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Joint stool
Joint Stool

Joint Stool

Possibly made in New England, United States

Cheveaux de-frize, large joints or beams, stuck full of wooden pins, armed with iron, to stop breaches, or to secure a passage of a camp against the enemy's cavalry

Cheveaux de-frize, large joints or beams, stuck full of wooden pins, a...

Print shows a wooden barricade for defending against a cavalry charge. Title from item. Illus. in: A new military, historical, and explanatory dictionary ... / Thomas Simes. Philadelphia : Sold by Humphreys, Be... more

Expansion joints for return piping

Expansion joints for return piping

U.S. Capitol (drawing). This record contains unverified data from caption card.

Airplanes - Parts - Universal joints for military trucks; triggers and sears for Russian rifle and aircraft turn buckles manufactured by Baker Gun and Forging Co., Batavia, N.Y

Airplanes - Parts - Universal joints for military trucks; triggers and...

Photographer: Baker Gun and Forging Co. Airplanes - Parts

Kruger and Ward

Kruger and Ward

Opening title introduces "Kruger and Ward, the tall and short of it." The camera iris opens on a stage with a painted backdrop of a canyon and waterfall. Two clowns walk across the stage: a dwarf with a fake ba... more

Toe Drain (Sealing Pipe Joints)

Toe Drain (Sealing Pipe Joints)

Pine Ridge Agency: Miscellaneous Photographs

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts]

[The Glaenzer Spicer - French Industry Now Axed on Defense Production ...

[The Glaenzer Spicer - French Industry Now Axed on Defense Production Makers of Joints and Shafts] - [FRA-3544 through FRA-3553]

Vacuum proving lines (8-inch joints,) Lawrence Livermore National Laboratory. Formerly "For Official Use Only." Unclassified 9/15/1965. Photograph taken November 29, 1950. Measurements Project-99

Vacuum proving lines (8-inch joints,) Lawrence Livermore National Labo...

Digital Preservation File Name and Format: 434-LB-5-XBD201208-00888.TIF Photographs Documenting Scientists, Special Events, and Nuclear Research Facilities, Instruments, and Projects at the Berkeley Lab

72-inch bubble chamber magnet coil joints in copper conductor. Photograph taken January 8, 1957. Bubble Chamber-125

72-inch bubble chamber magnet coil joints in copper conductor. Photogr...

Digital Preservation File Name and Format: 434-LB-6-XBD201210-01329.TIF Photographs Documenting Scientists, Special Events, and Nuclear Research Facilities, Instruments, and Projects at the Berkeley Lab

72-inch bubble chamber magnet coil joints in copper conductor. Photograph taken January 8, 1957. Bubble Chamber-124

72-inch bubble chamber magnet coil joints in copper conductor. Photogr...

Digital Preservation File Name and Format: 434-LB-6-XBD201210-01328.TIF Photographs Documenting Scientists, Special Events, and Nuclear Research Facilities, Instruments, and Projects at the Berkeley Lab

Insulation being repaired on faulty joints. Two pieces of conductor were removed from the first layer of the lower coil. The leaky joints were cut out and the previously shaped conductor was used in the ninth layer of the upper coil. Photograph taken May 31, 1957. Bubble Chamber-262

Insulation being repaired on faulty joints. Two pieces of conductor we...

Digital Preservation File Name and Format: 434-LB-6-XBD201210-01370.TIF Photographs Documenting Scientists, Special Events, and Nuclear Research Facilities, Instruments, and Projects at the Berkeley Lab

72-inch bubble chamber magnet coil joints in copper conductor. Photograph taken January 8, 1957. Bubble Chamber-126

72-inch bubble chamber magnet coil joints in copper conductor. Photogr...

Digital Preservation File Name and Format: 434-LB-6-XBD201210-01330.TIF Photographs Documenting Scientists, Special Events, and Nuclear Research Facilities, Instruments, and Projects at the Berkeley Lab

Second and third lengths of conductor removed from lower coil after defective joints were located. Photograph taken January 9, 1957. Bubble Chamber-202

Second and third lengths of conductor removed from lower coil after de...

