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Anaglyph, North America
PIA03378
Sol (our sun)
C-Band Interferometric Radar
Title Anaglyph, North America
Original Caption Released with Image This anaglyph (stereoscopic view) of North America was generated with data from the Shuttle Radar Topography Mission (SRTM). It is best viewed at or near full resolution with anaglyph glasses. For this broad view the resolution of the data was first reduced to 30 arcseconds (about 928 meters north-south and 736 meters east-west in central North America), matching the best previously existing global digital topographic data set called GTOPO30. The data were then resampled to a Mercator projection with approximately square pixels (about one kilometer, or 0.6 miles, on each side). Even at this decreased resolution the variety of landforms comprising the North American continent is readily apparent. Active tectonics (structural deformation of the Earth's crust) along and near the Pacific North American plate boundary creates the great topographic relief seen along the Pacific coast. Earth's crustal plates converge in southern Mexico and in the northwest United States, melting the crust and producing volcanic cones. Along the California coast, the plates are sliding laterally past each other, producing a pattern of slices within the San Andreas fault system. And, where the plates are diverging, the crust appears torn apart as one huge tear along the Gulf of California (northwest Mexico), and as the several fractures comprising the Basin and Range province (in and around Nevada). Across the Great Plains, erosional patterns dominate, with stream channels surrounding and penetrating the remnants of older smooth slopes east of the Rocky Mountains. This same erosion process is exposing the bedrock structural patterns of the Black Hills in South Dakota and the Ozark Mountains in Arkansas. Lateral erosion and sediment deposition by the Mississippi River has produced the flatlands of the lower Mississippi Valley and the Mississippi Delta. To the north, evidence of the glaciers of the last ice age is widely found, particularly east of the Canadian Rocky Mountains and around the Great Lakes. From northeastern British Columbia, across Alberta, Saskatchewan, and Manitoba to North Dakota and Minnesota, huge striations clearly show the flow pattern of the glaciers. And southwest of Lakes Michigan, Huron, and Erie, arcing ridges of sediment, called terminal moraines, show where glaciers dumped sediment at their melting ends. In eastern Canada, New York, and New England, the terrain has been scoured by glaciers, and eroded by streams, particularly along fractures in the bedrock. In Labrador and Quebec, the Mistastin, Manicougan, and Clearwater Lakes meteor impact craters can also be seen. Further south, narrow curving ridges of upturned and eroded layered rocks form most of the Appalachian Mountains. In contrast, around the Caribbean Sea region (Yucatan, Florida, and the Bahamas), flat-lying, stable limestone platforms are common, while the most eastern islands of the Caribbean include active volcanoes along another convergence zone of tectonic plates. This, anaglyph was created by deriving a shaded relief image from the SRTM data, draping it back over the SRTM elevation model, and then generating two differing perspectives, one for each eye. Illumination is from the north (top). When viewed through special glasses, the anaglyph is a vertically exaggerated view of the Earth's surface in its full three dimensions. Anaglyph glasses cover the left eye with a red filter and cover the right eye with a blue filter. Elevation data used in this image were acquired by the SRTM aboard the Space Shuttle Endeavour, launched on Feb. 11, 2000. SRTM used the same radar instrument that comprised the Spaceborne Imaging Radar-C/X-Band Synthetic Aperture Radar (SIR-C/X-SAR) that flew twice on the Space Shuttle Endeavour in 1994. SRTM was designed to collect 3-D measurements of the Earth's surface. To collect the 3-D data, engineers added a 60-meter (approximately 200-foot) mast, installed additional C-band and X-band antennas, and improved tracking and navigation devices. The mission is a cooperative project between NASA, the National Imagery and Mapping Agency (NIMA) of the U.S. Department of Defense and the German and Italian space agencies. It is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., for NASA's Earth Science Enterprise, Washington, D.C. Location: 15 to 60 degrees North latitude, 50 to 130 degrees West longitude Orientation: North toward the top, Mercator projection Image Data: Shaded SRTM elevation model Original Data Resolution: SRTM 1 arcsecond (about 30 meters or 98 feet) Date Acquired: February 2000
Shaded Relief with Height as …
PIA03377
Sol (our sun)
C-Band Interferometric Radar
Title Shaded Relief with Height as Color, North America
Original Caption Released with Image This image of North America was generated with data from the Shuttle Radar Topography Mission (SRTM). For this broad view the resolution of the data was first reduced to 30 arcseconds (about 928 meters north-south and 736 meters east-west in central North America), matching the best previously existing global digital topographic data set called GTOPO30. The data were then resampled to a Mercator projection with approximately square pixels (about one kilometer, or 0.6 miles, on each side). Even at this decreased resolution the variety of landforms comprising the North American continent is readily apparent. Active tectonics (structural deformation of the Earth's crust) along and near the Pacific -- North American plate boundary creates the great topographic relief seen along the Pacific coast. Earth's crustal plates converge in southern Mexico and in the northwest United States, melting the crust and producing volcanic cones. Along the California coast, the plates are sliding laterally past each other, producing a pattern of slices within the San Andreas fault system. And, where the plates are diverging, the crust appears torn apart as one huge tear along the Gulf of California (northwest Mexico), and as the several fractures comprising the Basin and Range province (in and around Nevada). Across the Great Plains, erosional patterns dominate, with