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Search Results: All Fields similar to 'Skylab' and When equal to '1970'
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Skylab Concept by George Mue
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| Title |
Skylab Concept by George Mueller |
| Full Description |
This is a sketch of Skylab, as drawn by George E. Mueller, NASA associate administrator for Manned Space Flight. This concept drawing was created at a meeting at the Marshall Space Flight Center on August 19, 1966. The image details the station's major elements. In 1970, the station became known as Skylab. Three manned Skylab missions (Skylab 2 in May 1973, Skylab 3 in July 1973, and Skylab 4 in November 1973) were flown on which experiments were conducted in:space science, earth resources, life sciences, space technology, and student projects. |
| Date |
08/19/1966 |
| NASA Center |
Marshall Space Flight Center |
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Skylab
| Name of Image |
Skylab |
| Date of Image |
1974-01-01 |
| Full Description |
This image is an artist's concept of the Skylab in orbit with callouts of its major components. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab Program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Skylab Illustration
| Name of Image |
Skylab Illustration |
| Date of Image |
1972-01-01 |
| Full Description |
This artist's concept is a cutaway illustration of the Skylab with the Command/Service Module being docked to the Multiple Docking Adapter. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab Program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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General Characteristics of t
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| Name of Image |
General Characteristics of the Skylab |
| Date of Image |
1970-01-01 |
| Full Description |
This illustration shows general characteristics of the Skylab with callouts of its major components. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab Program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Skylab Components in Launch
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| Name of Image |
Skylab Components in Launch Configuration |
| Date of Image |
1969-01-01 |
| Full Description |
This cutaway drawing illustrates major Skylab components in launch configuration on top of the Saturn V. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab Program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Skylab Program Illustration
| Name of Image |
Skylab Program Illustration |
| Date of Image |
1971-01-01 |
| Full Description |
This image illustrates major areas of emphasis of the Skylab Program. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab Program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Skylab
| Name of Image |
Skylab |
| Date of Image |
1974-01-01 |
| Full Description |
This image is an artist's concept of the Skylab in orbit. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Skylab Model
| Name of Image |
Skylab Model |
| Date of Image |
1967-01-01 |
| Full Description |
This photograph is of a model of the Skylab with the Command/Service Module being docked. In an early effort to extend the use of Apollo for further applications, NASA established the Apollo Applications Program (AAP) in August of 1965. The AAP was to include long duration Earth orbital missions during which astronauts would carry out scientific, technological, and engineering experiments in space by utilizing modified Saturn launch vehicles and the Apollo spacecraft. Established in 1970, the Skylab Program was the forerurner of the AAP. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Space Station/Skylab Sketch
| Name of Image |
Space Station/Skylab Sketch |
| Date of Image |
1966-01-01 |
| Full Description |
Seldom in aerospace history has a major decision been as promptly and concisely recorded as with the Skylab shown in this sketch. At a meeting at the Marshall Space Flight Center on August 19, 1966, George E. Mueller, NASA Associate Administrator for Marned Space Flight, used a felt pen and poster paper to pin down the final conceptual layout for the budding space station's (established as the Skylab in 1970) major elements. General Davy Jones, first program director, added his initials and those of Dr. Mueller in the lower right corner. The goals of the Skylab were to enrich our scientific knowledge of the Earth, the Sun, the stars, and cosmic space, to study the effects of weightlessness on living organisms, including man, to study the effects of the processing and manufacturing of materials utilizing the absence of gravity, and to conduct Earth resource observations. The Skylab also conducted 19 selected experiments submitted by high school students. Skylab's 3 different 3-man crews spent up to 84 days in Earth orbit. The Marshall Space Flight Center (MSFC) had responsibility for developing and integrating most of the major components of the Skylab: the Orbital Workshop (OWS), Airlock Module (AM), Multiple Docking Adapter (MDA), Apollo Telescope Mount (ATM), Payload Shroud (PS), and most of the experiments. MSFC was also responsible for providing the Saturn IB launch vehicles for three Apollo spacecraft and crews and a Saturn V launch vehicle for the Skylab. |
