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Orbiting Carbon Observatory-2 (OCO-2) Launch

Expedition 56 Launch (NHQ201806060013)

CAPE CANAVERAL, Fla. -- The Space Exploration Technologies Corp., or SpaceX, Falcon 9 rocket with Dragon capsule attached on top is lifted into the vertical position during a rollout demonstration test at Space Launch Complex-40 at Cape Canaveral Air Force Station in Florida. Preparations continue for NASA’s first Commercial Resupply Services, or CRS-1, mission to the International Space Station. The rollout to the pad for liftoff is planned for Sunday morning, Oct. 7. Liftoff from CCAFS is scheduled during an instantaneous window at 8:35 p.m. EDT Sunday evening. SpaceX CRS-1 is an important step toward making America’s microgravity research program self-sufficient by providing a way to deliver and return significant amounts of cargo, including science experiments, to and from the orbiting laboratory. To learn more, visit http://www.nasa.gov/mission_pages/station/living/launch/index.html. Photo credit: NASA/Jim Grossmann KSC-2012-5660

STS-134 - LAUNCH - Public domain NASA photogrpaph

STS-116 - LAUNCH - Public domain NASA photogrpaph

VANDENBERG AIR FORCE BASE, Calif. – NASA's Orbiting Carbon Observatory-2, or OCO-2, stands ready for launch aboard a United Launch Alliance Delta II rocket following rollback of the mobile service tower on Space Launch Complex 2 on Vandenberg Air Force Base in California. Launch is scheduled for 5:56 a.m. EDT on July 1. OCO-2 is NASA’s first mission dedicated to studying atmospheric carbon dioxide, the leading human-produced greenhouse gas driving changes in Earth’s climate. OCO-2 will provide a new tool for understanding the human and natural sources of carbon dioxide emissions and the natural "sinks" that absorb carbon dioxide and help control its buildup. The observatory will measure the global geographic distribution of these sources and sinks and study their changes over time. To learn more about OCO-2, visit http://www.nasa.gov/oco2. Photo credit: NASA/Kim Shiflett KSC-2014-3082

STS-119 - LAUNCH - Public domain NASA photogrpaph

Space Shuttle Atlantis, STS-122 - LAUNCH

STS-129 - LAUNCH - Public domain NASA photogrpaph

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KENNEDY SPACE CENTER, FLA. - The TDRS-J satellite arrives at the gantry on Launch Complex 36-A, Cape Canaveral Air Force Station. The satellite is scheduled to be launched Dec. 4 aboard an Atlas IIA vehicle. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1834

KENNEDY SPACE CENTER, FLA. -- The encapsulated TDRS-J satellite is mated with the Atlas IIA launch vehicle on Launch Complex 36-A, Cape Canaveral Air Force Station. The satellite is scheduled to be launched Dec. 4 aboard an Atlas IIA vehicle. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1840

KENNEDY SPACE CENTER, FLA. - At Launch Complex 36-A, Cape Canaveral Air Force Station, the TDRS-J satellite launches aboard an Atlas IIA vehicle on Dec. 4 at the beginning of the launch window at 9:42 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1851

KENNEDY SPACE CENTER, FLA. - On Launch Complex 36-A, Cape Canaveral Air Force Station, the Atlas IIA launch vehicle with the TDRS-J satellite aboard is ready for launch Dec. 4. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1841

KENNEDY SPACE CENTER, FLA. - The TDRS-J satellite is lifted up the gantry on Launch Complex 36-A, Cape Canaveral Air Force Station. The satellite is scheduled to be launched Dec. 4 aboard an Atlas IIA vehicle. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1836

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite nears the top of the gantry on Launch Complex 36-A, Cape Canaveral Air Force Station. The satellite is scheduled to be launched Dec. 4 aboard an Atlas IIA vehicle. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1838

KENNEDY SPACE CENTER, FLA. --At Launch Complex 36-A, Cape Canaveral Air Force Station, the TDRS-J satellite launches aboard an Atlas IIA vehicle at the beginning of the launch window at 9:42 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pp1853

KENNEDY SPACE CENTER, FLA. -- The TDRS-J satellite is lifted up the gantry on Launch Complex 36-A, Cape Canaveral Air Force Station. The satellite is scheduled to be launched Dec. 4 aboard an Atlas IIA vehicle. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1837

KENNEDY SPACE CENTER, FLA. - At Launch Complex 36-A, Cape Canaveral Air Force Station, the mobile service tower is rolled back to reveal the encapsulated TDRS-J satellite aboard an Atlas IIA vehicle awaiting launch on Dec. 4. The launch window is 9:42 to 10:22 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1849

