into the S-IC-B1 test stand at the Mississippi Test Facility (MTF), Bay St. Louis, Mississippi. Begirning operations in 1966, ... More

Test firing of the the Saturn V S-II (second) stage

Test firing of the the Saturn V S-II (second) stage

This photograph shows a test firing of the the Saturn V S-II (second) stage at the Mississippi Test Facility's (MTF) S-II test stand. When the Saturn V booster stage (S-IC) burns out and drops away, power for t... More

Saturn V S-IC-5 (first) flight stage being hoisted into the S-IC-B1 test stand

Saturn V S-IC-5 (first) flight stage being hoisted into the S-IC-B1 te...

This photograph is a view of the Saturn V S-IC-5 (first) flight stage being hoisted into the S-IC-B1 test stand at the Mississippi Test Facility (MTF), Bay St. Louis, Mississippi. Begirning operations in 1966, ... More

Saturn V S-IVB (third) stage - Saturn Apollo Program

Saturn V S-IVB (third) stage - Saturn Apollo Program

After the S-II (second) stage dropped away, the S-IVB (third) stage ignited and burned for about two minutes to place itself and the Apollo spacecraft into the desired Earth orbit. At the proper time during thi... More

Test firing of the the Saturn V S-II (second) stage at the Mississippi Test Facility

Test firing of the the Saturn V S-II (second) stage at the Mississippi...

This photograph shows a test firing of the the Saturn V S-II (second) stage at the Mississippi Test Facility's (MTF) S-II test stand. When the Saturn V booster stage (S-IC) burns out and drops away, power for t... More

Saturn V - in inches and meters by the Boeing Company

Saturn V - in inches and meters by the Boeing Company

The Saturn V configuration is shown in inches and meters as illustrated by the Boeing Company. The Saturn V vehicle consisted of three stages: the S-IC (first) stage powered by five F-1 engines, the S-II (secon... More

Saturn V static test - Saturn Apollo Program

Saturn V static test - Saturn Apollo Program

This photograph is a view of the Saturn V S-IC-5 (first) flight stage static test firing at the S-IC-B1 test stand at the Mississippi Test Facility (MTF), Bay St. Louis, Mississippi. Begirning operations in 196... More

Saturn V - S-IC (first) stage of the Saturn V vehicle

Saturn V - S-IC (first) stage of the Saturn V vehicle

This photograph is a view of stacking the major components of the S-IC (first) stage of the Saturn V vehicle at the Boeing vertical assembly building at the Michoud Assembly Facility (MAF). The view shows the S... More

Saturn IB - Saturn Apollo Program - S-IB-211

Saturn IB - Saturn Apollo Program - S-IB-211

S-IB-211, the flight version of the Saturn IB launch vehicle's first (S-IVB) stage, arrives at Marshall Space Flight Center's (MSFC's) S-IB static test stand. Between December 1967 and April 1968, the stage wou... More

Saturn IB - S-IB-211, the flight version of the Saturn IB launch vehicle's first stage

Saturn IB - S-IB-211, the flight version of the Saturn IB launch vehic...

Workmen at the Marshall Space Flight Center's (MSFC's) dock on the Ternessee River unload S-IB-211, the flight version of the Saturn IB launch vehicle's first stage, from the NASA barge Palaemon. Between Decemb... More

S-IB-211, the flight version of the Saturn IB launch vehicle's first stage - Saturn Apollo Program

S-IB-211, the flight version of the Saturn IB launch vehicle's first s...

