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Capability and availability - Political cartoon, public domain image

Capability and availability - Political cartoon, public domain image

Sharply critical of both the Democratic and Whig choice of presidential candidates in 1852, the artist laments the nomination of two soldiers, Winfield Scott (center) and Franklin Pierce (far right), in prefere... More

Severe Storm ^ Tornado - Vicksburg, Miss. , May 4, 2010 -- The Warren County Eagle Lake Community FEMA/State Disaster Recovery Center is open to provide disaster information and services to survivors of the deadly storm and tornado of April 24. The FEMA Mobile Disaster Recovery Center vehicle is providing telecommunication capability. George Armstrong/FEMA

Severe Storm ^ Tornado - Vicksburg, Miss. , May 4, 2010 -- The Warren ...

The original database describes this as: Title: The Warren County FEMA/State Disaster Recovery Center in MS Production Date: 05/04/2010 Caption: Vicksburg, Miss. , May 4, 2010 -- The Warren County Eagle Lak... More

A US Navy (USN) F/A-18F Super Hornet, Strike Fighter Squadron 102 (VFA-102), Diamondbacks, Naval Air Facility (NAF) Atsugi, Japan, launches off the deck of the USN Aircraft Carrier USS KITTY HAWK (CV 63). The Hornet is armed with an AIM-9 Sidewinder on the wing tip. The HAWK is one of seven carrier strike groups (CSG) involved in SUMMER PULSE 2004. SUMMER PULSE 2004 is the deployment of seven carrier strike groups (CSG), demonstrating the ability of the Navy to provide credible combat capability across the globe, in five theaters with other US, allied, and coalition military forces. SUMMER PULSE is the Navy's first deployment under its new Fleet Response Plan (FRP)

A US Navy (USN) F/A-18F Super Hornet, Strike Fighter Squadron 102 (VFA...

The original finding aid described this photograph as: Base: USS Kitty Hawk (CV 63) Country: Pacific Ocean (POC) Scene Camera Operator: PH3 Jonathan Chandler, Usn Release Status: Released to Public Combined... More

Flooding - Freeport, Ill. , August 26, 2010 -- FEMA Disaster Recovery Center Manager Jesse Gordon(right) and Congressional Affairs Specialist John Saggese (left) speak with Bryan Davis (center), Deputy Chief of Staff for Representative Don Manzullo, in front of the FEMA Mobile Disaster Recovery Center. Mobile DRCs offer all the capability of fixed locations but also provide flexibility so FEMA can quickly meet the needs of affected areas. FEMA/Norman Lenburg

Flooding - Freeport, Ill. , August 26, 2010 -- FEMA Disaster Recovery ...

The original database describes this as: Title: FEMA meeting in Illinois Production Date: 08/26/2010 Caption: Freeport, Ill. , August 26, 2010 -- FEMA Disaster Recovery Center Manager Jesse Gordon(right) and... More

Date: Dec 6, 1951 NACA Photographer North American YF-93 with submerged divergent-wall engine-air inlet. Maximum high-speed capability of Mach 1.03 was obtained with afterbrner on. Tests were conducted to compare high-speed performance of the YF-93 NACA-139 airplane with different inlet configurations. (Mar 1953) ARC-1969-A-16712

Date: Dec 6, 1951 NACA Photographer North American YF-93 with submerg...

Date: Dec 6, 1951 NACA Photographer North American YF-93 with submerged divergent-wall engine-air inlet. Maximum high-speed capability of Mach 1.03 was obtained with afterbrner on. Tests were conducted to comp... More

KENNEDY SPACE CENTER, Fla. -- At SPACEHAB, Cape Canaveral, members of the STS-107 crew look over elements in the SPACEHAB Double Module as part of equipment familiarization for their mission. The crew comprises Commander Rick Husband, Pilot William McCool, Payload Commander Michael Anderson, Mission Specialists Kalpana Chawla, David Brown and Laurel Clark, and Payload Specialist Ilan Ramon. STS-107 has two payload elements, the Double Module in its first flight into space and a Hitchhiker payload. The double module provides greater experiment capability than on previous flights, resulting for this mission in a very broad collection of experiments for NASA and commercial and European customers. The experiments range from material sciences to life sciences (many rats). The Hitchhiker carrier system is modular and expandable in accordance with payload requirements, which allows maximum efficiency in utilizing orbiter resources and increases the potential for early manifesting on the Shuttle. Hitchhiker experiments are housed in canisters or attached to mounting plates. The Hitchhiker canister comes in two varieties--the Hitchhiker Motorized Door Canister and the Sealed Canisters. STS-107 is scheduled to launch in May 2002 KSC-01pp1571

KENNEDY SPACE CENTER, Fla. -- At SPACEHAB, Cape Canaveral, members of ...

KENNEDY SPACE CENTER, Fla. -- At SPACEHAB, Cape Canaveral, members of the STS-107 crew look over elements in the SPACEHAB Double Module as part of equipment familiarization for their mission. The crew comprise... More

Workers in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-2) prepare the Tracking and Data Relay Satellite (TDRS-H) above them for electrical testing. The TDRS is scheduled to be launched from CCAFS June 29 aboard an Atlas IIA/Centaur rocket. One of three satellites (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif., the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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 KSC00pp0713

Workers in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-...

Workers in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-2) prepare the Tracking and Data Relay Satellite (TDRS-H) above them for electrical testing. The TDRS is scheduled to be launched from CCAFS... More

KENNEDY SPACE CENTER, FLA. - The STS-115 crew members stride out of the Operations and Checkout Building eager to get to Launch Pad 39B and the start of their mission to the International Space Station. This is the second attempt at launch after a week's postponement due to weather and technical concerns. On the left side, front to back, are Pilot Christopher Ferguson and Mission Specialists Steven MacLean and Heidemarie Stefanyshyn-Piper. On the right side, front to back, are Commander Brent Jett and Mission Specialists Daniel Burbank and Joseph Tanner. On its second attempt for launch, Atlantis is scheduled to lift off at 11:41 a.m. EDT today from Launch Pad 39B. During the STS-115 mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the ISS. STS-115 is scheduled to last 11 days with a planned landing at KSC. Photo credit: NASA/Kim Shiflett KSC-06pd2088

KENNEDY SPACE CENTER, FLA. - The STS-115 crew members stride out of ...

KENNEDY SPACE CENTER, FLA. - The STS-115 crew members stride out of the Operations and Checkout Building eager to get to Launch Pad 39B and the start of their mission to the International Space Station. This ... More

KENNEDY SPACE CENTER, FLA. - Huge clouds roll over Launch Pad 39B where Space Shuttle Atlantis still sits after the scrub of its launch on mission STS-115. Atlantis was originally scheduled to launch at 12:29 p.m. EDT on this date, but a 24-hour scrub was called by mission managers due to a concern with fuel cell 1. Towering above the shuttle is the 80-foot lightning mast. At left is the rolled-back rotating service structure with the payload changeout room open. Just above the orange external tank is the vent hood (known as the "beanie cap") at the end of the gaseous oxygen vent arm. Vapors are created as the liquid oxygen in the external tank boil off. The hood vents the gaseous oxygen vapors away from the space shuttle vehicle. During the STS-115 mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. STS-115 is scheduled to last 11 days with a planned landing at KSC. Photo credit: NASA/Ken Thornsley KSC-06pd2055

KENNEDY SPACE CENTER, FLA. - Huge clouds roll over Launch Pad 39B w...