KENNEDY SPACE CENTER, FLA. - At Launch Complex 36-A, Cape Canaveral Air Force Station, the TDRS-J satellite launches aboard an Atlas IIA vehicle on Dec. 4 at the beginning of the launch window at 9:42 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1852

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KENNEDY SPACE CENTER, FLA. - At Launch Complex 36-A, Cape Canaveral Air Force Station, the TDRS-J satellite launches aboard an Atlas IIA vehicle on Dec. 4 at the beginning of the launch window at 9:42 p.m. EST. TDRS-J, the third in a series of telemetry satellites, will help replenish the current constellation of geosynchronous TDRS satellites that are the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. The satellites also provide communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017.

The Space Shuttle program was the United States government's manned launch vehicle program from 1981 to 2011, administered by NASA and officially beginning in 1972. The Space Shuttle system—composed of an orbiter launched with two reusable solid rocket boosters and a disposable external fuel tank— carried up to eight astronauts and up to 50,000 lb (23,000 kg) of payload into low Earth orbit (LEO). When its mission was complete, the orbiter would re-enter the Earth's atmosphere and lands as a glider. Although the concept had been explored since the late 1960s, the program formally commenced in 1972 and was the focus of NASA's manned operations after the final Apollo and Skylab flights in the mid-1970s. It started with the launch of the first shuttle Columbia on April 12, 1981, on STS-1. and finished with its last mission, STS-135 flown by Atlantis, in July 2011.

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kennedy space center launch launch complex cape canaveral air force station tdrs j satellite tdrs j satellite atlas iia vehicle atlas iia vehicle launch window telemetry telemetry satellites constellation geosynchronous tdrs geosynchronous tdrs satellites source voice space shuttle communications international space station spacecraft low earth orbit low earth orbit hubble telescope hubble space telescope availability services tdrs communications services air force cape canaveral rocket liftoff high resolution rocket launch space launch complex constellation march nasa
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1970 - 1979
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Space Shuttle Program
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NASA
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https://images.nasa.gov/
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label_outline Explore Atlas Iia Vehicle, Tdrs J Satellite, Geosynchronous Tdrs Satellites

A Hammer Ace technician comutes the elevation and azimuth before sighting the antenna on the geosynchronous satellite. Hammer Ace is a secured long range, air-transportable communications system used by the Air Force Communications Command for rapid response purposes. From the June 1984 AIRMAN Magazine

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

At launch pad 36-A, Cape Canaveral Air Force Station, workers check over the second stage of an Atlas II/Centaur rocket before it is lifted up the gantry (behind it) for mating with the first stage. Atlas II is designed to launch payloads into low earth orbit, geosynchronous transfer orbit or geosynchronous orbit. The rocket is the launch vehicle for the GOES-L satellite, part of the NOAA National Weather Service system in weather imagery and atmospheric sounding information. The primary objective of the GOES-L is to provide a full capability satellite in an on-orbit storage condition, to assure NOAA continuity in services from a two-satellite constellation. Launch services are being provided by the 45th Space Wing KSC00pp0424

Bow on view of the US Navy (USN) Arleigh Burke Class (Flight IIA): Guided Missile Destroyer (Aegis), USS BRAINBRIDGE (DDG 96), launching a RIM-67 SM-2 missile from the vertical launch system, while conducting a Missile Exercise (MISSILEX) in the Kennebec River in Maine (ME)

The Atlas 1 payload fairing with the encapsulated GOES-K advanced weather satellite, at top center, is mated to the Lockheed Martin Atlas 1 expendable launch vehicle (AC-79) at Launch Complex 36, Pad B, Cape Canaveral Air Station. GOES-K will be the third spacecraft to be launched in the advanced series of Geostationary Operational Environmental Satellites (GOES). The GOES satellites are owned and operated by the National Oceanic and Atmospheric Administration (NOAA); NASA manages the design, development and launch of the spacecraft. GOES-K is targeted for an /1997/63-97.htm">April 24 launch</a> during a launch window which extends from 1:50-3:09 a.m. EDT KSC-97pc651