Workmen at the Marshall Space Flight Center's (MSFC's) dock on the Ternessee River unload S-IB-211, the flight version of the Saturn IB launch vehicle's first stage, from the NASA barge Palaemon. Between Decemb... More

Saturn IB S-IB-211 - Saturn Apollo Program

Saturn IB S-IB-211 - Saturn Apollo Program

S-IB-211, the flight version of the Saturn IB launch vehicle's (S-IVB) first stage, after installation at the Marshall Space Flight Center's (MSFC's) S-IB static test stand. Between December 1967 and April 1968... More

S-IB-211 Saturn IB - Saturn Apollo Program

S-IB-211 Saturn IB - Saturn Apollo Program

S-IB-211, the flight version of the Saturn IB launch vehicle's first (S-IVB) stage, on its way to Marshall Space Flight Center's (MSFC's) west test area. Between December 1967 and April 1968, the stage would un... More

Saturn V instrument unit (IU) - Saturn Apollo Program

Saturn V instrument unit (IU) - Saturn Apollo Program

This is a view of the Saturn V instrument unit (IU) being manufactured in the east high bay at International Business Machines (IBM) in Huntsville, Alabama. IBM is a prime contractor for development and fabrica... More

S-IC (first) stage of the Saturn V - Saturn Apollo Program

S-IC (first) stage of the Saturn V - Saturn Apollo Program

This picture is a view of stacking the major components of the S-IC (first) stage of the Saturn V vehicle at the Boeing vertical assembly building at the Michoud Assembly Facility (MAF). The view shows the fuel... More

S-IC (first) stage of the Saturn V - Saturn Apollo Program

S-IC (first) stage of the Saturn V - Saturn Apollo Program

This picture is a view of stacking the major components of the S-IC (first) stage of the Saturn V vehicle at the Boeing vertical assembly building at the Michoud Assembly Facility (MAF). The view shows the S-IC... More

S-IC (first) stage of the Saturn V - Saturn Apollo Program

S-IC (first) stage of the Saturn V - Saturn Apollo Program

This photograph is a view of stacking the major components of the S-IC (first) stage of the Saturn V vehicle at the Boeing vertical assembly building at the Michoud Assembly Facility (MAF). The view shows placi... More

Saturn 1B S-IB (first) stage - Saturn Apollo Program

Saturn 1B S-IB (first) stage - Saturn Apollo Program

The Saturn 1B S-IB (first) stage being prepared for shipment at Michoud Assembly Facility (MAF), near New Orleans, Louisiana. Developed by the Marshall Space Flight Center and built by the Chrysler Corporation ... More

Saturn V - Saturn V instrument unit (IU)

Saturn V - Saturn V instrument unit (IU)

This view depicts engineers conducting a system test on the Saturn V instrument unit (IU) at International Business Machines (IBM) in Huntsville, Alabama. IBM is a prime contractor for development and fabricati... More

Saturn V S-IVB (third) stage for the Apollo 10 - Saturn Apollo Program

Saturn V S-IVB (third) stage for the Apollo 10 - Saturn Apollo Program

This image depicts the Saturn V S-IVB (third) stage for the Apollo 10 mission being removed from the Beta Test Stand 1 after its acceptance test at the Douglas Aircraft Company's Sacramento Test Operations (SAC... More

Saturn IB - Saturn Apollo Program

Saturn IB - Saturn Apollo Program

This cutaway drawing shows the S-IVB stage in its Saturn IB configuration. As a part of the Marshall Space Flight Center's (MSFC) "building block" approach to the Saturn development, the S-IVB stage was utilize... More

The first stage (S-1-C) of Apollo 6 (A/S 502) is erected at the Vehicle Assembly Building. The unmanned Apollo 6 mission will be launched by a Saturn V rocket and will conduct systems tests, propulsion burns and heat-shield tests at re-entry speeds

The first stage (S-1-C) of Apollo 6 (A/S 502) is erected at the Vehicl...

The original finding aid described this photograph as: Base: Kennedy Space Center State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Nasa Release Status: Released to Public ... More

F-1 engines of Apollo/Saturn V first stage leave trail of flame after liftoff

F-1 engines of Apollo/Saturn V first stage leave trail of flame after ...

S68-27366 (4 April 1968) --- The five F-1 engines of the huge Apollo/Saturn V space vehicle's first (S-IC) stage leave a gigantic trail of flame in the sky above the Kennedy Space Center seconds after liftoff. ... More

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