KENNEDY SPACE CENTER, FLA. - Huge clouds roll over Launch Pad 39B where Space Shuttle Atlantis still sits after the scrub of its launch on mission STS-115. Atlantis was originally scheduled to launch at 12:... More

KENNEDY SPACE CENTER, Fla. -- The STS-92 crew gather outside the gate to Launch Pad 39A where Space Shuttle Discovery waits in the background for liftoff Oct. 5 at 9:38 p.m. EDT. From left to right are Commander Brian Duffy, Pilot Pamela Ann Melroy, and Mission Specialists Leroy Chiao, William S. McArthur Jr., Peter J.K. “Jeff” Wisoff, Michael E. Lopez-Alegria and Koichi Wakata of Japan. The mission payload includes Integrated Truss Structure Z-1, an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power; Ku-band communication to support early science capability and U.S. television; and the third Pressurized Mating Adapter to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The 11-day mission will include four spacewalks KSC-00pp1486

KENNEDY SPACE CENTER, Fla. -- The STS-92 crew gather outside the gate...

KENNEDY SPACE CENTER, Fla. -- The STS-92 crew gather outside the gate to Launch Pad 39A where Space Shuttle Discovery waits in the background for liftoff Oct. 5 at 9:38 p.m. EDT. From left to right are Command... More

KENNEDY SPACE CENTER, FLA. - The morning sky lightens behind Space Shuttle Atlantis while lights on the fixed service structure (FSS) still illuminate the orbiter on Launch Pad 39B. Atlantis was originally scheduled to launch at 12:29 p.m. EDT on this date, but a 24-hour scrub was called by mission managers due to a concern with Fuel Cell 1. Seen poised above the orange external tank is the vent hood (known as the "beanie cap") at the end of the gaseous oxygen vent arm. Vapors are created as the liquid oxygen in the external tank boil off. The hood vents the gaseous oxygen vapors away from the space shuttle vehicle. Extending from the FSS to Atlantis is the orbiter access arm with the White Room at the end. The White Room provides entry into the orbiter through the hatch. During the STS-115 mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. STS-115 is scheduled to last 11 days with a planned landing at KSC. Photo credit: NASA/Troy Cryder KSC-06pd2050

KENNEDY SPACE CENTER, FLA. - The morning sky lightens behind Space ...

KENNEDY SPACE CENTER, FLA. - The morning sky lightens behind Space Shuttle Atlantis while lights on the fixed service structure (FSS) still illuminate the orbiter on Launch Pad 39B. Atlantis was originally s... More

KENNEDY SPACE CENTER, FLA. - The rotating service structure (left) on Launch Pad 39B is rolled back to reveal Space Shuttle Atlantis. The RSS provides protected access to the orbiter for changeout and servicing of payloads at the pad and then is rolled away before liftoff. Atlantis is scheduled to launch Sept. 6 at 12:29 p.m. EDT on mission STS-115. During the mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. STS-115 is scheduled to last 11 days with a planned KSC landing at about 8:03 a.m. EDT on Sept. 17. Photo credit: NASA/George Shelton KSC-06pd2039

KENNEDY SPACE CENTER, FLA. - The rotating service structure (left) o...

KENNEDY SPACE CENTER, FLA. - The rotating service structure (left) on Launch Pad 39B is rolled back to reveal Space Shuttle Atlantis. The RSS provides protected access to the orbiter for changeout and servi... More

KENNEDY SPACE CENTER, FLA. -- Installed on a transporter, the payload canister moves out of the Vertical Processing Facility. Inside the canister are the SPACEHAB module and the port 5 truss segment for mission STS-116. They will be moved into the payload changeout room at the pad and transferred into Space Shuttle Discovery's payload bay once the vehicle has rolled out to the pad. The payload canister is 65 feet long, 18 feet wide and 18 feet, 7 inches high. It has the capability to carry vertically or horizontally processed payloads up to 15 feet in diameter and 60 feet long, matching the capacity of the orbiter payload bay. It can carry payloads weighing up to 65,000 pounds. Clamshell-shaped doors at the top of the canister operate like the orbiter payload bay doors, with the same allowable clearances. Photo credit: NASA/George Shelton KSC-06pd2451

KENNEDY SPACE CENTER, FLA. -- Installed on a transporter, the payload...

KENNEDY SPACE CENTER, FLA. -- Installed on a transporter, the payload canister moves out of the Vertical Processing Facility. Inside the canister are the SPACEHAB module and the port 5 truss segment for missi... More

The logo for the Tracking and Data Relay Satellite (TDRS-H) is predominantly displayed on the fairing that will encapsulate the satellite for launch. The fairing is in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-2) where TDRS is undergoing testing. The TDRS is scheduled to be launched from CCAFS June 29 aboard an Atlas IIA/Centaur rocket. One of three satellites (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif., the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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-00pp0714

The logo for the Tracking and Data Relay Satellite (TDRS-H) is predomi...

The logo for the Tracking and Data Relay Satellite (TDRS-H) is predominantly displayed on the fairing that will encapsulate the satellite for launch. The fairing is in KSC’s Spacecraft Assembly and Encapsulatio... More

CAPE CANAVERAL, Fla. – In the Space Station Processing Facility at NASA's Kennedy Space Center, astronaut Charles Hobaugh, right, conducts a fit check of the robotic workstation, or RWS, in the International Space Station's Cupola module. He is assisted by Boeing technician Terry Camarata, left. The RWS is provided by the Canadian Space Agency. The module was delivered by the European Space Agency in 2004 to Kennedy from Alenia Spazio in Turin, Italy. Cupola will provide unprecedented views of activities outside the station and spectacular views of the Earth. Crew members working inside the module will have a 360-degree panoramic view. Cupola has the capability for command and control workstations to be installed to assist in space station remote manipulator system and extra vehicular activities. Cupola is the final element of the space station core and is scheduled for launch on space shuttle Endeavour's STS-130 mission, targeted for Dec. 10, 2009. Photo credit: NASA/Cory Huston KSC-08pd2196

CAPE CANAVERAL, Fla. – In the Space Station Processing Facility at NAS...

CAPE CANAVERAL, Fla. – In the Space Station Processing Facility at NASA's Kennedy Space Center, astronaut Charles Hobaugh, right, conducts a fit check of the robotic workstation, or RWS, in the International Sp... More

KENNEDY SPACE CENTER, FLA. -- The STS-117 crew members arrive at the KSC Shuttle Landing Facility aboard T-38 jet aircraft to prepare for launch on Space Shuttle Atlantis on June 8. Mission Specialist Steven Swanson is greeted by Shuttle Launch Director Mike Leinbach. Behind Swanson, at left, is Commander Frederick Sturckow; Mission Specialist Patrick Forrester is at center; Janet Petro, deputy director of Kennedy, is at right. During the 11-day mission and three spacewalks, the crew will work with flight controllers at NASA's Johnson Space Center in Houston to install a 17-ton segment on the station's girder-like truss and deploy a set of solar arrays, S3/S4. The mission will increase the space station's power capability in preparation for the arrival of new science modules from the European and Japanese space agencies. Photo credit: NASA/Kim Shiflett KSC-07pd1348

KENNEDY SPACE CENTER, FLA. -- The STS-117 crew members arrive at the K...

KENNEDY SPACE CENTER, FLA. -- The STS-117 crew members arrive at the KSC Shuttle Landing Facility aboard T-38 jet aircraft to prepare for launch on Space Shuttle Atlantis on June 8. Mission Specialist Steven S... More

KENNEDY SPACE CENTER, FLA. - During suitup in the Operations and Checkout Building at NASA Kennedy Space Center, STS-115 Mission Specialist Daniel Burbank tests the communication system in his helmet. Burbank is making his second shuttle flight on this mission to the International Space Station aboard Space Shuttle Atlantis. On its second attempt for launch, Atlantis is scheduled to lift off at 11:41 a.m. EDT today from Launch Pad 39B. During the STS-115 mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the ISS. STS-115 is scheduled to last 11 days with a planned landing at KSC. Photo credit: NASA/Kim Shiflett KSC-06pd2086

KENNEDY SPACE CENTER, FLA. - During suitup in the Operations and Che...