Space Shuttle Columbia, Space Shuttle Project

KODIAK ISLAND, Alaska. -- With light still on the horizon, a Lockheed Martin Athena I launch vehicle lifts off the launch pad at Kodiak Launch Complex (KSC) with the Kodiak Star spacecraft on board. Liftoff occurred at 10:40 p.m. EDT, Sept. 29. The Kodiak Star payload consists of four satellites: PICOSat, PCSat, Sapphire and Starshine 3. Starshine is sponsored by NASA. The 200-pound sphere will be used by students to study orbital decay. The other three satellites, also on educational missions, are sponsored by the department of defense. PICOSat is a technology demonstration satellite with four experiments on board. PCSat was designed by midshipmen at the U.S. Naval Academy, and will become part of the amateur radio community's automatic position reporting system. Sapphire is a micro-satellite built by students at Stanford University and Washington University - St. Louis to test infrared sensors for space use. KLC is the newest commercial launch complex in the United States, ideal for launch payloads requiring low-Earth polar or sun-synchronous orbits KSC01padig281

KENNEDY SPACE CENTER, FLA. -- At Launch Complex 36-A, Cape Canaveral Air Force Station, a Lockheed Martin Atlas Centaur IIA (AC-144) rocket is lifted up the launch tower. The rocket will be used in the launch of TDRS-J, scheduled for Nov. 20. The third in a series of telemetry satellites, TDRS-J will help replenish the current constellation of geosynchronous TDRS satellites. The TDRS System is the primary source of space-to-ground voice, data and telemetry for the Space Shuttle. It also provides communications with the International Space Station and scientific spacecraft in low-Earth orbit such as the Hubble Space Telescope. This new advanced series of satellites will extend the availability of TDRS communications services until about 2017. KSC-02pd1525

The logo for the Tracking and Data Relay Satellite (TDRS-H) is predominantly displayed on the fairing that will encapsulate the satellite for launch. The fairing is in KSC’s Spacecraft Assembly and Encapsulation Facility (SAEF-2) where TDRS is undergoing testing. The TDRS is scheduled to be launched from CCAFS June 29 aboard an Atlas IIA/Centaur rocket. One of three satellites (labeled H, I and J) being built in the Hughes Space and Communications Company Integrated Satellite Factory in El Segundo, Calif., the latest TDRS uses an innovative springback antenna design. A pair of 15-foot-diameter, flexible mesh antenna reflectors fold up for launch, then spring back into their original cupped circular shape on orbit. The new satellites will augment the TDRS system’s existing Sand Ku-band frequencies by adding Ka-band capability. TDRS will serve as the sole means of continuous, high-data-rate communication with the space shuttle, with the International Space Station upon its completion, and with dozens of unmanned scientific satellites in low earth orbit KSC-00pp0714

At Launch Pad 36A, Cape Canaveral Air Station, a Centaur upper stage is lifted up the gantry for mating with the lower stage Lockheed Martin Atlas IIA rocket already in place. The Lockheed Martin-manufactured Centaur IIA is powered by two Pratt & Whitney turbopump-fed engines, producing a total thrust of 41,600 pounds. The rocket is scheduled to launch the NASA GOES-L satellite on May 15, at the opening of a launch window which extends from 2:23 to 4:41 a.m. EDT. Once in orbit, the satellite will become GOES-11, joining GOES-8, GOES-9 and GOES-10 in space. The fourth of a new advanced series of geostationary weather satellites for the National Oceanic and Atmospheric Administration (NOAA), GOES-L is a three-axis inertially stabilized spacecraft that will provide pictures and perform atmospheric sounding at the same time. Once launched, the satellite will undergo checkout and then provide backup capabilities for the existing, aging operational satellites KSC-99pp0426

The Air Force and Lockheed Martin launch team successfully launched the Atlas IIA space launch vehicle, designated AC-128, carrying a Loral Tempo Direct Broadcast satellite from space launch complex 36A at Cape Canaveral. The launch took place at 1:01 A.M. EST

VANDENBERG AFB, CALIF. - Logos identify the mission of this Delta II rocket that will launch the Gravity Probe B experiment, developed by Stanford University, Lockheed Martin and NASA’s Marshall Space Flight Center. The Gravity Probe B will launch a payload of four gyroscopes into low-Earth polar orbit to test two extraordinary predictions of Albert Einstein’s general theory of relativity: the geodetic effect (how space and time are warped by the presence of the Earth) and frame dragging (how Earth’s rotation drags space and time around with it). Once in orbit, for 18 months each gyroscope’s spin axis will be monitored as it travels through local spacetime, observing and measuring these effects. The targeted launch date is Dec. 6, 2003.

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kennedy space center launch launch complex cape canaveral air force station tdrs j satellite tdrs j satellite atlas iia vehicle atlas iia vehicle launch window telemetry telemetry satellites constellation geosynchronous tdrs geosynchronous tdrs satellites source voice space shuttle communications international space station spacecraft low earth orbit low earth orbit hubble telescope hubble space telescope availability services tdrs communications services air force cape canaveral rocket liftoff high resolution rocket launch space launch complex constellation march nasa