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MASTER SGT. Charles Ryan, senior drill instructor, makes an adjustment to a nurse's hat during a drill, part of a 6-week officer indoctrination course at the Naval Aviation Schools Command (NASC). An overload of students at Newport, R.I. facilities resulted in the transfer of 81 nurses to Pensacola, despite the fact that Navy indoctrination training for nurses is not normally an NASC function. In addition to providing the basics of officer indoctrination, the command is providing the nurses with a better understanding of naval aviation in general

MASTER SGT. Charles Ryan, senior drill instructor, makes an adjustment...

The original finding aid described this photograph as: Base: Naval Air Station, Pensacola State: Florida(FL) Country: United States Of America (USA) Scene Camera Operator: Art Giberson Release Status: Rele... More

Navy nurse officer candidates stand in formation for inspection, part of a 6-week officer indoctrination course at the Naval Aviation Schools Command (NASC). An overload of students at Newport, R.I. facilities resulted in the transfer of 81 nurses to Pensacola, despite the fact that Navy indoctrination training for nurses is not normally an NASC function. In addition to providing the basics of officer indoctrination, the command is providing the nurses with a better understanding of naval aviation in general

Navy nurse officer candidates stand in formation for inspection, part ...

The original finding aid described this photograph as: Base: Naval Air Station, Pensacola State: Florida(FL) Country: United States Of America (USA) Scene Camera Operator: Art Giberson Release Status: Rele... More

Navy nurse officer candidates stand in formation for inspection, part of a 6-week officer indoctrination course at the Naval Aviation Schools Command (NASC). An overload of students at Newport, R.I. facilities resulted in the transfer of 81 nurses to Pensacola, despite the fact that Navy indoctrination training for nurses is not normally an NASC function. In addition to providing the basics of officer indoctrination, the command is providing the nurses with a better understanding of naval aviation in general

Navy nurse officer candidates stand in formation for inspection, part ...

The original finding aid described this photograph as: Base: Naval Air Station, Pensacola State: Florida(FL) Country: United States Of America (USA) Scene Camera Operator: Art Giberson Release Status: Rele... More

Navy nurse officer candidates stand in formation for inspection, part of a 6-week officer indoctrination course at the Naval Aviation Schools Command (NASC). An overload of students at Newport, R.I. facilities resulted in the transfer of 81 nurses to Pensacola, despite the fact that Navy indoctrination training for nurses is not normally an NASC function. In addition to providing the basics of officer indoctrination, the command is providing the nurses with a better understanding of naval aviation in general

Navy nurse officer candidates stand in formation for inspection, part ...

The original finding aid described this photograph as: Base: Naval Air Station, Pensacola State: Florida(FL) Country: United States Of America (USA) Scene Camera Operator: Art Giberson Release Status: Rele... More

MASTER SGT. Charles Ryan, senior drill instructor, makes an adjustment to a nurse's hat during a drill, part of a 6-week officer indoctrination course at the Naval Aviation Schools Command (NASC). An overload of students at Newport, R.I. facilities resulted in the transfer of 81 nurses to Pensacola, despite the fact that Navy indoctrination training for nurses is not normally an NASC function. In addition to providing the basics of officer indoctrination, the command is providing the nurses with a better understanding of naval aviation in general

MASTER SGT. Charles Ryan, senior drill instructor, makes an adjustment...

The original finding aid described this photograph as: Base: Naval Air Station, Pensacola State: Florida(FL) Country: United States Of America (USA) Scene Camera Operator: Art Giberson Release Status: Rele... More

STS070-338-013 - STS-070 - Henricks works with the Visual Function Tester (VFT)

STS070-338-013 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT). He wears headphones and listens to music as he works through the experim... More

MASTER Sergeant (MSGT) Joseph E. Wickline undergoes a stress test in the pulmonary function laboratory at the USAF Medical Center. Sergeant (SGT) Robert L. Smith and STAFF Sergeant (SSGT) Karen S. Woodworth monitor his progress. From the February 1985 AIRMAN Magazine

MASTER Sergeant (MSGT) Joseph E. Wickline undergoes a stress test in t...

The original finding aid described this photograph as: Base: Scott Air Force Base State: Illinois (IL) Country: United States Of America (USA) Scene Camera Operator: MSGT Bill Boardman Release Status: Rele... More

STS070-331-026 - STS-070 - Henricks works with the Visual Function Tester (VFT) in the middeck

STS070-331-026 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT) in the middeck. Subject Terms: STS-70, DISCOVERY (ORBITER), ASTRONAUTS, ... More

STS070-331-024 - STS-070 - Henricks works with the Visual Function Tester (VFT) in the middeck

STS070-331-024 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT) in the middeck. Subject Terms: STS-70, DISCOVERY (ORBITER), ASTRONAUTS, ... More

STS070-331-025 - STS-070 - Henricks works with the Visual Function Tester (VFT) in the middeck

STS070-331-025 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT) in the middeck. Subject Terms: STS-70, DISCOVERY (ORBITER), ASTRONAUTS, ... More

STS070-338-010 - STS-070 - Henricks works with the Visual Function Tester (VFT)

STS070-338-010 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT). He wears headphones and listens to music as he works through the experim... More

STS070-331-018 - STS-070 - Weber works with the Visual Function Tester (VFT)

STS070-331-018 - STS-070 - Weber works with the Visual Function Tester...

The original finding aid described this as: Description: Mission Specialist Mary Ellen Weber works with the Visual Function Tester (VFT) in the middeck. Subject Terms: STS-70, DISCOVERY (ORBITER), ASTRONAUTS,... More

STS070-338-012 - STS-070 - Henricks works with the Visual Function Tester (VFT)

STS070-338-012 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT). He wears headphones and listens to music as he works through the experim... More

STS070-331-022 - STS-070 - Henricks works with the Visual Function Tester (VFT) in the middeck

STS070-331-022 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT) in the middeck. Subject Terms: STS-70, DISCOVERY (ORBITER), ASTRONAUTS, ... More

STS070-331-023 - STS-070 - Henricks works with the Visual Function Tester (VFT) in the middeck

STS070-331-023 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT) in the middeck. Subject Terms: STS-70, DISCOVERY (ORBITER), ASTRONAUTS, ... More

STS070-338-011 - STS-070 - Henricks works with the Visual Function Tester (VFT)

STS070-338-011 - STS-070 - Henricks works with the Visual Function Tes...

The original finding aid described this as: Description: Commander Terence ``Tom`` Henricks works with the Visual Function Tester (VFT). He wears headphones and listens to music as he works through the experim... More

1ST LT. George Moraczewski, USAF Interpreter, explains the function of the Hydraulic Brake System at the C-130 Training Detachment to the Ukrainian Air Force Officers

1ST LT. George Moraczewski, USAF Interpreter, explains the function of...