KENNEDY SPACE CENTER, FLA. - During suitup in the Operations and Checkout Building at NASA Kennedy Space Center, STS-115 Mission Specialist Daniel Burbank tests the communication system in his helmet. Burban... More

Leaving billowing clouds of steam and smoke behind, NASA’s Tracking and Data Relay Satellite (TDRS-H) shoots into the blue sky aboard an Atlas IIA/Centaur rocket from Pad 36A, Cape Canaveral Air Force Station. Liftoff occurred at 8:56 a.m. EDT. One of three satellites (labeled H, I and J) being built by the Hughes Space and Communications Company, the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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-00pp0827

Leaving billowing clouds of steam and smoke behind, NASA’s Tracking an...

Leaving billowing clouds of steam and smoke behind, NASA’s Tracking and Data Relay Satellite (TDRS-H) shoots into the blue sky aboard an Atlas IIA/Centaur rocket from Pad 36A, Cape Canaveral Air Force Station. ... More

In the Spacecraft Assembly and Encapsulation Facility, the Tracking and Data Relay Satellite (TDRS-H) at right sits while one-half of the fairing (left) is moved closer to it. After encapsulation in the fairing, TDRS will be transported to Launch Pad 36A, Cape Canaveral Air Force Station for launch scheduled June 29 aboard an Atlas IIA/Centaur rocket. One of three satellites (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif., the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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 KSC00pp0749

In the Spacecraft Assembly and Encapsulation Facility, the Tracking an...

In the Spacecraft Assembly and Encapsulation Facility, the Tracking and Data Relay Satellite (TDRS-H) at right sits while one-half of the fairing (left) is moved closer to it. After encapsulation in the fairing... More

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, members of the news media are briefed on the agency's Space Launch System SLS Program Todd May, program manager for Space Launch Systems SLS at NASA's Marshall Space Flight Center in Huntsville, Alabama. The briefing took place in the spaceport's Booster Fabrication Facility BFF. During the Space Shuttle Program, the facility was used for processing forward segments and aft skirts for the solid rocket boosters. The BFF will serve a similar role for the SLS. Orion is the exploration spacecraft designed to carry astronauts to destinations not yet explored by humans, including an asteroid and Mars. It will have emergency abort capability, sustain the crew during space travel and provide safe re-entry from deep space return velocities. The first unpiloted flight test of Orion is scheduled to launch Dec. 4, 2014 atop a United Launch Alliance Delta IV Heavy rocket, and in 2018 on NASA’s Space Launch System rocket. For more information, visit www.nasa.gov/orion Photo credit: NASA/Kim Shiflett KSC-2014-4616

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, memb...

CAPE CANAVERAL, Fla. – At NASA's Kennedy Space Center in Florida, members of the news media are briefed on the agency's Space Launch System SLS Program Todd May, program manager for Space Launch Systems SLS at ... More

KENNEDY SPACE CENTER, FLA. -- In the Orbiter Processing Facility bay 1, members of the STS-92 crew examine equipment that will be part of their mission to the International Space Station (ISS). The fourth U.S. flight to the ISS, the mission payload includes the Integrated Truss Structure Z1, an early exterior framework to allow the first U.S. solar arrays on a future flight to be temporarily installed on Unity for early power; Ku-band communication to support early science capability and U.S. television; and PMA-3 to provide a Shuttle docking port for solar array installation on the sixth ISS flight and Lab installation on the seventh ISS flight. The crew comprises Mission Commander Brian Duffy, Pilot Pamela Melroy, and Mission Specialists Koichi Wakata, Leroy Chiao, Peter "Jeff" Wisoff, Michael Lopez-Alegria, and William McArthur. Launch of STS-92 is scheduled for Sept. 21, 2000. Wakata is with the National Space Development Agency of Japan KSC00pp0522

KENNEDY SPACE CENTER, FLA. -- In the Orbiter Processing Facility bay 1...

KENNEDY SPACE CENTER, FLA. -- In the Orbiter Processing Facility bay 1, members of the STS-92 crew examine equipment that will be part of their mission to the International Space Station (ISS). The fourth U.S. ... More

CAPE CANAVERAL, Fla. – In the Space Station Processing Facility at NASA's Kennedy Space Center, astronauts Terry Virts, left, and Charles Hobaugh familiarize themselves with the operation of the robotic workstation, or RWS, in the International Space Station's Cupola module. The RWS is provided by the Canadian Space Agency. The module was delivered by the European Space Agency in 2004 to Kennedy from Alenia Spazio in Turin, Italy. Cupola will provide unprecedented views of activities outside the station and spectacular views of the Earth. Crew members working inside the module will have a 360-degree panoramic view. Cupola has the capability for command and control workstations to be installed to assist in space station remote manipulator system and extra vehicular activities. Cupola is the final element of the space station core and is scheduled for launch on space shuttle Endeavour's STS-130 mission, targeted for Dec. 10, 2009. Photo credit: NASA/Cory Huston KSC-08pd2198

CAPE CANAVERAL, Fla. – In the Space Station Processing Facility at NAS...

CAPE CANAVERAL, Fla. – In the Space Station Processing Facility at NASA's Kennedy Space Center, astronauts Terry Virts, left, and Charles Hobaugh familiarize themselves with the operation of the robotic worksta... More

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a full-size mock-up of the Orion spacecraft and launch abort system were transported to the Kennedy Space Center Visitor Complex. In the background are full-size replicas of the external fuel tank and solid rocket boosters that mark the entranceway to the new Space Shuttle Atlantis exhibit. Crane operators and technicians practice de-stacking operations on mock-ups of Orion and the launch abort system in the Vehicle Assembly Building in order to keep processing procedures and skills current. Orion is the exploration spacecraft designed to carry crews to space beyond low Earth orbit. It will provide emergency abort capability, sustain the crew during the space travel and provide safe re-entry from deep space return velocities. Orion’s first unpiloted test flight is scheduled to launch in 2014 atop a Delta IV rocket. A second uncrewed flight test is scheduled for 2017 on NASA’s Space Launch System rocket. For more information, visit http://www.nasa.gov/orion. Photo credit: NASA/Jim Grossmann KSC-2013-2903

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a fu...

CAPE CANAVERAL, Fla. – At NASA’s Kennedy Space Center in Florida, a full-size mock-up of the Orion spacecraft and launch abort system were transported to the Kennedy Space Center Visitor Complex. In the backgro... More

KENNEDY SPACE CENTER, FLA. -- At Launch Pad 39-A, the STS-111 and Expedition Five crews take time out from a tour of the pad with their friends and family to pose for a group portrait. From left, they are STS-111 Pilot Paul Lockhart, STS-111 Commander Kenneth Cockrell, Expedition Five Commander Valeri Korzun (RSA), Expedition Five astronaut Peggy Whitson, Expedition Five cosmonaut Sergei Treschev (RSA), and STS-111 Mission Specialists Philippe Perrin (CNES) and Franklin Chang-Diaz. Expedition Five is traveling to the International Space Station on Space Shuttle Endeavour as the replacement crew for Expedition Four, who will return to Earth aboard the orbiter. Known as Utilization Flight 2, STS-111 is carrying supplies and equipment to the Station. The payload includes the Multi-Purpose Logistics Module Leonardo, the Mobile Base System, which will be installed on the Mobile Transporter to complete the Canadian Mobile Servicing System, or MSS, and a replacement wrist/roll joint for Canadarm 2. The mechanical arm will then have the capability to "inchworm" from the U.S. Lab Destiny to the MSS and travel along the truss to work sites. Launch is scheduled for May 30, 2002 KSC-02pd0814

KENNEDY SPACE CENTER, FLA. -- At Launch Pad 39-A, the STS-111 and Expe...

KENNEDY SPACE CENTER, FLA. -- At Launch Pad 39-A, the STS-111 and Expedition Five crews take time out from a tour of the pad with their friends and family to pose for a group portrait. From left, they are STS-... More

The crated Tracking and Data Relay Satellite (TDRS-H) is pulled inside the Spacecraft Assembly and Encapsulation Facility (SAEF-2) after its arrival at KSC. The TDRS will undergo testing in the SAEF-2. One of three satellites (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif., the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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. The TDRS is scheduled to be launched from CCAFS June 29 aboard an Atlas IIA/Centaur rocket KSC-00pp0711

The crated Tracking and Data Relay Satellite (TDRS-H) is pulled inside...