streams channels surrounding and penetrating the remnants of older smooth slopes east of the Rocky Mountains. This same erosion process is exposing the bedrock structural patterns of the Black Hills in South Dakota and the Ozark Mountains in Arkansas. Lateral erosion and sediment deposition by the Mississippi River has produced the flatlands of the lower Mississippi Valley and the Mississippi Delta. To the north, evidence of the glaciers of the last ice age is widely found, particularly east of the Canadian Rocky Mountains and around the Great Lakes. From northeastern British Columbia, across Alberta, Saskatchewan, and Manitoba to North Dakota and Minnesota, huge striations clearly show the flow pattern of the glaciers. And southwest of Lakes Michigan, Huron, and Erie, arcing ridges of sediment, called terminal moraines, show where glaciers dumped sediment at their melting ends. In eastern Canada, New York, and New England, the terrain has been scoured by glaciers, and eroded by streams, particularly along fractures in the bedrock. In Labrador and Quebec, the Mistastin, Manicougan, and Clearwater Lakes meteor impact craters can also be seen. Further south, narrow curving ridges of upturned and eroded layered rocks form most of the Appalachian Mountains. In contrast, around the Caribbean Sea region (Yucatan, Florida, and the Bahamas), flat-lying, stable limestone platforms are common, while the most eastern islands of the Caribbean include active volcanoes along another convergence zone of tectonic plates. Two visualization methods were combined to produce the image: shading and color coding of, topographic height. The shade image was derived by computing topographic slope in the northwest-southeast direction, so that northwest slopes appear bright and southeast slopes appear dark. Color coding is directly related to topographic height, with green at the lower elevations, rising through yellow and tan, to white at the highest elevations. Elevation data used in this image were acquired by the Shuttle Radar Topography Mission aboard the Space Shuttle Endeavour, launched on Feb. 11, 2000. SRTM used the same radar instrument that comprised the Spaceborne Imaging Radar-C/X-Band Synthetic Aperture Radar (SIR-C/X-SAR) that flew twice on the Space Shuttle Endeavour in 1994. SRTM was designed to collect 3-D measurements of the Earth's surface. To collect the 3-D data, engineers added a 60-meter (approximately 200-foot) mast, installed additional C-band and X-band antennas, and improved tracking and navigation devices. The mission is a cooperative project between NASA, the National Imagery and Mapping Agency (NIMA) of the U.S. Department of Defense and the German and Italian space agencies. It is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., for NASA's Earth Science Enterprise, Washington, D.C. Location: 15 to 60 degrees North latitude, 50 to 130 degrees West longitude Orientation: North toward the top, Mercator projection Image Data: shaded and colored SRTM elevation model Original Data Resolution: SRTM 1 arcsecond (about 30 meters or 98 feet) Date Acquired: February 2000
Southern Florida, Shaded Rel …
PIA06666
Sol (our sun)
C-Band Radar, X-Band Radar
Title Southern Florida, Shaded Relief and Colored Height
Original Caption Released with Image The very low topography of southern Florida is evident in this color-coded shaded relief map generated with data from the Shuttle Radar Topography Mission. The image on the left is a standard view, with the green colors indicating low elevations, rising through yellow and tan, to white at the highest elevations. In this exaggerated view even those highest elevations are only about 60 meters (197 feet) above sea level. For the view on the right, elevations below 5 meters (16 feet) above sea level have been colored dark blue, and lighter blue indicates elevations below 10 meters (33 feet). This is a dramatic demonstration of how Florida's low topography, especially along the coastline, make it especially vulnerable to flooding associated with storm surges. Planners can use data like these to predict which areas are in the most danger and help develop mitigation plans in the event of particular flood events. Elevation data used in this image were acquired by the Shuttle Radar Topography Mission aboard the Space Shuttle Endeavour, launched on Feb. 11, 2000. SRTM used the same radar instrument that comprised the Spaceborne Imaging Radar-C/X-Band Synthetic Aperture Radar (SIR-C/X-SAR) that flew twice on the Space Shuttle Endeavour in 1994. SRTM was designed to collect 3-D measurements of the Earth's surface. To collect the 3-D data, engineers added a 60-meter (approximately 200-foot) mast, installed additional C-band and X-band antennas, and improved tracking and navigation devices. The mission is a cooperative project between NASA, the National Geospatial-Intelligence Agency (NGA) of the U.S. Department of Defense and the German and Italian space agencies. It is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., for NASA's Science Mission Directorate, Washington, D.C. Location: 27 degrees north latitude, 81 degrees west longitude Orientation: North toward the top, Mercator projection Size: 397 by 445 kilometers (246 by 276 miles) Image Data: shaded and colored SRTM elevation model Date Acquired: February 2000
Gulf Coast, Shaded Relief an …
PIA06667
Sol (our sun)
C-Band Radar, X-Band Radar
Title Gulf Coast, Shaded Relief and Colored Height