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Skylab Shroud in Plum Brook
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| Title |
Skylab Shroud in Plum Brook Space Power Facility |
| Full Description |
Skylab Shroud installed in the NASA Lewis Research Center's (now known as the Glenn Research Center) Plum Brook Station, Space Power Facility. The shroud protected the upper section of the Skylab space station, including its solar power arrays. When it was constructed, the Space Power Facility (SPF) was the world's largest vacuum chamber. It stands more than 122 feet high, 100 feet in diameter and provides a vacuum environment for the study of space propulsion. Originally commissioned for nuclear-electric propulsion studies, the SPF has been recommissioned for current and future use in the ongoing research and development of space propulsion systems. |
| Date |
12/03/1970 |
| NASA Center |
Glenn Research Center |
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View of Skylab food can meas
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| Title |
View of Skylab food can measuring compartment |
| Description |
A close-up view of a Skylab food can measuring compartment. The one at left represents 11 food cans of that particular size. Smaller food cans are represented by the one on the right. |
| Date |
11.01.1970 |
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Artist's concept illustratin
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| Title |
Artist's concept illustrating crewmembers with Earth Resources Experiment |
| Description |
An artist's concept of two crew members busily engaged with the Earth Resources Experiment Package (EREP) in the Multiple Docking Adapter of the Earth-orbiting Skylab cluster. |
| Date |
05.01.1970 |
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Dr. von Braun Reviewing Spac
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| Name of Image |
Dr. von Braun Reviewing Spacecraft Plans |
| Date of Image |
1970-06-27 |
| Full Description |
This photograph was taken after Dr. von Braun moved from his post as Director of the Marshall Space Flight Center (MSFC) to Deputy Associate Administrator for Planning at NASA Headquarters. On June 27, 1970, he visited the MSFC again during the center?s 10th anniversary to look at a mockup of the spacecraft that would later be known as Skylab. In this photograph, von Braun (left) and Fred W. Kelley examine an ST-100 stellar instrument platform in MSFC?s Astrionics Lab. |
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Dr. von Braun Reviewing Spac
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| Name of Image |
Dr. von Braun Reviewing Spacecraft Plans |
| Date of Image |
1970-06-27 |
| Full Description |
This photograph was taken after Dr. von Braun moved from his post as Director of the Marshall Space Flight Center (MSFC) to Deputy Associate Administrator for Planning at NASA Headquarters. On June 27, 1970, he visited the MSFC again during the center?s 10th anniversary to look at a mockup of the spacecraft that would later be known as Skylab. In this photograph, von Braun is talking with George Hardy of the MSFC Astronautics Lab. |
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Wernher von Braun and Saturn
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| Title |
Wernher von Braun and Saturn IB on Launch Pad |
| Full Description |
Dr. Wernher von Braun stands in front of a Saturn IB launch vehicle at Kennedy Space Flight Center. Dr. von Braun led a team of German rocket scientists, called the Rocket Team, to the United States, first to Fort Bliss/White Sands, later being transferred to the Army Ballistic Missile Agency at Redstone Arsenal in Huntsville, Alabama. They were further transferred to the newly established NASA/Marshall Space Flight Center (MSFC) in Huntsville, Alabama in 1960, and Dr. von Braun became the first Center Director. Under von Braun's direction, MSFC developed the Mercury-Redstone, which put the first American in space, and later the Saturn rockets, Saturn I, Saturn IB, and Saturn V. The Saturn V launch vehicle put the first human on the surface of the Moon, and a modified Saturn V vehicle placed Skylab, the first United States' experimental space station, into Earth orbit. Dr. von Braun was MSFC Director from July 1960 to February 1970. |
| Date |
1/22/1968 |
| NASA Center |
Marshall Space Flight Center |
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Dr. von Braun Reviewing Spac
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| Name of Image |
Dr. von Braun Reviewing Spacecraft Plans |
| Date of Image |
1970-06-27 |
| Full Description |
This photograph was taken after Dr. von Braun moved from his post as Director of the Marshall Space Flight Center (MSFC) to Deputy Associate Administrator for Plarning at NASA Headquarters. On June 27, 1970, he visited the MSFC again to look at a mockup of the spacecraft that would later be known as Skylab. Others in the photograph are, from left to right, James R. Thompson, David Newby, Karl Heimburg, Hermann Weidner, and Jack Stockes. Years later, Thompson would serve as Director of the MSFC. |
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Dr. von Braun Reviewing Spac
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| Name of Image |