The crated Tracking and Data Relay Satellite (TDRS-H) is pulled inside the Spacecraft Assembly and Encapsulation Facility (SAEF-2) after its arrival at KSC. The TDRS will undergo testing in the SAEF-2. One of t... 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

KENNEDY SPACE CENTER, FLA. - Flaming rockets propel Space Shuttle Atlantis off Launch Pad 39B for a rendezvous with the International Space Station on mission STS-115. In the background is the Atlantic Ocean. Appearing above the nose of the orbiter is the end of the gaseous vent line that leads from the hood, or beanie cap, which has been moved away from the shuttle for liftoff. Liftoff was on-time at 11:14:55 a.m. EDT. After several launch attempts were scrubbed due to weather and technical concerns, this launch was executed perfectly. Mission STS-115 is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. During the mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. STS-115 is scheduled to last 11 days with a planned landing at KSC KSC-06pp2147

KENNEDY SPACE CENTER, FLA. - Flaming rockets propel Space Shuttle Atl...

KENNEDY SPACE CENTER, FLA. - Flaming rockets propel Space Shuttle Atlantis off Launch Pad 39B for a rendezvous with the International Space Station on mission STS-115. In the background is the Atlantic Ocean.... More

After tower rollback just before dawn on Launch Pad 36A, Cape Canaveral Air Force Station, NASA’s Tracking and Data Relay Satellite (TDRS-H) sits bathed in spotlights before liftoff atop an Atlas IIA/Centaur rocket. One of three satellites (labeled H, I and J) being built by the Hughes Space and Communications Company, the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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 KSC00pp0822

After tower rollback just before dawn on Launch Pad 36A, Cape Canavera...

After tower rollback just before dawn on Launch Pad 36A, Cape Canaveral Air Force Station, NASA’s Tracking and Data Relay Satellite (TDRS-H) sits bathed in spotlights before liftoff atop an Atlas IIA/Centaur ro... More

KENNEDY SPACE CENTER, FLA. - Twin columns of fire propel Space Shuttle Atlantis into a clear blue sky after liftoff from Launch Pad 39B. Atlantis is heading for a rendezvous with the International Space Station on mission STS-115. Liftoff was on-time at 11:14:55 a.m. EDT. After several launch attempts were scrubbed due to weather and technical concerns, this launch was executed perfectly. Mission STS-115 is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. During the mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. STS-115 is scheduled to last 11 days with a planned landing at KSC KSC-06pp2149

KENNEDY SPACE CENTER, FLA. - Twin columns of fire propel Space Shutt...

KENNEDY SPACE CENTER, FLA. - Twin columns of fire propel Space Shuttle Atlantis into a clear blue sky after liftoff from Launch Pad 39B. Atlantis is heading for a rendezvous with the International Space Stat... More

KENNEDY SPACE CENTER, FLA. - Huge clouds billow on the horizon behind Space Shuttle Atlantis still sitting on Launch Pad 39B after the scrub of its launch on mission STS-115. Atlantis was originally scheduled to launch at 12:29 p.m. EDT on this date, but a 24-hour scrub was called by mission managers due to a concern with fuel cell 1. Towering above the shuttle is the 80-foot lightning mast. At left is the rolled-back rotating service structure with the payload changeout room open. During the STS-115 mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. STS-115 is scheduled to last 11 days with a planned landing at KSC. Photo credit: NASA/Ken Thornsley KSC-06pd2056

KENNEDY SPACE CENTER, FLA. - Huge clouds billow on the horizon behin...

KENNEDY SPACE CENTER, FLA. - Huge clouds billow on the horizon behind Space Shuttle Atlantis still sitting on Launch Pad 39B after the scrub of its launch on mission STS-115. Atlantis was originally scheduled... More

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, the existing stands were remodeled and a sizable new test area was developed. The new comprehensive test complex for propulsion and structural dynamics was unique within the nation and the free world, and they remain so today because they were constructed with foresight to meet the future as well as on going needs. Construction of the S-IC Static test stand complex began in 1961 in the west test area of MSFC, and was completed in 1964. The S-IC static test stand was designed to develop and test the 138-ft long and 33-ft diameter Saturn V S-IC first stage, or booster stage, weighing in at 280,000 pounds. Required to hold down the brute force of a 7,500,000-pound thrust produced by 5 F-1 engines, the S-IC static test stand was designed and constructed with the strength of hundreds of tons of steel and 12,000,000 pounds of cement, planted down to bedrock 40 feet below ground level. The foundation walls, constructed with concrete and steel, are 4 feet thick. The base structure consists of four towers with 40-foot-thick walls extending upward 144 feet above ground level. The structure was topped by a crane with a 135-foot boom. With the boom in the upright position, the stand was given an overall height of 405 feet, placing it among the highest structures in Alabama at the time. In addition to the S-IC test stand, related facilities were built during this time. Built to the north of the massive S-IC test stand, was the F-1 Engine test stand. The F-1 test stand, a vertical engine firing test stand, 239 feet in elevation and 4,600 square feet in area at the base, was designed to assist in the development of the F-1 Engine. Capability was provided for static firing of 1.5 million pounds of thrust using liquid oxygen and kerosene. Like the S-IC stand, the foundation of the F-1 stand is keyed into the bedrock approximately 40 feet below grade. This photo, taken October 26, 1962, depicts the excavation process of the single engine F-1 stand. n/a

At its founding, the Marshall Space Flight Center (MSFC) inherited the...

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, th... More

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, the existing stands were remodeled and a sizable new test area was developed. The new comprehensive test complex for propulsion and structural dynamics was unique within the nation and the free world, and they remain so today because they were constructed with foresight to meet the future as well as on going needs. Construction of the S-IC Static test stand complex began in 1961 in the west test area of MSFC, and was completed in 1964. The S-IC static test stand was designed to develop and test the 138-ft long and 33-ft diameter Saturn V S-IC first stage, or booster stage, weighing in at 280,000 pounds. Required to hold down the brute force of a 7,500,000-pound thrust produced by 5 F-1 engines, the S-IC static test stand was designed and constructed with the strength of hundreds of tons of steel and 12,000,000 pounds of cement, planted down to bedrock 40 feet below ground level. The foundation walls, constructed with concrete and steel, are 4 feet thick. The base structure consists of four towers with 40-foot-thick walls extending upward 144 feet above ground level. The structure was topped by a crane with a 135-foot boom. With the boom in the upright position, the stand was given an overall height of 405 feet, placing it among the highest structures in Alabama at the time. In addition to the S-IC test stand, related facilities were built during this time. Built to the north of the massive S-IC test stand, was the F-1 Engine test stand. The F-1 test stand, a vertical engine firing test stand, 239 feet in elevation and 4,600 square feet in area at the base, was designed to assist in the development of the F-1 Engine. Capability was provided for static firing of 1.5 million pounds of thrust using liquid oxygen and kerosene. Like the S-IC stand, the foundation of the F-1 stand is keyed into the bedrock approximately 40 feet below grade. This photo, taken November 15, 1962, depicts the excavation process of the single engine F-1 stand site. n/a

At its founding, the Marshall Space Flight Center (MSFC) inherited the...