Original Caption Released with Image The topography of the Gulf Coast states is well shown in this color-coded shaded relief map generated with data from the Shuttle Radar Topography Mission. The image on the top (see Figure 1) is a standard view showing southern Louisiana, Mississippi, Alabama and the panhandle of Florida. Green colors indicate low elevations, rising through yellow and tan, to white at the highest elevations. For the view on the bottom (see Figure 2), elevations below 10 meters (33 feet) above sea level have been colored light blue. These low coastal elevations are especially vulnerable to flooding associated with storm surges. Planners can use data like these to predict which areas are in the most danger and help develop mitigation plans in the event of particular flood events. Elevation data used in this image were acquired by the Shuttle Radar Topography Mission aboard the Space Shuttle Endeavour, launched on Feb. 11, 2000. SRTM used the same radar instrument that comprised the Spaceborne Imaging Radar-C/X-Band Synthetic Aperture Radar (SIR-C/X-SAR) that flew twice on the Space Shuttle Endeavour in 1994. SRTM was designed to collect 3-D measurements of the Earth's surface. To collect the 3-D data, engineers added a 60-meter (approximately 200-foot) mast, installed additional C-band and X-band antennas, and improved tracking and navigation devices. The mission is a cooperative project between NASA, the National Geospatial-Intelligence Agency (NGA) of the U.S. Department of Defense and the German and Italian space agencies. It is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., for NASA's Science Mission Directorate, Washington, D.C. Location: 31 degrees north latitude, 88 degrees west longitude Orientation: North toward the top, Mercator projection Size: 702 by 433 kilometers (435 by 268 miles) Image Data: shaded and colored SRTM elevation model Date Acquired: February 2000
Gulf Coast, Shaded Relief an …
PIA06667
Sol (our sun)
C-Band Radar, X-Band Radar
Title Gulf Coast, Shaded Relief and Colored Height
Original Caption Released with Image The topography of the Gulf Coast states is well shown in this color-coded shaded relief map generated with data from the Shuttle Radar Topography Mission. The image on the top (see Figure 1) is a standard view showing southern Louisiana, Mississippi, Alabama and the panhandle of Florida. Green colors indicate low elevations, rising through yellow and tan, to white at the highest elevations. For the view on the bottom (see Figure 2), elevations below 10 meters (33 feet) above sea level have been colored light blue. These low coastal elevations are especially vulnerable to flooding associated with storm surges. Planners can use data like these to predict which areas are in the most danger and help develop mitigation plans in the event of particular flood events. Elevation data used in this image were acquired by the Shuttle Radar Topography Mission aboard the Space Shuttle Endeavour, launched on Feb. 11, 2000. SRTM used the same radar instrument that comprised the Spaceborne Imaging Radar-C/X-Band Synthetic Aperture Radar (SIR-C/X-SAR) that flew twice on the Space Shuttle Endeavour in 1994. SRTM was designed to collect 3-D measurements of the Earth's surface. To collect the 3-D data, engineers added a 60-meter (approximately 200-foot) mast, installed additional C-band and X-band antennas, and improved tracking and navigation devices. The mission is a cooperative project between NASA, the National Geospatial-Intelligence Agency (NGA) of the U.S. Department of Defense and the German and Italian space agencies. It is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., for NASA's Science Mission Directorate, Washington, D.C. Location: 31 degrees north latitude, 88 degrees west longitude Orientation: North toward the top, Mercator projection Size: 702 by 433 kilometers (435 by 268 miles) Image Data: shaded and colored SRTM elevation model Date Acquired: February 2000
Gulf Coast, Shaded Relief an …
PIA06667
Sol (our sun)
C-Band Radar, X-Band Radar
Title Gulf Coast, Shaded Relief and Colored Height
Original Caption Released with Image The topography of the Gulf Coast states is well shown in this color-coded shaded relief map generated with data from the Shuttle Radar Topography Mission. The image on the top (see Figure 1) is a standard view showing southern Louisiana, Mississippi, Alabama and the panhandle of Florida. Green colors indicate low elevations, rising through yellow and tan, to white at the highest elevations. For the view on the bottom (see Figure 2), elevations below 10 meters (33 feet) above sea level have been colored light blue. These low coastal elevations are especially vulnerable to flooding associated with storm surges. Planners can use data like these to predict which areas are in the most danger and help develop mitigation plans in the event of particular flood events. Elevation data used in this image were acquired by the Shuttle Radar Topography Mission aboard the Space Shuttle Endeavour, launched on Feb. 11, 2000. SRTM used the same radar instrument that comprised the Spaceborne Imaging Radar-C/X-Band Synthetic Aperture Radar (SIR-C/X-SAR) that flew twice on the Space Shuttle Endeavour in 1994. SRTM was designed to collect 3-D measurements of the Earth's surface. To collect the 3-D data, engineers added a 60-meter (approximately 200-foot) mast, installed additional C-band and X-band antennas, and improved tracking and navigation devices. The mission is a cooperative project between NASA, the National Geospatial-Intelligence Agency (NGA) of the U.S. Department of Defense and the German and Italian space agencies. It is managed by NASA's Jet Propulsion Laboratory, Pasadena, Calif., for NASA's Science Mission Directorate, Washington, D.C. Location: 31 degrees north latitude, 88 degrees west longitude Orientation: North toward the top, Mercator projection Size: 702 by 433 kilometers (435 by 268 miles) Image Data: shaded and colored SRTM elevation model Date Acquired: February 2000
General Description STS-88 Shuttle Mission Imagery
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- At the Trident wharf, workers help guide the container with the Experiment Logistics Module Pressurized Section inside toward a flat bed on the dock. The logistics module is part of the Japanese Experiment Module. The logistics module will be transported to the Space Station Processing Facility at NASA's Kennedy Space Center. The Japanese Experiment Module is composed of three segments and is known as Kibo, which means "hope" in Japanese. Kibo consists of six components: two research facilities -- the Pressurized Module and Exposed Facility, a Logistics Module attached to each of them, a Remote Manipulator System, and an Inter-Orbit Communication System unit. Kibo also has a scientific airlock through which experiments are transferred and exposed to the external environment of space. Kibo is Japan's first human space facility and its primary contribution to the station. Kibo will enhance the unique research capabilities of the orbiting complex by providing an additional environment in which astronauts can conduct science experiments. The various components of JEM will be assembled in space over the course of three Space Shuttle missions. The first of those three missions, STS-123, will carry the Experiment Logistics Module Pressurized Section aboard the Space Shuttle Endeavour, targeted for launch in 2007. Photo credit: NASA/Kim Shiflett