Digital Preservation File Name and Format: 434-LB-6-XBD201210-01359.TIF Photographs Documenting Scientists, Special Events, and Nuclear Research Facilities, Instruments, and Projects at the Berkeley Lab

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

The original finding aid described this as: Capture Date: 7/11/1975 Photographer: ANGEL TORRES Keywords: Larsen Scan Photographs Relating to Agency Activities, Facilities and Personnel

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

The original finding aid described this as: Capture Date: 7/11/1975 Photographer: ANGEL TORRES Keywords: Larsen Scan Photographs Relating to Agency Activities, Facilities and Personnel

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

The original finding aid described this as: Capture Date: 7/11/1975 Photographer: ANGEL TORRES Keywords: Larsen Scan Photographs Relating to Agency Activities, Facilities and Personnel

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

BRAZED TRANSITION JOINTS - 1 UNBRAZED ASSEMBLY - 2 BRAZED PIPE JOINTS

The original finding aid described this as: Capture Date: 7/11/1975 Photographer: ANGEL TORRES Keywords: Larsen Scan Photographs Relating to Agency Activities, Facilities and Personnel

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

The original finding aid described this as: Capture Date: 5/17/1978 Photographer: HANK SEIDEL Keywords: Larsen Scan Location Building No: 63 Photographs Relating to Agency Activities, Facilities and Personnel

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

The original finding aid described this as: Capture Date: 5/17/1978 Photographer: HANK SEIDEL Keywords: Larsen Scan Location Building No: 63 Photographs Relating to Agency Activities, Facilities and Personnel

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

The original finding aid described this as: Capture Date: 5/17/1978 Photographer: HANK SEIDEL Keywords: Larsen Scan Location Building No: 63 Photographs Relating to Agency Activities, Facilities and Personnel

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

EXPANSION JOINTS IN THE HPF HIGH PRESSURE FACILITY

The original finding aid described this as: Capture Date: 5/17/1978 Photographer: HANK SEIDEL Keywords: Larsen Scan Location Building No: 63 Photographs Relating to Agency Activities, Facilities and Personnel

STS100-393-012 - STS-100 - View of latching end effector A (#1) for the SSRMS taken during STS-100

STS100-393-012 - STS-100 - View of latching end effector A (#1) for th...

The original finding aid described this as: Description: View of latching end effector A (#1), camera and the roll, pitch and yaw joints for the Space Station Remote Manipulator System (SSRMS) taken during th... more

S03-19-024 - STS-003 - Deployed RMS showing operational elbow and wrist joints

S03-19-024 - STS-003 - Deployed RMS showing operational elbow and wris...

The original finding aid described this as: Description: Remote manipulator system (RMS) elbow and wrist joints operated above payload bay (PLB) in blackness of space. View shows RMS upper section from the elb... more

The Joints Chiefs of STAFF badge

The Joints Chiefs of STAFF badge

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

Astronaut Sherwood Spring on RMS checks joints on the ACCESS device

Astronaut Sherwood Spring on RMS checks joints on the ACCESS device

Astronaut Sherwood C. Spring, anchored to the foot restraint on the remote manipulator system (RMS) arm, checks joints on the tower-like Assembly Concept for Construction of Erectable Space Structures (ACCESS) ... more

Admiral (ADM) William J. Crowe, chairman, Joints Chiefs of STAFF, converses with Captain (CAPT) George Street, USN (ret.), center, and other Medal of Honor recipients attending the Medal of Honor Ball.  The ball is being held in conjunction with inaugural

Admiral (ADM) William J. Crowe, chairman, Joints Chiefs of STAFF, conv...

The original finding aid described this photograph as: Base: Washington State: District Of Columbia (DC) Country: United States Of America (USA) Scene Camera Operator: Hm3 Gerald Flack, USN Release Status:... more

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, reaches out to shake the hand of a flag officer waiting to greet him upon his arrival at the air station

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, ...

The original finding aid described this photograph as: Base: Naval Air Station, Keflavik Country: Iceland (ISL) Scene Camera Operator: PH1 Porter Release Status: Released to Public Combined Military Service... more

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, is saluted as he arrives at the air station

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, ...

The original finding aid described this photograph as: Base: Naval Air Station, Keflavik Country: Iceland (ISL) Scene Camera Operator: PH1 Porter Release Status: Released to Public Combined Military Service... more

While visiting US Army troops participating in Exercise NORTHERN VIKING '89, Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, tries on a baseball cap bearing the insignia of US Army Forces, Iceland

While visiting US Army troops participating in Exercise NORTHERN VIKIN...