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, th... More

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, the existing stands were remodeled and a sizable new test area was developed. The new comprehensive test complex for propulsion and structural dynamics was unique within the nation and the free world, and they remain so today because they were constructed with foresight to meet the future as well as on going needs. Construction of the S-IC Static test stand complex began in 1961 in the west test area of MSFC, and was completed in 1964. The S-IC static test stand was designed to develop and test the 138-ft long and 33-ft diameter Saturn V S-IC first stage, or booster stage, weighing in at 280,000 pounds. Required to hold down the brute force of a 7,500,000-pound thrust produced by 5 F-1 engines, the S-IC static test stand was designed and constructed with the strength of hundreds of tons of steel and 12,000,000 pounds of cement, planted down to bedrock 40 feet below ground level. The foundation walls, constructed with concrete and steel, are 4 feet thick. The base structure consists of four towers with 40-foot-thick walls extending upward 144 feet above ground level. The structure was topped by a crane with a 135-foot boom. With the boom in the upright position, the stand was given an overall height of 405 feet, placing it among the highest structures in Alabama at the time. In addition to the stand itself, related facilities were constructed during this time. Built directly east of the test stand was the Block House, which served as the control center for the test stand. The two were connected by a narrow access tunnel which housed the cables for the controls. The F-1 Engine test stand was built north of the massive S-IC test stand. The F-1 test stand is a vertical engine firing test stand, 239 feet in elevation and 4,600 square feet in area at the base, and was designed to assist in the development of the F-1 Engine. Capability is provided for static firing of 1.5 million pounds of thrust using liquid oxygen and kerosene. Like the S-IC stand, the foundation of the F-1 stand is keyed into the bedrock approximately 40 feet below grade. This aerial photograph, taken January 15, 1963 gives an overall view of the construction progress of the newly developed test complex. The large white building located in the center is the Block House. Just below and to the right of it is the S-IC test stand. The large hole to the left of the S-IC stand is the F-1 test stand site. n/a

At its founding, the Marshall Space Flight Center (MSFC) inherited the...

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, th... More

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, the existing stands were remodeled and a sizable new test area was developed. The new comprehensive test complex for propulsion and structural dynamics was unique within the nation and the free world, and they remain so today because they were constructed with foresight to meet the future as well as on going needs. Construction of the S-IC Static test stand complex began in 1961 in the west test area of MSFC, and was completed in 1964. The S-IC static test stand was designed to develop and test the 138-ft long and 33-ft diameter Saturn V S-IC first stage, or booster stage, weighing in at 280,000 pounds. Required to hold down the brute force of a 7,500,000-pound thrust produced by 5 F-1 engines, the S-IC static test stand was designed and constructed with the strength of hundreds of tons of steel and 12,000,000 pounds of cement, planted down to bedrock 40 feet below ground level. The foundation walls, constructed with concrete and steel, are 4 feet thick. The base structure consists of four towers with 40-foot-thick walls extending upward 144 feet above ground level. The structure was topped by a crane with a 135-foot boom. With the boom in the upright position, the stand was given an overall height of 405 feet, placing it among the highest structures in Alabama at the time. In addition to the stand itself, related facilities were constructed during this time. Built directly east of the test stand was the Block House, which served as the control center for the test stand. The two were connected by a narrow access tunnel which housed the cables for the controls. The F-1 Engine test stand was built north of the massive S-IC test stand. The F-1 test stand is a vertical engine firing test stand, 239 feet in elevation and 4,600 square feet in area at the base, and was designed to assist in the development of the F-1 Engine. Capability is provided for static firing of 1.5 million pounds of thrust using liquid oxygen and kerosene. Like the S-IC stand, the foundation of the F-1 stand is keyed into the bedrock approximately 40 feet below grade. This aerial photograph, taken January 15, 1963, gives a close overall view of the newly developed test complex. Depicted in the forefront center is the S-IC test stand with towers prominent, the Block House is seen in the center just above the S-IC test stand, and the large hole to the left, located midway between the two is the F-1 test stand site. n/a

At its founding, the Marshall Space Flight Center (MSFC) inherited the...

At its founding, the Marshall Space Flight Center (MSFC) inherited the Army’s Jupiter and Redstone test stands, but much larger facilities were needed for the giant stages of the Saturn V. From 1960 to 1964, th... More

Ames aerodynamicists tested a wide variety of VTOL aircraft and helicopters during the 1960's Here the Hiller rotorcycle YROE-1, made by Hiller Helicopter in nearby Palo Alto, California, hovers in front of the Ames Hangar. The Rotorcycle was a small, 500pound, single-place helicopter. Tests indicated that the vehicle was unsafe because of low yaw-control capability to the right; the design also had oor crashworthiness. ARC-1963-A-31028

Ames aerodynamicists tested a wide variety of VTOL aircraft and helico...

Ames aerodynamicists tested a wide variety of VTOL aircraft and helicopters during the 1960's Here the Hiller rotorcycle YROE-1, made by Hiller Helicopter in nearby Palo Alto, California, hovers in front of the... More

LAS VEGAS -- The Boeing Company tests the forward heat shield FHS jettison system of its CST-100 spacecraft at the Bigelow Aerospace facility in Las Vegas as part of an agreement with NASA's Commercial Crew Program CCP during Commercial Crew Development Round 2 CCDev2) activities. The FHS will protect the spacecraft's parachutes, rendezvous-and-docking sensor packages, and docking mechanism during ascent and re-entry. During a mission to low Earth orbit, the shield will be jettisoned after re-entry heating, allowing the spacecraft's air bags to deploy for a safe landing. In 2011, NASA selected Boeing for CCDev2 to mature the design and development of a crew transportation system with the overall goal of accelerating a United States-led capability to the International Space Station. The goal of CCP is to drive down the cost of space travel as well as open up space to more people than ever before by balancing industry’s own innovative capabilities with NASA's 50 years of human spaceflight experience. Six other aerospace companies also were selected to mature launch vehicle and spacecraft designs under CCDev2, including Alliant Techsystems Inc. ATK, Excalibur Almaz Inc., Blue Origin, Sierra Nevada Corp. SNC, Space Exploration Technologies SpaceX, and United Launch Alliance ULA. For more information, visit www.nasa.gov/commercialcrew. Image credit: Boeing The Ground Systems Development and Operations Program is developing the necessary ground systems, infrastructure and operational approaches required to safely process, assemble, transport and launch the next generation of rockets and spacecraft in support of NASA’s exploration objectives. Future work also will replace the antiquated communications, power and vehicle access resources with modern efficient systems. Some of the utilities and systems slated for replacement have been used since the VAB opened in 1965. For more information, visit http://www.nasa.gov/exploration/systems/ground/index.html Photo credit: Boeing KSC-2012-4386

LAS VEGAS -- The Boeing Company tests the forward heat shield FHS jett...

LAS VEGAS -- The Boeing Company tests the forward heat shield FHS jettison system of its CST-100 spacecraft at the Bigelow Aerospace facility in Las Vegas as part of an agreement with NASA's Commercial Crew Pro... More

The Marshall Space Flight Center (MSFC) played a crucial role in the development of the huge Saturn rockets that delivered humans to the moon in the 1960s. Many unique facilities existed at MSFC for the development and testing of the Saturn rockets. Affectionately nicknamed “The Arm Farm”, the Random Motion/ Lift-Off Simulator was one of those unique facilities. This facility was developed to test the swing arm mechanisms that were used to hold the rocket in position until liftoff. The Arm Farm provided the capability of testing the detachment and reconnection of various arms under brutally realistic conditions. The 18-acre facility consisted of more than a half dozen arm test positions and one position for testing access arms used by the Apollo astronauts. Each test position had two elements: a vehicle simulator for duplicating motions during countdown and launch; and a section duplicating the launch tower. The vehicle simulator duplicated the portion of the vehicle skin that contained the umbilical connections and personnel access hatches. Driven by a hydraulic servo system, the vehicle simulator produced relative motion between the vehicle and tower. On the Arm Farm, extreme environmental conditions (such as a launch scrub during an approaching Florida thunderstorm) could be simulated. The dramatic scenes that the Marshall engineers and technicians created at the Arm Farm permitted the gathering of crucial technical and engineering data to ensure a successful real time launch from the Kennedy Space Center. This photo depicts a close up of the S-IV-B aft swing arm cam lever stop strain guage. n/a

The Marshall Space Flight Center (MSFC) played a crucial role in the d...