Release Date 03/13/2007
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- At the Trident wharf, workers help guide the container with the Experiment Logistics Module Pressurized Section inside onto a flat bed on the dock. The logistics module is part of the Japanese Experiment Module. The logistics module will be transported to the Space Station Processing Facility at NASA's Kennedy Space Center. The Japanese Experiment Module is composed of three segments and is known as Kibo, which means "hope" in Japanese. Kibo consists of six components: two research facilities -- the Pressurized Module and Exposed Facility, a Logistics Module attached to each of them, a Remote Manipulator System, and an Inter-Orbit Communication System unit. Kibo also has a scientific airlock through which experiments are transferred and exposed to the external environment of space. Kibo is Japan's first human space facility and its primary contribution to the station. Kibo will enhance the unique research capabilities of the orbiting complex by providing an additional environment in which astronauts can conduct science experiments. The various components of JEM will be assembled in space over the course of three Space Shuttle missions. The first of those three missions, STS-123, will carry the Experiment Logistics Module Pressurized Section aboard the Space Shuttle Endeavour, targeted for launch in 2007. Photo credit: NASA/Kim Shiflett
Release Date 03/13/2007
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- At the Trident wharf, workers help guide the container with the Experiment Logistics Module Pressurized Section inside toward the dock. The logistics module is part of the Japanese Experiment Module. The logistics module will be transported to the Space Station Processing Facility at NASA's Kennedy Space Center. The Japanese Experiment Module is composed of three segments and is known as Kibo, which means "hope" in Japanese. Kibo consists of six components: two research facilities -- the Pressurized Module and Exposed Facility, a Logistics Module attached to each of them, a Remote Manipulator System, and an Inter-Orbit Communication System unit. Kibo also has a scientific airlock through which experiments are transferred and exposed to the external environment of space. Kibo is Japan's first human space facility and its primary contribution to the station. Kibo will enhance the unique research capabilities of the orbiting complex by providing an additional environment in which astronauts can conduct science experiments. The various components of JEM will be assembled in space over the course of three Space Shuttle missions. The first of those three missions, STS-123, will carry the Experiment Logistics Module Pressurized Section aboard the Space Shuttle Endeavour, targeted for launch in 2007. Photo credit: NASA/Kim Shiflett
Release Date 03/13/2007
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- In the Orbiter Processing Facility Bay 1, STS-88 Mission Specialists (left to right) Jerry L. Ross, Sergei Krikalev, a cosmonaut from Russia, and James H. Newman examine equipment that will be on the Space Shuttle Endeavour during their upcoming flight. Launch of Mission STS-88 is targeted for Dec. 3, 1998. The STS-88 crew members are participating in a Crew Equipment Interface Test (CEIT), familiarizing themselves with the orbiter's midbody and crew compartments. Other crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow and Mission Specialist Nancy J. Currie. STS-88 will be the first Space Shuttle launch for assembly of the International Space Station (ISS). The primary payload is the Unity connecting module which will be mated to the Russian-built Zarya control module, expected to be already on orbit after a November launch from Russia. The first major U.S.-built component of ISS, Unity will serve as a connecting passageway to living and working areas of the space station. Unity has two attached pressurized mating adapters (PMAs) and one stowage rack installed inside. PMA-1 provides the permanent connection point between Unity and Zarya, PMA-2 will serve as a Space Shuttle docking port. Zarya is a self-supporting active vehicle, providing propulsive control capability and power during the early assembly stages. It also has fuel storage capability
Release Date 10/03/1998
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- Clad in their blue flight suits, STS-88 Mission Specialists (from left) Sergei Krikalev, a cosmonaut from Russia, Jerry L. Ross, and James H. Newman examine equipment from a toolbox that will be on the Space Shuttle Endeavour during their flight. Talking to Ross is Wayne Wedlake of United Space Alliance at Johnson Space Center, while Henry Thacker (facing camera), of Flight Crew Systems at KSC, looks on. Launch of mission STS-88 is targeted for Dec. 3, 1998. The STS-88 crew members are participating in a Crew Equipment Interface Test (CEIT) in the Orbiter Processing Facility Bay 1 to familiarize themselves with the orbiter's midbody and crew compartments. STS-88 will be the first Space Shuttle launch for assembly of the International Space Station (ISS). The primary payload is the Unity connecting module which will be mated to the Russian-built Zarya control module, expected to be already on orbit after a November launch from Russia. The first major U.S.-built component of ISS, Unity will serve as a connecting passageway to living and working areas of the space station. Unity has two attached pressurized mating adapters (PMAs) and one stowage rack installed inside. PMA-1 provides the permanent connection point between Unity and Zarya, PMA-2 will serve as a Space Shuttle docking port. Zarya is a self-supporting active vehicle, providing propulsive control capability and power during the early assembly stages. It also has fuel storage capability
Release Date 10/03/1998