The original finding aid described this photograph as: Subject Operation/Series: NORTHERN VIKING '89 Base: Keflavik Country: Iceland (ISL) Scene Camera Operator: PH2 Woxland Release Status: Released to Pub... more

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, is interviewed by an officer of the Navy Broadcasting Service during his visit to Iceland

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, ...

The original finding aid described this photograph as: Base: Naval Air Station, Keflavik Country: Iceland (ISL) Scene Camera Operator: PH2 Woxland Release Status: Released to Public Combined Military Servic... more

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, stands to address a meeting of senior officers during his visit to Iceland

Admiral William J. Crowe Jr., chairman of the Joints Chiefs of STAFF, ...

The original finding aid described this photograph as: Base: Naval Air Station, Keflavik Country: Iceland (ISL) Scene Camera Operator: PH2 Woxland Release Status: Released to Public Combined Military Servic... more

The chairman of the Joints Chiefs of STAFF, ADM William J. Crowe Jr., left, watches as GEN Duane H. Cassidy attaches a unit award to the flag of the U.S. Transportation Command (TRANSCOM). GEN Cassidy, who is retiring after 36 years of service, will be relieved as Commander in CHIEF, Military Airlift Command/TRANSCOM, by GEN Hansford T. Johnson

The chairman of the Joints Chiefs of STAFF, ADM William J. Crowe Jr., ...

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: TSGT Bob Fehringer Release Status: Rele... more

Several Navy Reserve Seabees assemble pipe joints during the Reserve Naval Construction Force "Readiness Rodeo" competition

Several Navy Reserve Seabees assemble pipe joints during the Reserve N...

The original finding aid described this photograph as: Base: Ncbc, Gulfport State: Mississippi(MS) Country: United States Of America (USA) Scene Camera Operator: Josa Gary Boucher Release Status: Released ... more

The Honorable Leslie ("Les") Aspin, Jr., (third from right), U.S. Secretary of Defense, holds his first official meeting with the Joints Chiefs of STAFF: U.S. Army GEN. Colin L. Powell (second from right), Chairman of the Joint Chiefs of STAFF; U.S. Navy Adm. David E. Jeremiah (right), Vice Chairman of the Joint Chiefs of STAFF; U.S. Air Force GEN. Merrill A. ("Tony") McPeak (fourth from right), Air Force CHIEF of STAFF; U.S. Army GEN. Gordon R. Sullivan (second from left), Army CHIEF of STAFF; U.S. Navy Adm. Frank B. Kelson, II (left, behind Gen Sullivan), CHIEF of Naval Operations; and U.S. Marine Corps GEN. Carl E. Mundy (third from left), Commandant of the Marine Corps, after his...

The Honorable Leslie ("Les") Aspin, Jr., (third from right), U.S. Secr...

The original finding aid described this photograph as: [Complete] Scene Caption: The Honorable Leslie ("Les") Aspin, Jr., (third from right), U.S. Secretary of Defense, holds his first official meeting with th... more

Navy LT. j.g. Michael A. Read of Amphibious Construction Battalion One (ACE-1), based at Amphibious Base Coronado, and Army Corps of Engineers 1ST LT. Albert E. Quaye of the 497th Engineering Company, based at Fort Eustis, VA, discuss the over lapping joints on the causeway constructed by Joint Task Force Six (JTF6) as part of the extension of the international fence on the border of the United States of America and the Republic of Mexico

Navy LT. j.g. Michael A. Read of Amphibious Construction Battalion One...

The original finding aid described this photograph as: Base: Border Field St Park San Diego State: California (CA) Country: United States Of America (USA) Scene Camera Operator: PH2 M. C. Farrington Releas... more

Military Photographer of the Year Winner 1998 Title: "Leukemia" Category: Feature Place: Second Place Portfolio and the National Press Photographers Association Award. Dwight Neubeck, 11, receives his weekly dose of shots while undergoing chemotherapy treatment for his leukemia at Wilford Hall Medical Center, Lackland AFB, Texas. Dwight's ordeal began when he started feeling sick in May 1996 at Eglin AFB, Florida. His parents, SSgt Pat Neubeck and mom Pat, noticed a dramatic change in their son's health. "He was a very active child who loved to fish, hunt and do all kinds of outdoor activities. Then one day, he began experiencing persistent knee pains and swelling of the joints," Lora...

Military Photographer of the Year Winner 1998 Title: "Leukemia" Catego...