The Marshall Space Flight Center (MSFC) played a crucial role in the development of the huge Saturn rockets that delivered humans to the moon in the 1960s. Many unique facilities existed at MSFC for the develo... More

KENNEDY SPACE CENTER, FLA. - Storm clouds gather behind Space Shuttle Atlantis on Launch Pad 39B. Atlantis was originally scheduled to launch on Aug. 27, but a scrub was called by mission managers due to a concern with fuel cell 1. Towering above the shuttle is the 80-foot lightning mast. During the STS-115 mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. STS-115 is scheduled to last 11 days with a planned landing at KSC. Photo credit: NASA/Ken Thornsley KSC-06pd2064

KENNEDY SPACE CENTER, FLA. - Storm clouds gather behind Space Shutt...

KENNEDY SPACE CENTER, FLA. - Storm clouds gather behind Space Shuttle Atlantis on Launch Pad 39B. Atlantis was originally scheduled to launch on Aug. 27, but a scrub was called by mission managers due to ... More

Workers in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-2) conduct electrical testing on the Tracking and Data Relay Satellite (TDRS-H) above them. The TDRS is scheduled to be launched from CCAFS June 29 aboard an Atlas IIA/Centaur rocket. One of three satellites (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif., the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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-00pp0715

Workers in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-...

Workers in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-2) conduct electrical testing on the Tracking and Data Relay Satellite (TDRS-H) above them. The TDRS is scheduled to be launched from CCAFS ... More

At the Shuttle Landing Facility, the crated Tracking and Data Relay Satellite (TDRS-H) is placed onto a transporter for its move to the Spacecraft Assembly and Encapsulation Facility (SAEF-2) for testing. 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 latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. 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. The TDRS is scheduled to be launched from CCAFS June 29 aboard an Atlas IIA/Centaur rocket KSC-00pp0708

At the Shuttle Landing Facility, the crated Tracking and Data Relay Sa...

At the Shuttle Landing Facility, the crated Tracking and Data Relay Satellite (TDRS-H) is placed onto a transporter for its move to the Spacecraft Assembly and Encapsulation Facility (SAEF-2) for testing. The T... More

KENNEDY SPACE CENTER, FLA. - After rollback of the rotating service structure on Launch Pad 39B, Space Shuttle Atlantis shines in the late afternoon sun. The RSS provides protected access to the orbiter for changeout and servicing of payloads at the pad and then is rolled away before liftoff. At right is the 300,000-gallon water tank that releases a deluge of water across the mobile launcher platform during liftoff to aid sound suppression. Atlantis is scheduled to launch Sept. 6 at 12:29 p.m. EDT on mission STS-115. During the mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. This mission is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. STS-115 is scheduled to last 11 days with a planned KSC landing at about 8:03 a.m. EDT on Sept. 17. Photo credit: NASA/Ken Thornsley KSC-06pd2045

KENNEDY SPACE CENTER, FLA. - After rollback of the rotating service ...

KENNEDY SPACE CENTER, FLA. - After rollback of the rotating service structure on Launch Pad 39B, Space Shuttle Atlantis shines in the late afternoon sun. The RSS provides protected access to the orbiter for ... More

STS117-S-006 (8 June 2007) --- After suiting up, the STS-117 crewmembers exit the Operations and Checkout Building to board the Astrovan, which will take them to launch pad 39A at Kennedy Space Center. On the right (front to back) are astronauts Rick Sturckow, commander; Steven Swanson, Clayton Anderson and Jim Reilly (center back), all mission specialists. On the left (front to back) are astronauts Lee Archambault, pilot; Patrick Forrester and John "Danny" Olivas, both mission specialists. Anderson will join Expedition 15 in progress to serve as a flight engineer aboard the International Space Station. Atlantis will link up with the International Space Station on Sunday, June 10, to begin a joint mission that will increase the complex's power generation capability. Using the shuttle and station robotic arms and conducting three scheduled spacewalks, the astronauts will install another set of giant solar array wings on the station and retract another array, preparing it for a future move. STS117-S-006

STS117-S-006 (8 June 2007) --- After suiting up, the STS-117 crewmembe...

STS117-S-006 (8 June 2007) --- After suiting up, the STS-117 crewmembers exit the Operations and Checkout Building to board the Astrovan, which will take them to launch pad 39A at Kennedy Space Center. On the r... More

KENNEDY SPACE CENTER, FLA. - Twin columns of fire propel Space Shuttle Atlantis into a clear blue sky after liftoff from Launch Pad 39B. At left is the fixed service structure, topped by the lightning mast. Clouds of smoke and steam nearly obscure the pad. Atlantis is heading for a rendezvous with the International Space Station on mission STS-115. Liftoff was on-time at 11:14:55 a.m. EDT. After several launch attempts were scrubbed due to weather and technical concerns, this launch was executed perfectly. Mission STS-115 is the 116th space shuttle flight, the 27th flight for orbiter Atlantis, and the 19th U.S. flight to the International Space Station. During the mission, Atlantis' astronauts will deliver and install the 17.5-ton, bus-sized P3/P4 integrated truss segment on the station. The girder-like truss includes a set of giant solar arrays, batteries and associated electronics and will provide one-fourth of the total power-generation capability for the completed station. STS-115 is scheduled to last 11 days with a planned landing at KSC KSC-06pp2153

KENNEDY SPACE CENTER, FLA. - Twin columns of fire propel Space Shutt...

KENNEDY SPACE CENTER, FLA. - Twin columns of fire propel Space Shuttle Atlantis into a clear blue sky after liftoff from Launch Pad 39B. At left is the fixed service structure, topped by the lightning mast. ... More

State-of-the-art displays shown here provide enhanced capability to engineers in the upgraded Launch Vehicle Data Center in Hangar AE, Cape Canaveral Air Force Station, Fla. The new facility’s three individual control rooms replace a single LVDC control room in use since the mid-1970s. Developed by NASA-KSC to support multiple test operations in parallel or a single large launch operation, the new LVDC allows up to 100 launch vehicle engineers to monitor the voice, data and video systems that support the checkout and launch of an expendable vehicle KSC-01pp0991

State-of-the-art displays shown here provide enhanced capability to en...

State-of-the-art displays shown here provide enhanced capability to engineers in the upgraded Launch Vehicle Data Center in Hangar AE, Cape Canaveral Air Force Station, Fla. The new facility’s three individual ... More

The Thorad-Agena launch vehicle with the SERT-2 (Space Electric Rocket Test-2) spacecraft on launch pad at the Western Test Range in California. The SERT-2 was launched on February 4, 1970 and tested the capability of an electric ion thruster system. n/a

The Thorad-Agena launch vehicle with the SERT-2 (Space Electric Rocket...

The Thorad-Agena launch vehicle with the SERT-2 (Space Electric Rocket Test-2) spacecraft on launch pad at the Western Test Range in California. The SERT-2 was launched on February 4, 1970 and tested the capabi... More

Skylab. NASA Skylab space station

Skylab. NASA Skylab space station

This chart describes the Skylab student experiment Motor Sensory Performance, proposed by Kathy L. Jackson of Houston, Texas. Her proposal was a very simple but effective test to measure the potential degradati... More

United Airlines DC-8 (N8099U) Two Segment Evaluation. In-Flight Thrust Reversing, Steep Approach Research. The thrust reversing concept was applied to the DC-8 Commercial transport to achieve the rapid descent capability required for FAA certificaiton. Note: Used in publication in Flight Research at Ames; 57 Years of Development and Validation of Aeronautical Technology NASA SP-1998-3300 fig 96 ARC-1969-AC74-1058-29

United Airlines DC-8 (N8099U) Two Segment Evaluation. In-Flight Thru...