The original finding aid described this photograph as: Base: Little Rock Air Force Base State: Arkansas (AR) Country: United States Of America (USA) Scene Camera Operator: SSGT. Elton L. Clemons Release St... More

A Marine from Headquarters and Service Company, performs a fireman's carry on an injured comrade. The injured Marine was carried to a staging and triage site during the Mass Casualty drill. During this two week long exercise, Headquarters Battalion, 2nd Marine Division conduct maneuvers to include Mass Casualty drills, Hostage Rescue drills, and operations in support of Small Craft Company performing its Riverine function

A Marine from Headquarters and Service Company, performs a fireman's c...

The original finding aid described this photograph as: Subject Operation/Series: PREYING MANTIS II Base: Marine Corps Base, Camp Lejeune State: North Carolina (NC) Country: United States Of America (USA) S... More

A Marine from Headquarters and Service Company, checks the status of an "injured" Marine during a Mass Casualty drill. The "injured" Marine suffered severe abdominal injuries. During this two week long exercise, Headquarters Battalion, 2nd Marine Division conduct maneuvers to include Mass Casualty drills, Hostage Rescue drills, and operations in support of Small Craft Company performing its Riverine function

A Marine from Headquarters and Service Company, checks the status of a...

The original finding aid described this photograph as: Subject Operation/Series: PREYING MANTIS II Base: Marine Corps Base, Camp Lejeune State: North Carolina (NC) Country: United States Of America (USA) S... More

A canister of yellow smoke as been released to mark the location of a simulated ambush, as Marines from Truck Company arrive on a convoy. This scenario is part of the Mass Casualty drill that took place during the Headquarters Battalion, 2nd Marine Division, field exercise. During this two week long exercise, Marines conduct maneuvers to include Hostage Rescue drills, and operations in support of the Small Craft Company, performing its Riverine function

A canister of yellow smoke as been released to mark the location of a ...

The original finding aid described this photograph as: Subject Operation/Series: PREYING MANTIS II Base: Marine Corps Base, Camp Lejeune State: North Carolina (NC) Country: United States Of America (USA) S... More

S81E5104 - STS-081 - DTO 1125 - Measurement of Radiation dose as a function of shielding

S81E5104 - STS-081 - DTO 1125 - Measurement of Radiation dose as a fun...

The original finding aid described this as: Description: STS-81 mission specialist Marsha Ivins works with DTO 1125 - Measurement of Radiation Dose as a function of shielding thickness (MDFST) in the Spacehab.... More

STS062-10-010 - STS-062 - Crew members during orthostatic function testing

STS062-10-010 - STS-062 - Crew members during orthostatic function tes...

The original finding aid described this as: Description: Photographic documentation of Commander John Casper (009-010), Mission Specialist Charles ``Sam`` Gemar and Pilot Andrew Allen (009) during orthostatic ... More

S81E5105 - STS-081 - DTO 1125 - Measurement of Radiation dose as a function of shielding

S81E5105 - STS-081 - DTO 1125 - Measurement of Radiation dose as a fun...

The original finding aid described this as: Description: STS-81 mission specialist Marsha Ivins works with DTO 1125 - Measurement of Radiation Dose as a function of shielding thickness (MDFST) in the Spacehab.... More

AMN Jason Bass, crew chief with the 77th Fighter Squadron, Shaw Air Force Base, South Carolina monitors the flaps of his F-16 Fighting Falcon during a pre-flight function check. The 77th members and aircraft are flying out of Kirtland Air Force Base, New Mexico in support of the world's largest joint service, multi-national tactical air operations exercise

AMN Jason Bass, crew chief with the 77th Fighter Squadron, Shaw Air Fo...

The original finding aid described this photograph as: Subject Operation/Series: ROVING SANDS '97 Base: Albuquerque State: New Mexico (NM) Country: United States Of America (USA) Scene Camera Operator: SRA... More

Crew CHIEF AMN Jason Bass, 77th Fighter Squadron, Shaw Air Force Base, South Carolina monitors the flaps of his F-16 during a pre-flight function check. The F-16 crews are out of Kirtland Air Force Base, New Mexico supporting the world's largest joint service, multi-national tactical air operations exercise

Crew CHIEF AMN Jason Bass, 77th Fighter Squadron, Shaw Air Force Base,...

The original finding aid described this photograph as: Subject Operation/Series: ROVING SANDS '97 Base: Albuquerque State: New Mexico (NM) Country: United States Of America (USA) Scene Camera Operator: SRA... More

Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, is unloaded in its container from an Air Force C-5 jet cargo transport at KSC’s Shuttle Landing Facility runway on June 23 after its arrival from NASA’s Marshall Space Flight Center (MSFC). The module was then transported to the Space Station Processing Facility. The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot in diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other Space Station elements KSC-97PC923

Node 1, the first element of the International Space Station to be ma...

Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, is unloaded in its container from an Air Force C-5 jet c... More

The container transporting the Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, is moved into the Space Station Processing Facility high bay June 23 after its arrival from NASA’s Marshall Space Flight Center (MSFC). The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot in diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC924

The container transporting the Node 1, the first element of the Inter...

The container transporting the Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, is moved into the Space S... More

Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, is unloaded in its container from an Air Force C-5 jet cargo transport at KSC’s Shuttle Landing Facility runway on June 23 after its arrival from NASA’s Marshall Space Flight Center (MSFC). The module was then transported to the Space Station Processing Facility. The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other Space Station elements KSC-97PC922

Node 1, the first element of the International Space Station to be ma...

Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, is unloaded in its container from an Air Force C-5 jet c... More

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processing Facility high bay after its arrival at KSC from NASA’s Marshall Space Flight Center (MSFC). The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot in diameter, 22- foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC930

The Node 1, the first element of the International Space Station to b...

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processi... More

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processing Facility high bay after its arrival at KSC from NASA’s Marshall Space Flight Center (MSFC). The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22- foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC927

The Node 1, the first element of the International Space Station to b...

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processi... More

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processing Facility high bay after its arrival at KSC from NASA’s Marshall Space Flight Center (MSFC). The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot in diameter, 22- foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC929

The Node 1, the first element of the International Space Station to b...

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processi... More

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processing Facility high bay after its arrival at KSC from NASA’s Marshall Space Flight Center (MSFC). The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot in diameter, 22- foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC931

The Node 1, the first element of the International Space Station to b...

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processi... More

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processing Facility high bay after its arrival at KSC from NASA’s Marshall Space Flight Center (MSFC). The Node 1 module is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998 along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot in diameter, 22- foot-long aluminum module was manufactured by the Boeing Co. at MSFC. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC928

The Node 1, the first element of the International Space Station to b...