The original finding aid described this photograph as: [Complete] Scene Caption: Military Photographer of the Year Winner 1998 Title: "Leukemia" Category: Feature Place: Second Place Portfolio and the Nationa... more

Workers move a box containing a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) into the Space Station Processing Facility at KSC. It joins two other segments for a campaign of prelaunch processing activities CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pp0544

Workers move a box containing a segment of the Canadian Space Agency's...

Workers move a box containing a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) into the Space Station Processing Facility at KSC. It joins two other segments for a ... more

Workers uncrate a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) in the Space Station Processing Facility at KSC. It joins two other segments for a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pd0545

Workers uncrate a segment of the Canadian Space Agency's (CSA) Space S...

Workers uncrate a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) in the Space Station Processing Facility at KSC. It joins two other segments for a campaign of prel... more

Workers guide a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) past the Leonardo Multi-Purpose Logistics Module in the Space Station Processing Facility at KSC. The segment joins two others for a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pp0547

Workers guide a segment of the Canadian Space Agency's (CSA) Space Sta...

Workers guide a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) past the Leonardo Multi-Purpose Logistics Module in the Space Station Processing Facility at KSC. The... more

The Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) arrives at Kennedy Space Center to begin a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pd0541

The Canadian Space Agency's (CSA) Space Station Remote Manipulator Sys...

The Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) arrives at Kennedy Space Center to begin a campaign of prelaunch processing activities. CSA's first contribution to the Internat... more

The Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) arrives at the Space Station Processing Facility at KSC to begin a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pd0542

The Canadian Space Agency's (CSA) Space Station Remote Manipulator Sys...

The Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) arrives at the Space Station Processing Facility at KSC to begin a campaign of prelaunch processing activities. CSA's first cont... more

The Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) arrives at the Space Station Processing Facility at KSC to begin a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pp0543

The Canadian Space Agency's (CSA) Space Station Remote Manipulator Sys...

The Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) arrives at the Space Station Processing Facility at KSC to begin a campaign of prelaunch processing activities. CSA's first cont... more

Workers guide a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) in the Space Station Processing Facility at KSC. It joins two other segments for a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pd0546

Workers guide a segment of the Canadian Space Agency's (CSA) Space Sta...

Workers guide a segment of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) in the Space Station Processing Facility at KSC. It joins two other segments for a campaign of prelau... more

Segments of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) are lined up in the Space Station Processing Facility at KSC. They will undergo a campaign of prelaunch processing activities. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for July 2000 KSC-99pp0548

Segments of the Canadian Space Agency's (CSA) Space Station Remote Man...

Segments of the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS) are lined up in the Space Station Processing Facility at KSC. They will undergo a campaign of prelaunch processing a... more

Workers in the Space Station Processing Facility raise two segments of the Canadian Space Agency's Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is at KSC to begin a campaign of prelaunch processing activities. It is scheduled to be launched aboard Space Shuttle Endeavour on mission STS-100, currently planned for July 2000 KSC-99pp0570

Workers in the Space Station Processing Facility raise two segments of...

Workers in the Space Station Processing Facility raise two segments of the Canadian Space Agency's Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the International Space Station (I... more

Workers in the Space Station Processing Facility raise a segment of the Canadian Space Agency's Space Station Remote Manipulator System (SSRMS) to move it to a workstand. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is at KSC to begin a campaign of prelaunch processing activities. It is scheduled to be launched aboard Space Shuttle Endeavour on mission STS-100, currently planned for July 2000 KSC-99pp0569

Workers in the Space Station Processing Facility raise a segment of th...

Workers in the Space Station Processing Facility raise a segment of the Canadian Space Agency's Space Station Remote Manipulator System (SSRMS) to move it to a workstand. CSA's first contribution to the Interna... more

Workers in the in the Space Station Processing Facility move two segments of the Canadian Space Agency's Space Station Remote Manipulator System (SSRMS) to a workstand. CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement.. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is at KSC to begin a campaign of prelaunch processing activities. It is scheduled to be launched aboard Space Shuttle Endeavour on mission STS-100, currently planned for July 2000 KSC-99pp0571

Workers in the in the Space Station Processing Facility move two segme...

Workers in the in the Space Station Processing Facility move two segments of the Canadian Space Agency's Space Station Remote Manipulator System (SSRMS) to a workstand. CSA's first contribution to the Internati... more

In the Space Station Processing Facility, workers perform prelaunch processing activities on the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for April 2001 KSC-00pp0507

In the Space Station Processing Facility, workers perform prelaunch pr...