United Airlines DC-8 (N8099U) Two Segment Evaluation. In-Flight Thrust Reversing, Steep Approach Research. The thrust reversing concept was applied to the DC-8 Commercial transport to achieve the rapid desce... More

SAN DIEGO, Calif. – NASA Administrator Charlie Bolden, center, talks to Milt Heflin on the USS Anchorage on the first day of Orion Underway Recovery Test 3. Heflin was a former space shuttle flight director and Mission Operations executive with experience as a recovery engineer for several Apollo, Skylab and Apollo-Soyuz Test Project missions. At left is Brandi Dean, NASA Public Affairs Office. The ship will head out to sea, off the coast of San Diego, in search of conditions to support test needs for a full dress rehearsal of recovery operations. NASA, Lockheed Martin and U.S. Navy personnel will conduct tests in the Pacific Ocean to prepare for recovery of the Orion crew module on its return from a deep space mission. The test will allow the teams to demonstrate and evaluate the recovery processes, procedures, hardware and personnel in open waters. The Ground Systems Development and Operations Program is conducting the underway recovery tests. Orion is the exploration spacecraft designed to carry astronauts to destinations not yet explored by humans, including an asteroid and Mars. It will have emergency abort capability, sustain the crew during space travel and provide safe re-entry from deep space return velocities. The first unpiloted test flight of Orion is scheduled to launch in 2014 atop a United Launch Alliance Delta IV Heavy rocket and in 2018 on NASA’s Space Launch System rocket. For more information, visit http://www.nasa.gov/orion. Photo credit: NASA/Cory Huston KSC-2014-3946

SAN DIEGO, Calif. – NASA Administrator Charlie Bolden, center, talks t...

SAN DIEGO, Calif. – NASA Administrator Charlie Bolden, center, talks to Milt Heflin on the USS Anchorage on the first day of Orion Underway Recovery Test 3. Heflin was a former space shuttle flight director and... More

High Energy Astronomy Observatory (HEAO)

High Energy Astronomy Observatory (HEAO)

The family of High Energy Astronomy Observatory (HEAO) instruments consisted of three unmarned scientific observatories capable of detecting the x-rays emitted by the celestial bodies with high sensitivity and ... More

An aerial port beam view of the nuclear-powered attack submarine USS PINTADO (SSN 672) underway while conducting submarine operations off the coast of San Diego. Mounted near the stern is the deep submergence rescue vehicle (DSRV-1) "Mystic", which can provide world-wide, rapid-deployment, all-weather capability for the rescue of survivors of a disabled submarine

An aerial port beam view of the nuclear-powered attack submarine USS P...

The original finding aid described this photograph as: Country: Pacific Ocean (POC) Scene Camera Operator: PH1 A. Legare Release Status: Released to Public Combined Military Service Digital Photographic Files

A member of the 355th Aircraft Generation Squadron inspects avionics equipment on a A-7 Corsair II aircraft participating in exercise J-Catch, a joint rotary wing and fixed wing tactics development and capability evaluation

A member of the 355th Aircraft Generation Squadron inspects avionics e...

The original finding aid described this photograph as: Base: Hurlburt Field State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Ssgt Frank J. Garzelnick Jr. Release Status: R... More

A right side view of a 20th Special Operations Squadron UH-1N Iroquois helicopter taking off during Exercise J-CATCH, a joint rotary wing and fixed wing tactics development and capability evaluation

A right side view of a 20th Special Operations Squadron UH-1N Iroquois...

The original finding aid described this photograph as: Base: Hurlburt Field State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Ssgt Frank J. Garzelnick Jr. Release Status: R... More

A right side view of a 20th Special Operations Squadron CH-3 Sea King helicopter taking off during Exercise J-CATCH, a joint rotary wing and fixed wing tactics development and capability evaluation

A right side view of a 20th Special Operations Squadron CH-3 Sea King ...

The original finding aid described this photograph as: Base: Hurlburt Field State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Ssgt Frank J. Garzelnick Jr. Release Status: R... More

A 20th Special Operations Squadron flight mechanic inspects a videotape player and monitor aboard a UH-1N Iroquois helicopter during Exercise J-CATCH, a joint rotary wing and fixed wing tactics development and capability evaluation

A 20th Special Operations Squadron flight mechanic inspects a videotap...

The original finding aid described this photograph as: Subject Operation/Series: J-CATCH Base: Hurlburt Field State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Ssgt Frank J... More

An air to air left side view of three 20th Special Operations Squadron UH-1N Iroquois helicopters participating in exercise J-Catch, a rotary wing and fixed wing tactics development and capability evaluation

An air to air left side view of three 20th Special Operations Squadron...

The original finding aid described this photograph as: Base: Hurlburt Field State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Ssgt Frank J. Garzelnick Jr. Release Status: R... More

An air to air right side view of a 20th Special Operations Squadron UH-1N Iroquois helicopter participating in exercise J-Catch, a rotary wing and fixed wing tactics development and capability evaluation

An air to air right side view of a 20th Special Operations Squadron UH...

The original finding aid described this photograph as: Base: Hurlburt Field State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: Ssgt Frank J. Garzelnick Jr. Release Status: R... More

Aerial view of the Aeropropulsion System Test Facility (ASTF) in the Arnold Engineering Development Center. The ASTF, presently under construction, will provide a greatly expanded advanced jet engine test capability

Aerial view of the Aeropropulsion System Test Facility (ASTF) in the A...

The original finding aid described this photograph as: Base: Arnold Air Force Station State: Tennessee (TN) Country: United States Of America (USA) Scene Camera Operator: Unknown Release Status: Released t... More

A starboard view of a manually driven, scaled-down version of a power-augmented ram landing craft (PARLAC) underway during research and development testing. The port engine of the PARLAC is elevated to provide cushion lift, resulting in increased speed and shore-landing capability

A starboard view of a manually driven, scaled-down version of a power-...

The original finding aid described this photograph as: Base: Picatinny Arsenal State: New Jersey (NJ) Country: United States Of America (USA) Scene Camera Operator: Unknown Release Status: Released to Publ... More

An artist's concept of a power-augmented ram landing craft (PARLAC) offloading amphibious tractors (LVT) onto a beach. The PARLAC, which has the capability of achieving high speeds and has good shore-landing capability, presently in the testing stages of research and development

An artist's concept of a power-augmented ram landing craft (PARLAC) of...

The original finding aid described this photograph as: Country: Unknown Scene Camera Operator: Unknown Release Status: Released to Public Combined Military Service Digital Photographic Files

An artist's concept of a power-augmented ram landing craft (PARLAC) exiting the docking well of a dock landing ship. The port engine of the PARLAC is elevated to provide cushion lift, resulting in increased speed and shore-landing capability. The craft is presently in the testing stages of research and development

An artist's concept of a power-augmented ram landing craft (PARLAC) ex...

The original finding aid described this photograph as: Country: Unknown Scene Camera Operator: Unknown Release Status: Released to Public Combined Military Service Digital Photographic Files

An aerial view of the Aero-propulsion System Test Facility presently under construction at the Arnold Engineering and Development Center. The test facility will provide a more advanced jet engine test capability

An aerial view of the Aero-propulsion System Test Facility presently u...

The original finding aid described this photograph as: Base: Arnold Air Force Station State: Tennessee (TN) Country: United States Of America (USA) Scene Camera Operator: Unknown Release Status: Released t... More

The squiggly line, produced by a computer using radar signals bounced off Skylab, top, represents the capability of a new facility established in the Space Defense Center last year. ADC satellite watchers use the space object identification techniques to deduce the size, shape, and type of motion of a particular satellite in orbit

The squiggly line, produced by a computer using radar signals bounced ...

The original finding aid described this photograph as: Country: Unknown Scene Camera Operator: Unknown Release Status: Released to Public Combined Military Service Digital Photographic Files

A member of Company B, 21st Infantry, 24th Infantry Division, aims his Multiple Intergrated Laser Engagement System (MILES) equipped M-60 machine gun at "enemy" positions during a training exercise. His unit is providing combined arms capability for a Georgia National Guard armor unit undergoing training at the base

A member of Company B, 21st Infantry, 24th Infantry Division, aims his...