The Node 1, the first element of the International Space Station to be manufactured in the United States and the first to be launched on the Space Shuttle, rests in its container in the Space Station Processi... More

Covered in a protective sheath, International Space Station Node 1 is hoisted for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station KSC-97PC936

Covered in a protective sheath, International Space Station Node 1 i...

Covered in a protective sheath, International Space Station Node 1 is hoisted for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International... More

A KSC payloads processing employee removes a protective sheath part of the Node 1 in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC939

A KSC payloads processing employee removes a protective sheath part ...

A KSC payloads processing employee removes a protective sheath part of the Node 1 in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Stati... More

A close-up view of the Node 1 in its work stand in the Space Station Processing Facility shows one of its six hatches that will serve as docking ports. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. The six hatches on the Node 1 will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC940

A close-up view of the Node 1 in its work stand in the Space Station...

A close-up view of the Node 1 in its work stand in the Space Station Processing Facility shows one of its six hatches that will serve as docking ports. The module is the first element of the International Sp... More

A close-up view of the Node 1 in its work stand in the Space Station Processing Facility shows two of its six hatches that will serve as docking ports. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. The six hatches on the Node 1 will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC941

A close-up view of the Node 1 in its work stand in the Space Station...

A close-up view of the Node 1 in its work stand in the Space Station Processing Facility shows two of its six hatches that will serve as docking ports. The module is the first element of the International Sp... More

Covered in a protective sheath, International Space Station Node 1 is hoisted from its transporting container for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC935

Covered in a protective sheath, International Space Station Node 1 i...

Covered in a protective sheath, International Space Station Node 1 is hoisted from its transporting container for installation in its work stand in the Space Station Processing Facility. The module is the fi... More

Covered in a protective sheath, International Space Station Node 1 is installed in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC934

Covered in a protective sheath, International Space Station Node 1 i...

Covered in a protective sheath, International Space Station Node 1 is installed in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station ... More

Covered in a protective sheath, International Space Station Node 1 is hoisted for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC933

Covered in a protective sheath, International Space Station Node 1 i...

Covered in a protective sheath, International Space Station Node 1 is hoisted for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International... More

Covered in a protective sheath, International Space Station Node 1 is hoisted for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC932

Covered in a protective sheath, International Space Station Node 1 i...

Covered in a protective sheath, International Space Station Node 1 is hoisted for installation in its work stand in the Space Station Processing Facility. The module is the first element of the International... More

KSC workers begin to remove a protective sheath from the Node 1 in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot- long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC938

KSC workers begin to remove a protective sheath from the Node 1 in i...

KSC workers begin to remove a protective sheath from the Node 1 in its work stand in the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactur... More

Members of the STS-88 crew examine the Node 1 of the Internation Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. The six hatches on the Node 1 will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC943

Members of the STS-88 crew examine the Node 1 of the Internation Space...

Members of the STS-88 crew examine the Node 1 of the Internation Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the International Space Station to be ... More

Members of the STS-88 crew examine the Node 1 of the International Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the ISS to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the ISS. The six hatches on the Node 1 will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other Space Station elements KSC-97PC942

Members of the STS-88 crew examine the Node 1 of the International Spa...

Members of the STS-88 crew examine the Node 1 of the International Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the ISS to be manufactured in the U... More

Members of the STS-88 crew examine the Node 1 of the Internation Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. The six hatches on the Node 1 will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC945

Members of the STS-88 crew examine the Node 1 of the Internation Space...

Members of the STS-88 crew examine the Node 1 of the Internation Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the International Space Station to be ... More

Members of the STS-88 crew pose with the Node 1 of the Internation Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the International Space Station to be manufactured in the United States and the first scheduled to be launched on the Space Shuttle. The Node 1 is currently scheduled to lift off aboard the Space Shuttle Endeavour in July 1998, along with Pressurized Mating Adapters (PMAs) 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, the Node 1 will function as a connecting passageway to the living and working areas of the International Space Station. The six hatches on the Node 1 will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-97PC944

Members of the STS-88 crew pose with the Node 1 of the Internation Spa...

Members of the STS-88 crew pose with the Node 1 of the Internation Space Station in the high bay of the Space Station Processing Facility. The module is the first element of the International Space Station to b... More

Military Photographer of the Year Winner 1998 Title: Life on the Site Category: Picture Story Place: Honorable Mention Picture StoryThe Radio Mir Transmitter Site is one of the unique facilities within the Bosnian Theater. Unlike most other SFOR compounds, the team that maintains it (in this case, a 6 person team from the Fleet Information Warfare Center from Little Creek, Virginia) must function as a self sustained unit. Within a 6 month deployment, Logistics creates the biggest challenge. Without external support they must maintain supplies of food, fuel, and water. One of the team members, ET2 Steve Thompson, said "It's much like being on a ship." When asked what the most essential...

Military Photographer of the Year Winner 1998 Title: Life on the Site ...

The original finding aid described this photograph as: [Complete] Scene Caption: Military Photographer of the Year Winner 1998 Title: Life on the Site Category: Picture Story Place: Honorable Mention Picture ... More

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, is shown in its holding tank in the Space Station Processing Facility. Each fish is between eight and 14 inches long. Toadfish live in an estuarine environment and are native to areas along the Northeast coast of the United States. Since they are bottom dwellers that live in cracks and crevices, a tube is provided in its tank to give it a place to retreat and hide. Investigations during the Neurolab mission will focus on the effects of microgravity on the nervous system. This fish is an excellent model for looking at vestibular function because the architecture of its inner and middle ear are similar to those of mammals with respect to the vestibular apparatus. The crew of STS-90, slated for launch April 16 at 2:19 p.m. EDT, includes Commander Richard Searfoss, Pilot Scott Altman, Mission Specialists Richard Linnehan, Dafydd (Dave) Williams, M.D., and Kathryn (Kay) Hire, and Payload Specialists Jay Buckey, M.D., and James Pawelczyk, Ph.D KSC-98pc418

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like t...

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, is shown in its holding tank in the Space Station Processing Fac... More

KENNEDY SPACE CENTER, FLA. -- Oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, are shown in their holding tank in the Space Station Processing Facility. Each fish is between 8 and 14 inches long. Toadfish live in an estuarine environment and are native to areas along the Northeast coast of the United States. Since they are bottom dwellers that live in cracks and crevices, tubes are provided in their tank to give them a place to retreat and hide. Investigations during the Neurolab mission will focus on the effects of microgravity on the nervous system. The toadfish fish is an excellent model for looking at vestibular function because the architecture of its inner and middle ear are similar to those of mammals with respect to the vestibular apparatus. The crew of STS-90, slated for launch April 16 at 2:19 p.m. EDT, includes Commander Richard Searfoss, Pilot Scott Altman, Mission Specialists Richard Linnehan, Dafydd (Dave) Williams, M.D., and Kathryn (Kay) Hire, and Payload Specialists Jay Buckey, M.D., and James Pawelczyk, Ph.D KSC-98PC417

KENNEDY SPACE CENTER, FLA. -- Oyster toadfish (Opsanus tau), like thos...