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- In the Orbiter Processing Facility Bay 1, STS-88 Mission Specialists Sergei Krikalev (left), a cosmonaut from Russia, and Jerry L. Ross examine equipment that will be aboard Space Shuttle Endeavour. Launch of mission STS-88 is targeted for Dec. 3, 1998. The STS-88 crew members are participating in a Crew Equipment Interface Test (CEIT), familiarizing themselves with the orbiter's midbody and crew compartments. Other crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow and Mission Specialists Nancy J. Currie and James H. Newman. STS-88 will be the first Space Shuttle launch for assembly of the International Space Station (ISS). The primary payload is the Unity connecting module which will be mated to the Russian-built Zarya control module, expected to be already on orbit after a November launch from Russia. The first major U.S.-built component of ISS, Unity will serve as a connecting passageway to living and working areas of the space station. Unity has two attached pressurized mating adapters (PMAs) and one stowage rack installed inside. PMA-1 provides the permanent connection point between Unity and Zarya, PMA-2 will serve as a Space Shuttle docking port. Zarya is a self-supporting active vehicle, providing propulsive control capability and power during the early assembly stages. It also has fuel storage capability
Release Date 10/03/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- Towering atop the mobile launcher platform and crawler transporter in the early morning light, Space Shuttle Endeavour arrives at Launch Pad 39A after rollout from the Vehicle Assembly Building. At its left are the Rotating Service Structure and the Fixed Service Structure, at the right is the 300,000-gallon water tank, part of the sound suppression water system. While at the pad, the orbiter, external tank and solid rocket boosters will undergo final preparations for the STS-88 launch targeted for Dec. 3, 1998. Mission STS-88 is the first U.S. flight for the assembly of the International Space Station and will carry the Unity connecting module. While on orbit, the flight crew will deploy Unity from the payload bay and connect it to the Russian-built Zarya control module which will be in orbit at that time. Unity will be the main connecting point for later U.S. station modules and components. More than 40 launches are planned over five years involving the resources and expertise of 16 cooperating nations. Comprising the STS-88 crew are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Russian cosmonaut Sergei Konstantinovich Krikalev. Ross and Newman will make three spacewalks to connect power, data and utility lines and install exterior equipment
Release Date 10/21/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- Space Shuttle Endeavour arrives at Launch Pad 39A in the dim early morning light, atop the mobile launcher platform and crawler transporter, after rollout from the Vehicle Assembly Building. The flag identifying the Shuttle (at right) waves slightly from the wind. At left are the Fixed Service Structure and Rotating Service Structure. While at the pad, the orbiter, external tank and solid rocket boosters will undergo final preparations for the STS-88 launch targeted for Dec. 3, 1998. Mission STS-88 is the first U.S. flight for the assembly of the International Space Station and will carry the Unity connecting module. While on orbit, the flight crew will deploy Unity from the payload bay and connect it to the Russian-built Zarya control module which will be in orbit at that time. Unity will be the main connecting point for later U.S. station modules and components. More than 40 launches are planned over five years involving the resources and expertise of 16 cooperating nations. Comprising the STS-88 crew are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Russian cosmonaut Sergei Konstantinovich Krikalev. Ross and Newman will make three spacewalks to connect power, data and utility lines and install exterior equipment
Release Date 10/21/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- In the cloud-dimmed light of early morning, Space Shuttle Endeavour sits in place at Launch Pad 39A , atop the mobile launcher platform and crawler transporter, after rollout from the Vehicle Assembly Building. At its left are the Rotating Service Structure and Fixed Service Structure with the orbiter access arm extended. The access arm swings out to the orbiter crew compartment hatch to allow personnel to enter the crew compartment. At its outer end is the white room, an environmental chamber, that mates with the orbiter. While at the pad, the orbiter, external tank and solid rocket boosters will undergo final preparations for the STS-88 launch targeted for Dec. 3, 1998. Mission STS-88 is the first U.S. flight for the assembly of the International Space Station and will carry the Unity connecting module. While on orbit, the flight crew will deploy Unity from the payload bay and connect it to the Russian-built Zarya control module which will be in orbit at that time. Unity will be the main connecting point for later U.S. station modules and components. More than 40 launches are planned over five years involving the resources and expertise of 16 cooperating nations. Comprising the STS-88 crew are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Russian cosmonaut Sergei Konstantinovich Krikalev. Ross and Newman will make three spacewalks to connect power, data and utility lines and install exterior equipment
Release Date 10/21/1998
(From left) STS-88 Pilot Fre …
Description (From left) STS-88 Pilot Frederick W. "Rick" Sturckow and Mission Specialists Nancy J. Currie, Jerry L. Ross and James H. Newman examine some equipment that will be used on their upcoming space flight. The astronauts are in the Operations and Checkout Building as part of the Terminal Countdown Demonstration Test (TCDT) activities. Mission STS-88 is targeted for launch on Dec. 3, 1998. It is the first U.S. flight for the assembly of the International Space Station. The Space Shuttle Endeavour will carry the six-member crew and the Unity connecting module with its two attached pressurized mating adapters
Release Date 11/05/1998
At Launch Pad 39A, STS-88 Pi …