The original finding aid described this photograph as: Base: Fort Stewart State: Georgia (GA) Country: United States Of America (USA) Scene Camera Operator: Long Release Status: Released to Public Combined... More

Left side view of the Lockheed model 286 utility helicopter in inverted flight displaying its capability for performing loops and rolls. These capabilities and other aerobatic maneuvers demonstrate the stability and control offered by the rigid rotor system of the model 286 which resembles closely the military XH-51A helicopter

Left side view of the Lockheed model 286 utility helicopter in inverte...

The original finding aid described this photograph as: Country: Unknown Scene Camera Operator: Unknown Release Status: Released to Public Combined Military Service Digital Photographic Files

A Mobile Field Service Kitchen (MFSK) developed at the US Army Natick Research and Development Center. As an integral part of the proposed new combat field feeding system, the MFSK has heat-on-the-move capability using T-Rations, ten minute setup/teardown time, and modular equipment

A Mobile Field Service Kitchen (MFSK) developed at the US Army Natick ...

The original finding aid described this photograph as: Base: Natick State: Massachusetts (MA) Country: United States Of America (USA) Scene Camera Operator: Unknown Release Status: Released to Public Combi... More

Interceptor aircraft radar capability. Courtesy of Soviet Military Power, 1984. PHOTO No. 36, Page 39, bottom

Interceptor aircraft radar capability. Courtesy of Soviet Military Pow...

The original finding aid described this photograph as: Country: Unknown Scene Camera Operator: Unknown Release Status: Released to Public Combined Military Service Digital Photographic Files

A bar graph showing Soviet interceptor aircraft radar capability for 1978, 1983 and forecasted capability for 1988. From Soviet Military Power 1985

A bar graph showing Soviet interceptor aircraft radar capability for 1...

The original finding aid described this photograph as: Country: Unknown Scene Camera Operator: Unknown Release Status: Released to Public Combined Military Service Digital Photographic Files

A VX-15 tilt-rotor research aircraft demonstrates its vertical takeoff capability during the air station's annual open house and air show

A VX-15 tilt-rotor research aircraft demonstrates its vertical takeoff...

The original finding aid described this photograph as: Base: Naval Air Station, Moffett Field State: California (CA) Country: United States Of America (USA) Scene Camera Operator: PH3 Xanos Release Status:... More

A VX-15 tilt-rotor research aircraft demonstrates its vertical takeoff capability during the air station's annual open house and air show

A VX-15 tilt-rotor research aircraft demonstrates its vertical takeoff...

The original finding aid described this photograph as: Base: Naval Air Station, Moffett Field State: California (CA) Country: United States Of America (USA) Scene Camera Operator: PH3 Xanos Release Status:... More

A utility lineman from the 1606th Civil Engineering Squadron gives the thumbs up sign while working on a utility pole during the mission capability inspection PURPLE DUCK '86-12

A utility lineman from the 1606th Civil Engineering Squadron gives the...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A utility lineman from the 1606th Civil Engineering Squadron maneuvers a utility pole for the placement during the mission capability inspection PURPLE DUCK '86-12

A utility lineman from the 1606th Civil Engineering Squadron maneuvers...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A member of the 1606th Civil Engineering Squadron assembles cots during the mission capability inspection PURPLE DUCK '86-12

A member of the 1606th Civil Engineering Squadron assembles cots durin...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Utility linemen from the 1606th Civil Engineering Squadron erect a utility pole during the mission capability inspection

Utility linemen from the 1606th Civil Engineering Squadron erect a uti...

The original finding aid described this photograph as: Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera Operator: MSGT. David N. Craft Release Status:... More

Members of the 1606th Civil Engineering Squadron assemble for a morning briefing during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron assemble for a mornin...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Utility linemen from the 1606th Civil Engineering Squadron work on a utility pole during the mission capability inspection PURPLE DUCK '86-12

Utility linemen from the 1606th Civil Engineering Squadron work on a u...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron roll out portions of a chain link fence during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron roll out portions of ...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron take a break from installing a chain link fence during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron take a break from ins...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron fortify a command post with sandbags during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron fortify a command pos...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron rest in the cargo bay of a C-141B Starlifter aircraft on their way back to Kirtland Air Force Base, New Mexico, after participating in the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron rest in the cargo bay...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Carpenters from the 1606th Civil Engineering Squadron frame a wall during the mission capability inspection PURPLE DUCK '86-12

Carpenters from the 1606th Civil Engineering Squadron frame a wall dur...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Services Squadron wear chemical warfare gear while washing dishes during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Services Squadron wear chemical warfare gear whi...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A member of the 1369th Audiovisual Squadron films a member of the 1606th Civil Engineering Squadron wearing chemical warfare gear during the mission capability inspection PURPLE DUCK '86-12

A member of the 1369th Audiovisual Squadron films a member of the 1606...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron trim the end of a post while installing a chain link fence during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron trim the end of a pos...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron fortify bunkers around command posts during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron fortify bunkers aroun...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron align steel plates during a rapid runway repair operation. The exercise is part of the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron align steel plates du...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron fill sandbags to fortify bunkers around command posts during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron fill sandbags to fort...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Services Squadron wear chemical warfare gear while washing dishes in the field dining facility during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Services Squadron wear chemical warfare gear whi...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron help one another with chemical warfare gear during a chemical warfare drill. They are participating in the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron help one another with...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Services Squadron wear chemical warfare gear at the field dining facility during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Services Squadron wear chemical warfare gear at ...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron install an underground sprinkler system outside an airmens dorm during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron install an undergroun...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron operate a four-man post hole drill while installing a chain link fence during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron operate a four-man po...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A 1369th Audiovisual Squadron cameraman documents the mission capability inspection PURPLE DUCK '86-12

A 1369th Audiovisual Squadron cameraman documents the mission capabili...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A 1369th Audiovisual Squadron cameraman documents the mission capability inspection PURPLE DUCK '86-12

A 1369th Audiovisual Squadron cameraman documents the mission capabili...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron work at night to complete a chain link fence during the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron work at night to comp...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Utility linemen from the 1606th Civil Engineering Squadron work on utility poles during the mission capability inspection PURPLE DUCK '86-12

Utility linemen from the 1606th Civil Engineering Squadron work on uti...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A utility lineman from the 1606th Civil Engineering Squadron works on a utility pole during the mission capability inspection PURPLE DUCK '86-12

A utility lineman from the 1606th Civil Engineering Squadron works on ...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Members of the 1606th Civil Engineering Squadron put on chemical warfare gear during a chemical warfare drill. They are participating in the mission capability inspection PURPLE DUCK '86-12

Members of the 1606th Civil Engineering Squadron put on chemical warfa...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

A member of the 1606th Services Squadron, wearing chemical warfare gear and armed with an M-16 rifle, stands guard at the field dining facility during the mission capability inspection PURPLE DUCK '86-12

A member of the 1606th Services Squadron, wearing chemical warfare gea...

The original finding aid described this photograph as: Subject Operation/Series: PURPLE DUCK '86-12 Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera O... More

Space Station. NASA public domain image colelction.

Space Station. NASA public domain image colelction.

In response to President Reagan's directive to NASA to develop a permanent marned Space Station within a decade, part of the State of the Union message to Congress on January 25, 1984, NASA and the Administrati... More

Members of the 1606th Civil Engineering Squadron install an underground sprinkler system outside an Airmen's dorm during the mission capability inspection Purple Duck'86-12

Members of the 1606th Civil Engineering Squadron install an undergroun...

The original finding aid described this photograph as: Base: Norton Air Force Base State: California (CA) Country: United States Of America (USA) Scene Camera Operator: MSGT David N. Craft Release Status: ... More

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