KENNEDY SPACE CENTER, FLA. -- Oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, are shown in their holding tank in the Space Station Processing Fac... More

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, is shown in its holding tank in the Space Station Processing Facility. Each fish is between eight and 14 inches long. Toadfish live in an estuarine environment and are native to areas along the Northeast coast of the United States. Investigations during the Neurolab mission will focus on the effects of microgravity on the nervous system. This fish is an excellent model for looking at vestibular function because the architecture of its inner and middle ear are similar to those of mammals with respect to the vestibular apparatus. The crew of STS-90, slated for launch April 16 at 2:19 p.m. EDT, includes Commander Richard Searfoss, Pilot Scott Altman, Mission Specialists Richard Linnehan, Dafydd (Dave) Williams, M.D., and Kathryn (Kay) Hire, and Payload Specialists Jay Buckey, M.D., and James Pawelczyk, Ph.D KSC-98pc414

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like t...

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, is shown in its holding tank in the Space Station Processing Fac... More

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, is shown in its holding tank in the Space Station Processing Facility. Each fish is between eight and 14 inches long. Toadfish live in an estuarine environment and are native to areas along the Northeast coast of the United States. Investigations during the Neurolab mission will focus on the effects of microgravity on the nervous system. This fish is an excellent model for looking at vestibular function because the architecture of its inner and middle ear are similar to those of mammals with respect to the vestibular apparatus. The crew of STS-90, slated for launch April 16 at 2:19 p.m. EDT, includes Commander Richard Searfoss, Pilot Scott Altman, Mission Specialists Richard Linnehan, Dafydd (Dave) Williams, M.D., and Kathryn (Kay) Hire, and Payload Specialists Jay Buckey, M.D., and James Pawelczyk, Ph.D KSC-98pc415

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like t...

KENNEDY SPACE CENTER, FLA. -- An oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, is shown in its holding tank in the Space Station Processing Fac... More

KENNEDY SPACE CENTER, FLA. -- Bill Kroeger, an aquatic technician for the Bionetics Corporation, examines an oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Mission STS-90, in its holding tank in the Space Station Processing Facility. Each fish is between eight and 14 inches long. Toadfish live in an estuarine environment and are native to areas along the Northeast coast of the United States. Investigations during the Neurolab mission will focus on the effects of microgravity on the nervous system. This fish is an excellent model for looking at vestibular function because the architecture of its inner and middle ear are similar to those of mammals with respect to the vestibular apparatus. The crew of STS-90, slated for launch April 16 at 2:19 p.m. EDT, includes Commander Richard Searfoss, Pilot Scott Altman, Mission Specialists Richard Linnehan, Dafydd (Dave) Williams, M.D., and Kathryn (Kay) Hire, and Payload Specialists Jay Buckey, M.D., and James Pawelczyk, Ph.D KSC-98pc416

KENNEDY SPACE CENTER, FLA. -- Bill Kroeger, an aquatic technician for ...

KENNEDY SPACE CENTER, FLA. -- Bill Kroeger, an aquatic technician for the Bionetics Corporation, examines an oyster toadfish (Opsanus tau), like those that are part of the Neurolab payload on Space Shuttle Miss... More

KENNEDY SPACE CENTER, FLA. -- Boeing technicians move a piece of hardware into position on Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility in preparation for mating with Pressurized Mating Adapter (PMA)-2. The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. The 18-foot-in-diameter, 22-foot-long aluminum module was manufactured by the Boeing Co. at Marshall Space Flight Center. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc539

KENNEDY SPACE CENTER, FLA. -- Boeing technicians move a piece of hardw...

KENNEDY SPACE CENTER, FLA. -- Boeing technicians move a piece of hardware into position on Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility in preparation for mating wi... More

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is moved into position against Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility for pre-mating preparations. The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. This PMA is a cone-shaped connector to Node 1, which will have two PMAs attached once this mate is completed. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc541

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is mo...

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is moved into position against Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility for pre-mating preparat... More

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is moved toward Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility for pre-mating preparations. The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. This PMA is a cone-shaped connector to Node 1, which will have two PMAs attached once this mate is completed. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc540

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is mo...

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is moved toward Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility for pre-mating preparations. The node ... More

Pressurized Mating Adapter (PMA)-2 is in the process of being mated to Node 1 of the International Space Station (ISS) under the supervision of Boeing technicians in KSC's Space Station Processing Facility (SSPF). The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. This PMA is a cone-shaped connector to Node 1, which will have two PMAs attached once this mate is completed. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc592

Pressurized Mating Adapter (PMA)-2 is in the process of being mated to...

Pressurized Mating Adapter (PMA)-2 is in the process of being mated to Node 1 of the International Space Station (ISS) under the supervision of Boeing technicians in KSC's Space Station Processing Facility (SSP... More

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is moved into position to be mated to Node 1 of the International Space Station (ISS) by Boeing technicians in KSC's Space Station Processing Facility (SSPF). The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. This PMA is a cone-shaped connector to Node 1, which will have two PMAs attached once this mate is completed. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc589

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is mo...

KENNEDY SPACE CENTER, FLA. -- Pressurized Mating Adapter (PMA)-2 is moved into position to be mated to Node 1 of the International Space Station (ISS) by Boeing technicians in KSC's Space Station Processing Fac... More

Pressurized Mating Adapter (PMA)-2 is moved into position to be mated to Node 1 of the International Space Station (ISS) by Boeing technicians in KSC's Space Station Processing Facility (SSPF). The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. This PMA is a cone-shaped connector to Node 1, which will have two PMAs attached once this mate is completed. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc591

Pressurized Mating Adapter (PMA)-2 is moved into position to be mated ...

Pressurized Mating Adapter (PMA)-2 is moved into position to be mated to Node 1 of the International Space Station (ISS) by Boeing technicians in KSC's Space Station Processing Facility (SSPF). The node is the ... More

Boeing technicians discuss mating Pressurized Mating Adapter (PMA)-2 to Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility (SSPF). The node is the first element of the ISS to be manufactured in the United States and is currently scheduled to lift off aboard the Space Shuttle Endeavour on STS-88 later this year, along with PMAs 1 and 2. This PMA is a cone-shaped connector to Node 1, which will have two PMAs attached once this mate is completed. Once in space, Node 1 will function as a connecting passageway to the living and working areas of the ISS. It has six hatches that will serve as docking ports to the U.S. laboratory module, U.S. habitation module, an airlock and other space station elements KSC-98pc590

Boeing technicians discuss mating Pressurized Mating Adapter (PMA)-2 t...