Description At Launch Pad 39A, STS-88 Pilot Frederick W. "Rick" Sturckow (at left) and Commander Robert D. Cabana look over the Unity connecting module and its two attached pressurized mating adapters. Unity is in the payload bay of the Space Shuttle Endeavour, awaiting liftoff of Mission STS-88. Cabana, Sturckow and the other four members of the STS-88 crew arrived at KSC in the early morning hours of Nov. 30 for prelaunch preparations. The other crew members are Mission Specialists Nancy J. Currie, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. The scheduled liftoff is at 3:56 a.m. on Dec. 3. Unity is the primary payload of the mission, which is the first U.S. launch for the International Space Station. The crew will be mating Unity with the Russian-built Zarya control module already in orbit. In addition to Unity, Endeavour will carry two small replacement electronics boxes for possible repairs to Zarya batteries. The mission is scheduled to last nearly 12 days
Release Date 11/30/1998
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- With the Rotating Service Structure on Launch Pad 39A rolled back, the Space Shuttle Endeavour on top of the Mobile Launcher Platform is poised for launch on mission STS-88. Lift-off is targeted for 3:56 a.m. on Dec. 3. The first U.S. launch for the International Space Station, STS-88 is expected to last 11 days, 19 hours and 49 minutes, and land at 10:17 p.m. EST on Dec. 14. Endeavour carries the Unity connecting module which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries
Release Date 12/02/1998
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- The sign on the fence at Launch Pad 39A announces the mission of STS-88 and Space Shuttle Endeavour, poised on the pad for launch. Lift-off is targeted for 3:56 a.m. on Dec. 3. The first U.S. launch for the International Space Station, STS-88 is expected to last 11 days, 19 hours and 49 minutes, and land at 10:17 p.m. EST on Dec. 14. Endeavour carries the Unity connecting module which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries
Release Date 12/02/1998
At Launch Pad 39A, STS-88 Mi …
Description At Launch Pad 39A, STS-88 Mission Commander Robert D. Cabana gets a close look at the Unity connecting module and its two attached pressurized mating adapters. Unity is in the payload bay of the Space Shuttle Endeavour, awaiting liftoff of Mission STS-88. Cabana and the other five members of the STS-88 crew arrived at KSC in the early morning hours of Nov. 30 for final prelaunch preparations. The other crew members are Pilot Frederick W. "Rick" Sturckow and Mission Specialists Nancy J. Currie, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. The scheduled liftoff is at 3:56 a.m. on Dec. 3. Unity is the primary payload of the mission, which is the first U.S. launch for the International Space Station. The crew will be mating Unity with the Russian-built Zarya control module already in orbit. In addition to Unity, Endeavour will carry two small replacement electronics boxes for possible repairs to Zarya batteries. The mission is scheduled to last nearly 12 days
Release Date 11/30/1998
STS-88 Pilot Frederick W. "R …
Description STS-88 Pilot Frederick W. "Rick" Sturckow (at left) and Mission Specialist Nancy J. Currie walk across the runway at the Shuttle Landing Facility after exiting the T-38 jet aircraft (in background) that brought them to KSC. They join the four other crew members, Commander Robert D. Cabana and Mission Specialists Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut, for prelaunch preparations for mission STS-88 aboard Space Shuttle Endeavour. The scheduled time of launch is 3:56 a.m. EST on Dec. 3 from Launch Pad 39A. The mission is the first U.S. launch for the International Space Station. Endeavour carries the Unity connecting module which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, Endeavour will carry two small replacement electronics boxes for possible repairs to Zarya batteries. The mission is scheduled to last nearly 12 days
Release Date 11/29/1998
A smiling STS-88 Mission Spe …
Description A smiling STS-88 Mission Specialist Jerry L. Ross prepares to exit the T-38 jet aircraft that brought him to the Shuttle Landing Facility. He joins the five other crew members, Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut, for prelaunch preparations for mission STS-88 aboard Space Shuttle Endeavour. The scheduled time of launch is 3:56 a.m. EST on Dec. 3 from Launch Pad 39A. The mission is the first U.S. launch for the International Space Station. Endeavour carries the Unity connecting module which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, Endeavour will carry two small replacement electronics boxes for possible repairs to Zarya batteries. The mission is scheduled to last nearly 12 days
Release Date 11/29/1998
STS-88 Mission Specialist Se …
Description STS-88 Mission Specialist Sergei Konstantinovich Krikalev, a Russian cosmonaut, smiles at onlookers after his arrival at the Shuttle Landing Facility aboard a T-38 jet aircraft. He joins the five other crew members, Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow and Mission Specialists Nancy J. Currie, Jerry L. Ross and James H. Newman, for prelaunch preparations for Mission STS-88 aboard Space Shuttle Endeavour. The scheduled time of launch is 3:56 a.m. EST on Dec. 3 from Launch Pad 39A. The mission is the first U.S. launch for the International Space Station. Endeavour carries the Unity connecting module which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, Endeavour will carry two small replacement electronics boxes for possible repairs to Zarya batteries. The mission is scheduled to last nearly 12 days
Release Date 11/29/1998
STS-88 Commander Robert D. C …
Description STS-88 Commander Robert D. Cabana smiles at onlookers after his arrival at the Shuttle Landing Facility aboard a T-38 jet aircraft. He joins other crew members Pilot Frederick W. "Rick" Sturckow and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut, for prelaunch preparations for Mission STS-88 aboard Space Shuttle Endeavour. The scheduled time of launch is 3:56 a.m. EST on Dec. 3 from Launch Pad 39A. The mission is the first U.S. launch for the International Space Station. Endeavour carries the Unity connecting module which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, Endeavour will carry two small replacement electronics boxes for possible repairs to Zarya batteries. The mission is scheduled to last nearly 12 days