Dr. von Braun Reviewing Spacecraft Plans |
| Date of Image |
1970-06-27 |
| Full Description |
This photograph was taken after Dr. von Braun moved from his post as Director of the Marshall Space Flight Center (MSFC) to Deputy Associate Administrator for Planning at NASA Headquarters. On June 27, 1970, he visited the MSFC again during the Center?s 10th anniversary to look at a mockup of the spacecraft that would later be known as Skylab. Others in the photograph are, from left to right: Karl Heimburg, director of the Astronautics Lab, Hermann K. Weidner, director of Science and Engineering, and George Hardy of the Astronautics Lab. |
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Map of Europe marked indicat
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| Title |
Map of Europe marked indicating areas of coverage from Apollo photography |
| Description |
This map of Europe has been marked to indicate areas of photographic imagery available from Apollo photography (32-degree orbits) as opposed to that imagery which will be available from a 50-degree inclined orbit. The region between the two broken lines will be in the area that can be covered by Skylab A photographic facilities in the 1972-73 time period. |
| Date |
06.29.1970 |
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Map of North America marked
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| Title |
Map of North America marked indicating areas coverage from Apollo photography |
| Description |
This map of North America has been marked to indicate areas of photographic imagery available from Apollo photography (32-degree orbits) as opposed to that imagery which will be available from a 50-degree inclined orbit. The region between the two broken lines will be in the area that can be covered by the first manned Skylab mission in 1973. |
| Date |
06.29.1970 |
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Map of South America marked
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| Title |
Map of South America marked indicating areas covered by Apollo photographs |
| Description |
This map of South America has been marked to indicate areas of photographic imagery available from Apollo photography (32-degree orbits) as opposed to that imagery which will be available from a 50-degree inclined orbit. The region between the two broken lines will be in the area that can be covered by the first manned Skylab mission in 1973. |
| Date |
06.29.1970 |
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Artist's concept illustratin
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| Title |
Artist's concept illustrating canister cut view of Apollo Telescope Mount |
| Description |
An artist's concept illustrating a canister cut view of the Apollo Telescope Mount (ATM). The ATM is one of the five major components of the Skylab 1 space station cluster which were launched into Earth orbit. This view includes a a color-coded key to the right of the view which helps label the electrical system, instrumentation and communication system, and pointing control system. |
| Date |
01.01.1970 |
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Artist's concept illustratin
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| Title |
Artist's concept illustrating cutaway view of Apollo Telescope Mount |
| Description |
An artist's concept illustrating a cutaway view of the Apollo Telescope Mount (ATM). The ATM is one of the five major components of the Skylab 1 space station cluster which were launched into Earth orbit. This view includes a color coded key to different systems at the bottom right of the view. Other areas of the experiment canister are also labeled. |
| Date |
01.01.1970 |
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Dr. von Braun Reviewing Spac
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| Name of Image |
Dr. von Braun Reviewing Spacecraft Plans |
| Date of Image |
1970-06-27 |
| Full Description |
This photograph was taken after Dr. von Braun moved from his post as Director of the Marshall Space Flight Center (MSFC) to Deputy Associate Administrator for Planning at NASA Headquarters. On June 27, 1970, he visited the MSFC again during the center?s 10th anniversary to look at a mockup of the spacecraft that would later be known as Skylab. In this photo, he is examining an experiment in the mockup. With von Braun are (left to right): James R. Thompson, Richard T. Heckman, and Jack Stokes of the Center?s Astrionics Laboratory. |
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Dr. von Braun Reviewing Spac
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| Name of Image |
Dr. von Braun Reviewing Spacecraft Plans |
| Date of Image |
1970-06-27 |
| Full Description |
This photograph was taken after Dr. von Braun moved from his post as Director of the Marshall Space Flight Center (MSFC) to Deputy Associate Administrator for Planning at NASA Headquarters. On June 27, 1970, he visited the MSFC again during the center?s 10th anniversary to look at a mockup of the spacecraft that would later be known as Skylab. With von Braun are (left to right): Herman K. Weidner, director of Science and Engineering at MSFC, and James R. Thompson of the center?s Astrionics Laboratory. |
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