Boeing technicians discuss mating Pressurized Mating Adapter (PMA)-2 to Node 1 of the International Space Station (ISS) in KSC's Space Station Processing Facility (SSPF). The node is the first element of the IS... More

STS-95 crew members gather around the Vestibular Function Experiment Unit (VFEU) which includes marine fish called toadfish. In foreground, from left, are Mission Specialist Pedro Duque of the European Space Agency (ESA), a technician from the National Space Development Agency of Japan (NASDA), Payload Specialist Chiaki Mukai of NASDA, Pilot Steven W. Lindsey, and Payload Specialist John H. Glenn Jr., who also is a senator from Ohio. At center, facing the camera, are Mission Specialist Scott E. Parazynski and Commander Curtis L. Brown Jr., in back. STS-95 will feature a variety of research payloads, including the Spartan solar-observing deployable spacecraft, the Hubble Space Telescope Orbital Systems Platform, the International Extreme Ultraviolet Hitchhiker, and experiments on space flight and the aging process. STS-95 is targeted for an Oct. 29 launch aboard the Space Shuttle Discovery KSC-98pc863

STS-95 crew members gather around the Vestibular Function Experiment U...

STS-95 crew members gather around the Vestibular Function Experiment Unit (VFEU) which includes marine fish called toadfish. In foreground, from left, are Mission Specialist Pedro Duque of the European Space Ag... More

STS-95 Payload Specialist Chiaki Mukai (left), with the National Space Development Agency of Japan (NASDA), lifts the cover on a container in the Vestibular Function Experiment Unit holding one of the two toadfish that are the subjects of an experiment. Mission Specialist Scott E. Parazynski is helping her check experiments for mission STS-95. The fish will be electronically monitored to determine the effect of gravitational changes on the inner-ear system. Mukai and Parazynski and other crewmembers were making final preparations for launch, targeted for liftoff at 2 p.m. on Oct. 29. The STS-95 crew also includes Mission Commander Curtis L. Brown Jr., Pilot Steven W. Lindsey, Mission Specialist Stephen K. Robinson, Payload Specialist John H. Glenn Jr., senator from Ohio, and Mission Specialist Pedro Duque, with the European Space Agency (ESA). The mission is expected to last 8 days, 21 hours and 49 minutes, returning to KSC at 11:49 a.m. EST on Nov. 7 KSC-98pc1421

STS-95 Payload Specialist Chiaki Mukai (left), with the National Space...

STS-95 Payload Specialist Chiaki Mukai (left), with the National Space Development Agency of Japan (NASDA), lifts the cover on a container in the Vestibular Function Experiment Unit holding one of the two toadf... More

A member of the 36th Fighter Squadron, Osan Air Base, Korea, searches for unexploded ordnance after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

A member of the 36th Fighter Squadron, Osan Air Base, Korea, searches ...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, read the scenario for injuries and building damage after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, read the sc...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, take roll call to determine who is injured or possibly killed after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, take roll c...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, take roll call to determine who is injured or possibly killed after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, take roll c...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, don their chemical warfare masks during a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, don their c...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

TSGT Eric Harper, 51st Civil Engineering Squadron/Fire Department, Osan AB, Korea, talks with firemen after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

TSGT Eric Harper, 51st Civil Engineering Squadron/Fire Department, Osa...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, don their chemical warfare masks during a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, don their c...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, evacuate their building after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan AirBase is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, evacuate th...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

TSGT Eric Harper, 51st Civil Engineering Squadron/Fire Department, Osan Air Base, Korea, takes cover during a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

TSGT Eric Harper, 51st Civil Engineering Squadron/Fire Department, Osa...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 36th Fighter Squadron, Osan Air Base, Korea, search the area for unexploded ordnance after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 36th Fighter Squadron, Osan Air Base, Korea, search the...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 51st Supply Squadron, Osan Air Base, Korea, don their chemical warfare masks during a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 51st Supply Squadron, Osan Air Base, Korea, don their c...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

Members of the 36th Fighter Squadron, Osan Air Base, Korea, search the area for unexploded ordnance after a simulated chemical attack during exercise Foal Eagle, Oct. 28, 1998. Osan Air Base is conducting a base wide exercise that is designed to test and improve the ability of air base personnel to function in a chemical environment

Members of the 36th Fighter Squadron, Osan Air Base, Korea, search the...

The original finding aid described this photograph as: Subject Operation/Series: FOAL EAGLE '98KOREA CD Base: Osan Air Base Country: Republic Of Korea (KOR) Scene Camera Operator: SRA Jeffrey Allen Release... More

STS044-14-010 - STS-044 - A view of the Visual Function Tester (VFT) drifting on OV-104's middeck

STS044-14-010 - STS-044 - A view of the Visual Function Tester (VFT) d...

The original finding aid described this as: Description: The Visual Function Tester 1 (VFT-1) device drifts on the middeck of Atlantis, Orbiter Vehicle (OV) 104. VFT-1 measures changes in the vision of an astr... More

STS044-14-013 - STS-044 - STS-44 Pilot Henricks uses Visual Function Tester (VFT) on OV-104's middeck

STS044-14-013 - STS-044 - STS-44 Pilot Henricks uses Visual Function T...

The original finding aid described this as: Description: STS-44 Pilot Terence T. Henricks tests his visual acuity with the Visual Function Tester 1 (VFT-1) on the middeck of Atlantis, Orbiter Vehicle (OV) 104.... More

S40-08-017 - STS-040 - Experiment No. 198,Pulmonary Function During Weightlessness

S40-08-017 - STS-040 - Experiment No. 198,Pulmonary Function During We...

The original finding aid described this as: Description: Photographic documentation showing STS-40 crewmembers conducting Experiment No. 198, Pulmonary Function During Weightlessness. Views include: Payload Sp... More

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage of a Lockheed Martin Atlas II rocket is lifted into an upright position. The rocket will be used to launch the Geostationary Operational Environmental Satellite-L (GOES-L). GOES-L is the latest in the current series of advanced geostationary weather satellites in service. Once in orbit, it will become GOES-11 and function as an on-orbit spare to be activated when one of the operational satellites needs to be replaced. Launch is scheduled for Saturday, May 15 at the opening of a launch window which extends from 2:23 to 4:41 a.m. EDT KSC-99pp0423

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage o...