In the Space Station Processing Facility, workers perform prelaunch processing activities on the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the In... more

In the Space Station Processing Facility, two workers perform prelaunch processing activities on the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for April 2001 KSC-00pp0509

In the Space Station Processing Facility, two workers perform prelaunc...

In the Space Station Processing Facility, two workers perform prelaunch processing activities on the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS). CSA's first contribution to th... more

In the Space Station Processing Facility, a worker performs prelaunch processing activities on the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the International Space Station (ISS), the SSRMS is the primary means of transferring payloads between the orbiter payload bay and the ISS for assembly. The 56-foot-long robotic arm includes two 12-foot booms joined by a hinge. Seven joints on the arm allow highly flexible and precise movement. Latching End Effectors are mounted on each end of the arm for grappling. Video cameras mounted on the booms and end effectors will give astronauts maximum visibility for operations and maintenance tasks on the ISS. The SSRMS is scheduled to be launched aboard Space Shuttle Endeavour on STS-100, currently planned for April 2001 KSC-00pp0508

In the Space Station Processing Facility, a worker performs prelaunch ...

In the Space Station Processing Facility, a worker performs prelaunch processing activities on the Canadian Space Agency's (CSA) Space Station Remote Manipulator System (SSRMS). CSA's first contribution to the ... more

Workers in the Space Station Processing Facility help guide the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS) suspended from an overhead crane. The SSRMS is being moved to a test stand where it will be mated to its payload carrier. This pallet will later be installed into the payload bay of Space Shuttle Endeavour for launch to the International Space Station on STS-100 in April 2001. The 56-foot-long arm will be the primary means of transferring payloads between the orbiter payload bay and the Station. Its three segments comprise seven joints for highly flexible land precise movement, making it capable of moving around the Station’s exterior like an inchworm KSC-00pp1149

Workers in the Space Station Processing Facility help guide the Canadi...

Workers in the Space Station Processing Facility help guide the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS) suspended from an overhead crane. The SSRMS is being moved to a test stand... more

Workers in the Space Station Processing Facility attach an overhead crane to the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS). The crane will lift and transfer the SSRMS to a test stand where it will be mated to its payload carrier. This pallet will later be installed into the payload bay of Space Shuttle Endeavour for launch to the International Space Station on STS-100 in April 2001. The 56-foot-long arm will be the primary means of transferring payloads between the orbiter payload bay and the Station. Its three segments comprise seven joints for highly flexible land precise movement, making it capable of moving around the Station’s exterior like an inchworm KSC-00pp1147

Workers in the Space Station Processing Facility attach an overhead cr...

Workers in the Space Station Processing Facility attach an overhead crane to the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS). The crane will lift and transfer the SSRMS to a test sta... more

With gentle guidance, the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS) is lowered by crane onto a test stand in the Space Station Processing Facility. At the test stand the SSRMS it will be mated to its payload carrier. This pallet will later be installed into the payload bay of Space Shuttle Endeavour for launch to the International Space Station on STS-100 in April 2001. The 56-foot-long arm will be the primary means of transferring payloads between the orbiter payload bay and the Station. Its three segments comprise seven joints for highly flexible land precise movement, making it capable of moving around the Station’s exterior like an inchworm KSC-00pp1151

With gentle guidance, the Canadian Space Agency’s Space Station Remote...

With gentle guidance, the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS) is lowered by crane onto a test stand in the Space Station Processing Facility. At the test stand the SSRMS it w... more

In the Space Station Processing Facility, the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS), suspended from an overhead crane, zeroes in on its destination, the test stand below. At the test stand the SSRMS it will be mated to its payload carrier. This pallet will later be installed into the payload bay of Space Shuttle Endeavour for launch to the International Space Station on STS-100 in April 2001. The 56-foot-long arm will be the primary means of transferring payloads between the orbiter payload bay and the Station. Its three segments comprise seven joints for highly flexible land precise movement, making it capable of moving around the Station’s exterior like an inchworm KSC-00pp1150

In the Space Station Processing Facility, the Canadian Space Agency’s ...

In the Space Station Processing Facility, the Canadian Space Agency’s Space Station Remote Manipulator System (SSRMS), suspended from an overhead crane, zeroes in on its destination, the test stand below. At th... more