Release Date 11/29/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour lights up the night sky as it embarks on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour lights up the night sky as it embarks on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window.The Space Shuttle Endeavour lights up the night sky as it embarks on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
STS-88 crew members depart t …
Description STS-88 crew members depart the Operations and Checkout Building to board the astronaut van (at right) for the short journey to Launch Pad 39A where the Space Shuttle Endeavour is poised for liftoff of the first U.S. launch dedicated to the assembly of the International Space Station. In front row, from left, are Pilot Frederick W. "Rick" Sturckow, Mission Specialist Nancy J. Currie and Commander Robert D. Cabana. In back row, from left, are Mission Specialists Sergei Konstantinovich Krikalev, a Russian cosmonaut, Jerry L. Ross and James H. Newman. Liftoff is targeted for 3:35 a.m. EST on Dec. 4
Release Date 12/04/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- A bird (at upper right) soars near the Space Shuttle Endeavour as the vehicle lifts off from Launch Pad 39A on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour blazes through the night sky as it begins the first U.S. mission, STS-88, dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
The STS-88 crew gather for t …
Description The STS-88 crew gather for the traditional pre-launch breakfast in the Operations and Checkout Building. From left to right are Mission Specialists Jerry L. Ross and Nancy J. Currie, Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. Mission STS-88 is expected to launch at 3:56 a.m. EST aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already on orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour lights up the night sky as it embarks on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
KENNEDY SPACE CENTER, FLA. - …
Description KENNEDY SPACE CENTER, FLA. -- In the Operations and Checkout Building, STS-88 Mission Specialist Jerry L. Ross (right) takes part in a complete suit check before launch. Standing with him is Owen Bertrand, chief of the Vehicle Integration Test office at Johnson Space Center. This is Bertrand's last launch before retiring in January. Mission STS-88 is expected to launch at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour lights up the night sky as it embarks on the first U.S. mission, STS-88, dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour lights up the night sky as it embarks on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
Wearing their orange launch …
Description Wearing their orange launch and entry suits, STS-88 crew members leave the Operations and Checkout Building en route to Launch Pad 39A, where the Space Shuttle Endeavour is poised for liftoff of the first U.S. launch dedicated to the assembly of the International Space Station. In front row, from left, are Pilot Frederick W. "Rick" Sturckow, Mission Specialist Nancy J. Currie and Commander Robert D. Cabana. In back row, from left, are Mission Specialists Sergei Konstantinovich Krikalev, a Russian cosmonaut, Jerry L. Ross and James H. Newman. Liftoff is targeted for 3:35 a.m. EST on Dec. 4
Release Date 12/04/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- The Space Shuttle Endeavour illuminates the night sky as it embarks on the first U.S. mission dedicated to the assembly of the International Space Station. Liftoff on Dec. 4 from Launch Pad 39A was at 3:35:34 a.m. EST. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- As the Space Shuttle Endeavour lifts off from Launch Pad 39A on Mission STS-88, several fish believed to be mullet (at center left) "launch" themselves out of the water from one of the waterways around the pad. Liftoff of the first U.S. mission dedicated to the assembly of the International Space Station was at 3:35:34 a.m. EST on Dec. 4. During the nearly 12-day mission, the six-member crew will mate in space the first two elements of the International Space Station the already-orbiting Zarya control module with the Unity connecting module carried by Endeavour. Crew members are Commander Robert D. Cabana, Pilot Frederick W. "Rick" Sturckow, and Mission Specialists Nancy J. Currie, Jerry L. Ross, James H. Newman and Sergei Konstantinovich Krikalev, a Russian cosmonaut. This was the second launch attempt for STS-88. The first one on Dec. 3 was scrubbed when launch controllers, following an assessment of a suspect hydraulic system, were unable to resume the countdown clock in time to launch within the remaining launch window
Release Date 12/04/1998
STS-99 Pilot Dominic Gorie g …
Description STS-99 Pilot Dominic Gorie goes through countdown procedures on the flight deck aboard the Space Shuttle Endeavour as part of Terminal Countdown Demonstration Test (TCDT) activities for the mission. The TCDT includes a simulation of the final launch countdown. STS-99 is the Shuttle Radar Topography Mission, which will chart a new course, using two antennae and a 200-foot-long section of space station-derived mast protruding from the payload bay to produce unrivaled 3-D images of the Earth's surface. The result of the Shuttle Radar Topography Mission could be close to 1 trillion measurements of the Earth's topography. Besides contributing to the production of better maps, these measurements could lead to improved water drainage modeling, more realistic flight simulators, better locations for cell phone towers, and enhanced navigation safety. Launch of Endeavour on the 11-day mission is scheduled for Jan. 31 at 12:47 p.m. EST
Release Date 01/14/2000
STS-99 Commander Kevin Krege …