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage of a Lockheed Martin Atlas II rocket is lifted into an upright position. The rocket will be used to launch the Geostationary Operational Envi... More

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage of a Lockheed Martin Atlas II rocket has been lifted into an upright position. The rocket will be used to launch the Geostationary Operational Environmental Satellite-L (GOES-L). GOES-L is the latest in the current series of advanced geostationary weather satellites in service. Once in orbit, it will become GOES-11 and function as an on-orbit spare to be activated when one of the operational satellites needs to be replaced. Launch is scheduled for Saturday, May 15 at the opening of a launch window which extends from 2:23 to 4:41 a.m. EDT KSC-99pp0424

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage o...

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage of a Lockheed Martin Atlas II rocket has been lifted into an upright position. The rocket will be used to launch the Geostationary Operationa... More

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage of a Lockheed Martin Atlas II rocket is lifted into an upright position. The rocket will be used to launch the Geostationary Operational Environmental Satellite-L (GOES-L). GOES-L is the latest in the current series of advanced geostationary weather satellites in service. Once in orbit, it will become GOES-11 and function as an on-orbit spare to be activated when one of the operational satellites needs to be replaced. Launch is scheduled for Saturday, May 15 at the opening of a launch window which extends from 2:23 to 4:41 a.m. EDT KSC-99pp0422

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage o...

At Launch Pad 36A on the Cape Canaveral Air Station, the first stage of a Lockheed Martin Atlas II rocket is lifted into an upright position. The rocket will be used to launch the Geostationary Operational Envi... More

At Launch Pad 36A on the Cape Canaveral Air Station, technicians prepare to erect the first stage of a Lockheed Martin Atlas II rocket which will be used to launch the Geostationary Operational Environmental Satellite-L (GOES-L). GOES-L is the latest in the current series of advanced geostationary weather satellites in service. Once in orbit, it will become GOES-11 and function as an on-orbit spare to be activated when one of the operational satellites needs to be replaced. Launch is scheduled for Saturday, May 15 at the opening of a launch window which extends from 2:23 to 4:41 a.m. EDT KSC-99pp0421

At Launch Pad 36A on the Cape Canaveral Air Station, technicians prepa...

At Launch Pad 36A on the Cape Canaveral Air Station, technicians prepare to erect the first stage of a Lockheed Martin Atlas II rocket which will be used to launch the Geostationary Operational Environmental Sa... More

KENNEDY SPACE CENTER, FLA. -- Looking over a Pressurized Mating Adapter (PMA-3) in the Space Station Processing Facility are Arne Aamodt, with Johnson Space Center, Yuriy Vladimirovich Usachev and Susan J. Helms. Usachev and Helms are two members of the STS-102 crew, who will be staying on the International Space Station (ISS). The third crew member is James S. Voss. They have been designated the Expedition II crew. Mission STS-102 also will be carrying the Leonardo Multi-Purpose Logistics Module (MPLM) to the ISS. The Leonardo will be filled with equipment and supplies to outfit the U.S. laboratory module, which will have been carried to the ISS on a preceding Shuttle flight. In order to function as an attached station module as well as a cargo transport, logistics modules (there are three) also include components that provide some life support, fire detection and suppression, electrical distribution and computer functions. Eventually, the modules also will carry refrigerator freezers for transporting experiment samples and food to and from the station. On the return of STS-102 to Earth, it will bring back the first crew on the station: Bill Shepherd, Sergei Krikalev and Yuri Gidzenko. STS-102 is scheduled to launch no earlier than Oct. 19, 2000, from Launch Pad 39A, Kennedy Space Center KSC-99pp1375

KENNEDY SPACE CENTER, FLA. -- Looking over a Pressurized Mating Adapte...

KENNEDY SPACE CENTER, FLA. -- Looking over a Pressurized Mating Adapter (PMA-3) in the Space Station Processing Facility are Arne Aamodt, with Johnson Space Center, Yuriy Vladimirovich Usachev and Susan J. Helm... More

KENNEDY SPACE CENTER, FLA. -- From a work stand in the Space Station Processing Facility, STS-102 crew members James S. Voss (left) and Yuriy Vladimirovich Usachev (right), of Russia, look over the Pressurized Mating Adapter (PMA-3). The PMA-3 is a component of the International Space Station (ISS). Voss and Usachev are two crew members who will be staying on the ISS as the Expedition II crew. The third is Susan J. Helms. Along with the crew, Mission STS-102 also will be carrying the Leonardo Multi-Purpose Logistics Module (MPLM) to the ISS. The Leonardo will be filled with equipment and supplies to outfit the U.S. laboratory module, which will have been carried to the ISS on a preceding Shuttle flight. In order to function as an attached station module as well as a cargo transport, logistics modules (there are three) also include components that provide some life support, fire detection and suppression, electrical distribution and computer functions. Eventually, the modules also will carry refrigerator freezers for transporting experiment samples and food to and from the station. On the return of STS-102 to Earth, it will bring back the first crew on the station: Bill Shepherd, Sergei Krikalev and Yuri Gidzenko. STS-102 is scheduled to launch no earlier than Oct. 19, 2000, from Launch Pad 39A, Kennedy Space Center KSC-99pp1378

KENNEDY SPACE CENTER, FLA. -- From a work stand in the Space Station P...

KENNEDY SPACE CENTER, FLA. -- From a work stand in the Space Station Processing Facility, STS-102 crew members James S. Voss (left) and Yuriy Vladimirovich Usachev (right), of Russia, look over the Pressurized ... More

KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, STS-102's Expedition II discuss the Pressurized Mating Adapter (PMA-3) (top of photo) with workers from Johnson Space Center. From left are Yuriy Vladimirovich Usachev, Dave Moore (JSC), Susan J. Helms, James S. Voss, Arne Aamodt and Matt Myers (both of JSC). The PMA-3 is a component of the International Space Station (ISS). Voss, Helms and Usachev will be staying on the ISS, replacing the Expedition I crew, Bill Shepherd, Sergei Krikalev and Yuri Gidzenko. Along with the crew, Mission STS-102 also will be carrying the Leonardo Multi-Purpose Logistics Module (MPLM) to the ISS. The Leonardo will be filled with equipment and supplies to outfit the U.S. laboratory module, which will have been carried to the ISS on a preceding Shuttle flight. In order to function as an attached station module as well as a cargo transport, logistics modules (there are three) also include components that provide some life support, fire detection and suppression, electrical distribution and computer functions. Eventually, the modules also will carry refrigerator freezers for transporting experiment samples and food to and from the station. STS-102 is scheduled to launch no earlier than Oct. 19, 2000, from Launch Pad 39A, Kennedy Space Center KSC-99pp1379

KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility...

KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, STS-102's Expedition II discuss the Pressurized Mating Adapter (PMA-3) (top of photo) with workers from Johnson Space Center. From left ar... More

KENNEDY SPACE CENTER, FLA. -- Members of the STS-102 crew, known as the Expedition II crew, and workers from Johnson Space Center get a close look at the Pressurized Mating Adapter (PMA-3) in the Space Station Processing Facility. The PMA-3 is a component of the International Space Station (ISS). Making up the Expedition II crew are James S. Voss, Susan J. Helms and Yuriy Vladimirovich Usachev, of Russia. Along with the crew, Mission STS-102 also will be carrying the Leonardo Multi-Purpose Logistics Module (MPLM) to the ISS. The Leonardo will be filled with equipment and supplies to outfit the U.S. laboratory module, which will have been carried to the ISS on a preceding Shuttle flight. In order to function as an attached station module as well as a cargo transport, logistics modules (there are three) also include components that provide some life support, fire detection and suppression, electrical distribution and computer functions. Eventually, the modules also will carry refrigerator freezers for transporting experiment samples and food to and from the station. On the return of STS-102 to Earth, it will bring back the first crew on the station: Bill Shepherd, Sergei Krikalev and Yuri Gidzenko. STS-102 is scheduled to launch no earlier than Oct. 19, 2000, from Launch Pad 39A, Kennedy Space Center KSC-99pp1377

KENNEDY SPACE CENTER, FLA. -- Members of the STS-102 crew, known as th...

KENNEDY SPACE CENTER, FLA. -- Members of the STS-102 crew, known as the Expedition II crew, and workers from Johnson Space Center get a close look at the Pressurized Mating Adapter (PMA-3) in the Space Station ... More

KENNEDY SPACE CENTER, FLA. -- STS-102 crew member Susan J. Helms looks over a Pressurized Mating Adapter (PMA-3) in the Space Station Processing Facility. The PMA-3 is a component of the International Space Station (ISS). Helms is one of three who will be staying on the ISS as the Expedition II crew. The others are Yuriy Vladimirovich Usachev and James S. Voss. Along with the crew, Mission STS-102 also will be carrying the Leonardo Multi-Purpose Logistics Module (MPLM) to the ISS. The Leonardo will be filled with equipment and supplies to outfit the U.S. laboratory module, which will have been carried to the ISS on a preceding Shuttle flight. In order to function as an attached station module as well as a cargo transport, logistics modules (there are three) also include components that provide some life support, fire detection and suppression, electrical distribution and computer functions. Eventually, the modules also will carry refrigerator freezers for transporting experiment samples and food to and from the station. On the return of STS-102 to Earth, it will bring back the first crew on the station: Bill Shepherd, Sergei Krikalev and Yuri Gidzenko. STS-102 is scheduled to launch no earlier than Oct. 19, 2000, from Launch Pad 39A, Kennedy Space Center KSC-99pp1376

KENNEDY SPACE CENTER, FLA. -- STS-102 crew member Susan J. Helms looks...

KENNEDY SPACE CENTER, FLA. -- STS-102 crew member Susan J. Helms looks over a Pressurized Mating Adapter (PMA-3) in the Space Station Processing Facility. The PMA-3 is a component of the International Space Sta... More

KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-102 crew pose with workers from Johnson Space Center in front of the Pressurized Mating Adapter (PMA-3), a component of the International Space Station (ISS). From left are Dave Moore (JSC), Susan J. Helms, Arne Aamodt (JSC), Yuriy Vladimirovich Usachev, Matt Myers (JSC) and James S. Voss. Voss, Helms and Usachev, known as the Expedition II crew, will be staying on the ISS, replacing the Expedition I crew, Bill Shepherd, Sergei Krikalev and Yuri Gidzenko. Along with the crew, Mission STS-102 also will be carrying the Leonardo Multi-Purpose Logistics Module (MPLM) to the ISS. The Leonardo will be filled with equipment and supplies to outfit the U.S. laboratory module, which will have been carried to the ISS on a preceding Shuttle flight. In order to function as an attached station module as well as a cargo transport, logistics modules (there are three) also include components that provide some life support, fire detection and suppression, electrical distribution and computer functions. Eventually, the modules also will carry refrigerator freezers for transporting experiment samples and food to and from the station. STS-102 is scheduled to launch no earlier than Oct. 19, 2000, from Launch Pad 39A, Kennedy Space Center KSC-99pp1380

KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility...

KENNEDY SPACE CENTER, FLA. -- In the Space Station Processing Facility, members of the STS-102 crew pose with workers from Johnson Space Center in front of the Pressurized Mating Adapter (PMA-3), a component of... More

A United States Marine Corps Cargo Helicopter, CH-53E from Marine Helicopter Squadron 268, Third Marine Air Wing, lands at Camp Pendleton, California after transporting four M198 Medium Towed Howitzers for a training exercise conducted by Battery "R", Fifth Battalion, Eleventh Marines,. The primary function of the CH-53E is tranportation of heavy equipment and supplies during the ship-to-shore movement of an amphibious assault and during subsequent operations ashore

A United States Marine Corps Cargo Helicopter, CH-53E from Marine Heli...

The original finding aid described this photograph as: Base: Marine Corps Base Camp Pendleton State: California (CA) Country: United States Of America (USA) Scene Camera Operator: LCPL Michael T. Brown, Usm... More

US Air Force AIRMAN First Class Marcus Garriott, a ground radio specialist from the 48th Communications Squadron (CS), 48th Fighter Wing, Royal Air Force Lakenheath, United Kingdom, hooks up a public address system before an official function

US Air Force AIRMAN First Class Marcus Garriott, a ground radio specia...

The original finding aid described this photograph as: Base: Raf Lakenheath State: East Anglia Country: England / Great Britain (ENG) Scene Camera Operator: A1C James L.Harper Jr., USAF Release Status: Rel... More

Major General Daniel James, III (left) Texas Adjutant General, congratulates LT Dale Bush, a student going through F-16 pilot training at the 149th Fighter Wing, Lackland Air Force Base, Texas at the gruduation ceremony in San Antonio, Texas. This is the last function that Major General James will preside over as he leaves the state of Texas to go on to a new position as Director, Air National Guard

Major General Daniel James, III (left) Texas Adjutant General, congra...

The original finding aid described this photograph as: Base: Lackland Air Force Base State: Texas (TX) Country: United States Of America (USA) Scene Camera Operator: SSGT Elaine Wilson-Burney, USAF Release... More

In the cargo bay of a C-17 Globemaster, US Army Major James Nazar performs a function check of his equipment before flying a High Altitude Low Opening (HALO) mission, January 22, 2001

In the cargo bay of a C-17 Globemaster, US Army Major James Nazar perf...

