Książka o stacji kosmicznej Skylab? Znajdziesz tu książki o technologii Skylaba, od jego wystrzelenia w 1973 r. do ponownego wejścia w atmosferę w 1979 r.
Skylab a Guidebook
Skylab's launch in 1973 represented a major milestone in America's space program. Intended to enrich scientific knowledge of the Earth, Sun and space, America's first space station was also intended to prove that humans could live and work in zero gravity for extended periods. The station's design originated from a 1959 proposal by Wehrner von Braun to use an empty rocket stage as an orbiting laboratory - Skylab's Orbital Workshop design was built around a Saturn S-IVB stage. With a total length of about 117 feet and a mass of 169.950 pounds, the station was about the size of an average house. It included a multi-spectral solar observatory, two docking ports, and Airlock Module with EVA hatches, and a large habitation area. Power on-board came from solar arrays and the fuel cells of the docked Apollo CSM.
Skylab was damaged by vibrations during lift-off, destroying an important meteoroid shield and one of the station's two solar panel arrays. The second array could not be deployed until the crew of the SL-2 mission made an EVA to fix it. The crew remained in space for 28 days, a record eclipsed by the next two missions SL-3 (59 days) and SL-4 (84 days). After the SL-4 crew returned to the Earth in 1974 plans were made to refurbish Skylab, but delays with the Space Shuttle program proved fatal, and the station re-entered Earth's atmosphere and disintegrated in 1979.
Dating from just prior to the station's deployment in 1973, this informative book was originally published by NASA to explain Skylab's mission to the public. Featuring chapters detailing the station's history, design, components, operation, and research projects, it presents an important overview of the Skylab program.
America's first space station, known as Skylab, proved the concept of a zero-g laboratory and orbiting observatory, and paved the way for today's International Space Station. Launched on May 14, 1973, the station nearly didn't make it into operation when an aluminum micro-meteoroid shield tore loose during lift-off, taking one of two solar power arrays with it. While Skylab made orbit, the station was left underpowered and its interior overheated. NASA quickly came up with a salvage plan and after a ten-day delay the crew of the SL-2 mission rendezvoused with the station. Contingency repairs, including the installation of a parasol-like sun shield and deployment of the remaining solar array, succeeded and Skylab functioned more or less as intended for the duration of its mission. During that time two additional crews designated SL-3 and SL-4 visited the station and conducted a wide range of experiments. The SL-4 crew departed the station on February 8, 1974 after spending 83 days in orbit. During that time they performed four EVAs, shot 75,000 images of the sun, filmed Comet Kohoutek and traveled over 34.5 million miles. Despite this terrific success, Skylab would never be occupied again. The end of the Saturn V era and delays with the Space Shuttle program resulted in the station's abandonment, and it burned up in the Earth's atmosphere in 1979.
Originally created by NASA in 1973 to inform the press corps about America's first space station, this Skylab News Reference contains chapters detailing the station's hardware and systems. It also provides detailed information concerning flight operations, launch facilities, experiments on board, crew training, contractors and project management. Also included are official press releases for the SL-1 and SL-2, SL-3 and SL-4 missions.
NASA Skylab Manual (1969-1979) - An insight into the history, design, development and operation (Haynes Space Manual)
Skylab was officially named in 1969 as the first US space station and it was developed out of an existing set of Apollo hardware. Skylab orbited the Earth from 1973 to 1979, and supported three extended periods in orbit for astronaut teams between mid-1973 and early 1974. Skylab re-entered Earth's atmosphere and disintegrated in 1979. It set a precedent for the International Space Station, assembly of which began almost 25 years after the last Skylab crew departed.
This book focuses on the engineering and design of Skylab, which was designed to carry out three categories of scientific study: Earth observation; observations of the Sun; and the effects of the weightless environment on humans. It also describes the adapted Apollo spacecraft used to ferry astronauts to the station, and the new launch method for the Saturn IB rockets used to send astronauts to Skylab.
Author: Dr. David Baker worked with NASA on the Gemini, Apollo and Shuttle programmes between 1965 and 1990. He has written more than 80 books on spaceflight technology.
Szczegóły
Autor:
David Baker
Wydanie:
208 strony, 27.5 x 21.5 x 1.5 cm, twarda oprawa
Ilustracje:
bogato ilustrowane, kolorowe zdjęcia i rysunki
Wydawca:
Haynes Publishing (GB, 2018)
Seria:
Haynes Space Manual
ISBN:
9781785210655
NASA Skylab Manual (1969-1979) - An insight into the history, design, development and operation
Created as an aid for the astronauts training for Skylab missions, this Skylab Saturn IB Flight Manual is a comprehensive reference that contains descriptions of ground support interfaces, prelaunch operations, and emergency procedures. It also summarizes mission variables and constraints, mission control monitoring and data flow during launch and flight. Launch vehicle SL-2 (SA-206; first Skylab manned mission) was used as the baseline for the manual, but the material is also representative of the SL-3 and SL-4 launch vehicles. Also known as the "Uprated Saturn I", Saturn IB was first launched in 1966. The IB replaced the Saturn I's S-IV second stage with the more powerful S-IVB, allowing it to carry a partially fueled Apollo Command / Service Module or fully fueled Lunar Module into low Earth orbit. The Saturn IB allowed critical testing of the Apollo Program's systems to be conducted long before the Saturn V was ready. It also flew one orbital mission without a payload, with the extra fuel used to demonstrate that the S-IVB's J-2 engine could be restarted in zero gravity - a critical operation for translunar injection. The Saturn IB had a height of 141.6 feet and a mass of 1.3 million pounds without payload. It produced thrust equivalent to 1.6 million pounds force, and could carry 46,000 pounds of payload to low Earth orbit. Saturn IB flew nine times, including three Skylab missions and for the Apollo-Soyuz Test Project.
Complete with many informative diagrams and photos, this manual is a wonderful reference for who ever wondered how these mighty rockets were designed and built.
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