Description STS-99 Commander Kevin Kregel goes through countdown procedures on the flight deck aboard the Space Shuttle Endeavour during Terminal Countdown Demonstration Test (TCDT) activities for the mission. The TCDT includes a simulation of the final launch countdown. STS-99 is the Shuttle Radar Topography Mission, which will chart a new course, using two antennae and a 200-foot-long section of space station-derived mast protruding from the payload bay to produce unrivaled 3-D images of the Earth's surface. The result of the Shuttle Radar Topography Mission could be close to 1 trillion measurements of the Earth's topography. Besides contributing to the production of better maps, these measurements could lead to improved water drainage modeling, more realistic flight simulators, better locations for cell phone towers, and enhanced navigation safety. Launch of Endeavour on the 11-day mission is scheduled for Jan. 31 at 12:47 p.m. EST
Release Date 01/14/2000
The STS-88 crew leave the Op …
Description The STS-88 crew leave the Operations and Checkout Building for their trip to Launch Pad 39A. In the front row (left to right) are Pilot Frederick W. "Rick" Sturckow, Mission Specialist Nancy J. Currie and Commander Robert D. Cabana. Behind them (left to right) are Mission Specialist Sergei Konstantinovich Krikalev, a Russian cosmonaut, and Mission Specialists Jerry L. Ross and James H. Newman. STS-88 is expected to launch at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, with landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
In the Operations and Checko …
Description In the Operations and Checkout Building, STS-88 Mission Specialist Sergei Konstantinovich Krikalev, a Russian cosmonaut, gives a thumbs up during suit check before launch. Mission STS-88 is expected to lift off at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
In the Operations and Checko …
Description In the Operations and Checkout Building, STS-88 Commander Robert D. Cabana gives a thumbs up during suit check before launch. Mission STS-88 is expected to lift off at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
In the Operations and Checko …
Description In the Operations and Checkout Building, STS-88 Mission Specialist Nancy J. Currie gets help with her flight suit from suit technician Drew Billingsley before launch. Mission STS-88 is expected to launch at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
As part of the final STS-88 …
Description As part of the final STS-88 prelaunch activities, the six crew members gather for a last meal before liftoff and a photo opportunity in the Operations and Checkout Building. From left, they are Mission Specialist Sergei Konstantinovich Krikalev, a Russian cosmonaut, Pilot Frederick W. "Rick" Sturckow, Mission Specialist Nancy J. Currie, Commander Robert D. Cabana, and Mission Specialists Jerry L. Ross and James H. Newman. STS-88 will be the first U.S. launch dedicated to the assembly of the International Space Center. Liftoff aboard the Space Shuttle Endeavour is targeted for 3:36 a.m. EST, Dec. 4, from Launch Pad 39A
Release Date 12/03/1998
In the Operations and Checko …
Description In the Operations and Checkout Building, STS-88 Pilot Frederick W. "Rick" Sturckow gets help with his flight suit from suit technician Terri McKinney before launch. Mission STS-88 is expected to launch at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
After leaving the Operations …
Description After leaving the Operations and Checkout Building, the STS-88 crew approach the Astrovan for their trip to Launch Pad 39A. In the back row are (left to right) Mission Specialist Sergei Konstantinovich Krikalev, a Russian cosmonaut, and Mission Specialists Jerry L. Ross and James H. Newman. In the front row (left to right) are Pilot Frederick W. "Rick" Sturckow, Mission Specialist Nancy J. Currie and Commander Robert D. Cabana. STS-88 is expected to launch at 3:56 a.m. EST with the six-member crew aboard Space Shuttle Endeavour on Dec. 3. Endeavour carries the Unity connecting module, which the crew will be mating with the Russian-built Zarya control module already in orbit. In addition to Unity, two small replacement electronics boxes are on board for possible repairs to Zarya batteries. The mission is expected to last 11 days, 19 hours and 49 minutes, with landing at 10:17 p.m. EST on Dec. 14
Release Date 12/03/1998
(Left to right) STS-100 Miss …
Description (Left to right) STS-100 Mission Specialist Chris Hadfield, Salimbeti Andrea of Alenia Aerospazio, observer Astronaut Winston Scott, and Mission Specialist Robert Curbeam examine the interior of the Multi-Purpose Logistics Module (MPLM) Leonardo. The Italian-built MPLM will be carried in the payload bay of the Shuttle orbiter, and will provide storage and additional work space for up to two astronauts when docked to the International Space Station. It is expected to fly on the Space Shuttle Endeavour scheduled for launch on Dec. 2, 1999. Leonardo is the first of three modules being provided by Alenia. The second MPLM, to be handed over in April 1999, is named Raffaello. A third module, to be named Donatello, is due to be delivered in October 2000 for launch in January 2001
Release Date 08/13/1998
KENNEDY SPACE CENTER, Fla. - …
Description KENNEDY SPACE CENTER, Fla. -- After rollback of the Rotating Service Structure on Launch Pad 39B, Space Shuttle Endeavour is bathed in light. Twin solid rocket boosters flank the orange external tank behind Endeavour. Above the external tank is the Gaseous Oxygen Vent Arm that vents gaseous oxygen vapors away from the Shuttle. The vent hood assembly at the end is often referred to as the "beanie cap." Stretching to the crew hatch on the side of Endeavour is the Orbiter Access Arm with its environmentally controlled White Room at the end, through which the crew enters the vehicle. The Shuttle sits on the Mobile Launcher Platform with the two service tail masts on either side of the main engines. The tail masts support the fluid, gas and electrical requirements of the orbiter's liquid oxygen and liquid hydrogen aft T-0 umbilicals. Each tail mast is 31 feet (9.4 meters) high, 15 feet (4.6 meters) long and 9 feet (3.1 meters) wide. Endeavour is scheduled to launch on mission STS-108 Dec. 4 at 5:45 p.m. EST. On this 12th flight to the International Space Station, known as a Utilization Flight, Endeavour will carry a crew of four plus the Expedition 4 crew, who will replace Expedition 3 aboard the ISS. The payload includes the Multi-Purpose Logistics Module Raffaello, filled with supplies, equipment and experiments
Release Date 12/03/2001
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