The original finding aid described this photograph as: Base: Macdill Air Force Base State: Florida (FL) Country: United States Of America (USA) Scene Camera Operator: SSGT Stan Parker, USAF Release Status:... More

Two F/A-18B aircraft involved in the AFF program return to base in close formation with the autonomous function disengaged. EC01-0050-17

Two F/A-18B aircraft involved in the AFF program return to base in clo...

Two F/A-18B aircraft involved in the AFF program return to base in close formation with the autonomous function disengaged.

STAFF Sergeant Pete Tice, from the 31st RED HORSE Flight, Camp Darby, Italy, performs a function check on a 16 cubic yard scraper. The 31st RED HORSE Flight provides a highly mobile civil engineer response force to support contingency and special operations worldwide. The primary mission is to set-up field and contingency operations to support large-scale missions. Activities include heavy damage repair, barebase development and heavy engineering operations. The 31st RED HORSE Flight possess special capabilities, such as water-well drilling, explosive demolition, quarry operations, concrete mobile operations, material testing, expedient facility erection, and concrete and asphalt paving

STAFF Sergeant Pete Tice, from the 31st RED HORSE Flight, Camp Darby, ...

The original finding aid described this photograph as: Base: Camp Darby, Livorno State: Toscana Country: Italy (ITA) Scene Major Command Shown: USAFE Scene Camera Operator: SRA Dennis Henry Release Status... More

STAFF Sergeant Pete Tice, from the 31st RED HORSE Flight, Camp Darby, Italy, performs a function check on a tracked excavator; shown with impactor attachments. The 31st RED HORSE Flight provides a highly mobile civil engineer response force to support contingency and special operations worldwide. The primary mission is to set-up field and contingency operations to support large-scale missions. Activities include heavy damage repair, barebase development and heavy engineering operations. The 31st RED HORSE Flight possess special capabilities, such as water-well drilling, explosive demolition, quarry operations, concrete mobile operations, material testing, expedient facility erection, and ...

STAFF Sergeant Pete Tice, from the 31st RED HORSE Flight, Camp Darby, ...

The original finding aid described this photograph as: [Complete] Scene Caption: Staff Sergeant Pete Tice, from the 31st RED HORSE Flight, Camp Darby, Italy, performs a function check on a tracked excavator; ... More

SENIOR AIRMAN Adam Weingarten, a Avionics Intermediate Shop Technician assigned to the 31st Maintenance Squadron, Avionics Flight, Aviano Air Base, Italy, perfoms a function and alignment check on an F-16 Pilot's Flight Control Throttle Grip using specialized testing equipment

SENIOR AIRMAN Adam Weingarten, a Avionics Intermediate Shop Technician...

The original finding aid described this photograph as: Base: Aviano Air Base State: Pordenone Country: Italy (ITA) Scene Major Command Shown: USAFE Scene Camera Operator: SSGT Jeremiah Erickson Release St... More

Technical Sergeant (TSGT) Monica Davids, USAF, (right), 31st Mission Support Squadron, NCOIC of customer service and NCOIC of the Personnel Deployment Function (PDF) checks TSGT Dinardo's ID card and verifies his information on the Air Force form 245, employment locator and processing checklist. TSGT Dinardo, 603rd Air Control Squadron, is processing through the mobility line prior to deploying for an annual deployment TACTICAL FIGHTER WEAPONRY-01 in Denmark to hone his skills providing air and ground forces command and control from remote locations during contingency operations. TACTICAL FIGHTER WEAPONRY-01 is an annual Danish invitational live-fly exercise aimed at training and...

Technical Sergeant (TSGT) Monica Davids, USAF, (right), 31st Mission S...

The original finding aid described this photograph as: [Complete] Scene Caption: Technical Sergeant (TSGT) Monica Davids, USAF, (right), 31st Mission Support Squadron, NCOIC of customer service and NCOIC of th... More

Personnel Readiness Function, STAFF Sergeant Danielle Sims, USAF, 86th Mission Support Squadron on Ramstein Air Base, Germany inventories PERSCO (Personnel Support for Contingency Operations) laptops prepared for deployments

Personnel Readiness Function, STAFF Sergeant Danielle Sims, USAF, 86th...

The original finding aid described this photograph as: Base: Ramstein Air Base State: Rheinland-Pfalz Country: Deutschland / Germany (DEU) Scene Major Command Shown: USAFE Scene Camera Operator: SRA Latoni... More

Personnel Readiness Function, Technical Sergeant Latricia Brown, USAF, 86th Mission Support Squadron on Ramstein Air Base Germany, monitors readiness indicators for wing personnel

Personnel Readiness Function, Technical Sergeant Latricia Brown, USAF,...

The original finding aid described this photograph as: Base: Ramstein Air Base State: Rheinland-Pfalz Country: Deutschland / Germany (DEU) Scene Major Command Shown: USAFE Scene Camera Operator: SRA Latoni... More

Technical Sergeant (TSGT) David Larrabee, (right), USAF, 39th Maintenance Squadron, Non-Commissioned Officer in Charge (NCOIC) of Precision Guided Missile support section, assists SENIOR AIRMAN (SRA) Brian Oda, USAF, 39th MXS Precision Guided Missile crew member, Incirlik Air Base, Turkey, function test the guidance and control section of the AIM-7M missile. The test is part of a 180-day technical order (TO) requirement at Incirlik Air Base, Turkey

Technical Sergeant (TSGT) David Larrabee, (right), USAF, 39th Maintena...

The original finding aid described this photograph as: Base: Incirlik Air Base, Adana Country: Turkey (TUR) Scene Major Command Shown: USAFE Scene Camera Operator: SRA Matthew J. Hannen, USAF Release Statu... More

To ensure all the switches are operational, SENIOR AIRMAN Adam Weingarten, USAF, an Aviation Technician, 31st Maintenance Squadron, Aviano Air Base, Italy, connects an F-16 flight control stick to a test terminal and performs a function check

To ensure all the switches are operational, SENIOR AIRMAN Adam Weingar...

The original finding aid described this photograph as: Base: Aviano Air Base State: Pordenone Country: Italy (ITA) Scene Major Command Shown: USAFE Scene Camera Operator: SSGT Mitch Fuqua, USAF Release St... More

Technical Sergeant Cody Harris, USAF, (back), and SENIOR AIRMAN Eric St. Mary, USAF, Precision Measuring Equipment Laboratory (PMEL) technicians, 31st Maintenance Squadron, Aviano Air Base, Italy, perform a function check on a Spectrum Analyzer used to maintain Electronic Warfare Systems

Technical Sergeant Cody Harris, USAF, (back), and SENIOR AIRMAN Eric S...

The original finding aid described this photograph as: Base: Aviano Air Base State: Pordenone Country: Italy (ITA) Scene Major Command Shown: USAFE Scene Camera Operator: SSGT Mitch Fuqua, USAF Release St... More

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