UAH Archives, Special Collections, and Digital Initiatives

Browse Items (8239 total)

  • Friday__October_27__2017_at_12_12_20_PM_default_1fcc37b7.mp4

    Bran Griffin was born in Medford, Oregon. His father was in the military, so they moved around a lot. Bran went to the University of Texas his first year of college, and he studied Architecture. Then, he graduated college with a degree in Architecture from Washington State University. He then went to graduate scholl in Southern California, and he received a fine arts degree. After this, Bran wanted to get a degree in something a little more stable, so he went back to school to get his master's degree in Architecture. After this, Bran was on a shuttleship for a couple of years in Rome, and then he came back to start his career in teaching Architecture. Even though he was teaching Architecture, he had an intense passion for space. Because of this passion, he started to become involved with the Johnson Space Center with a faculty fellowship. Bran was in their Spacecraft Design Division. Since he wanted to be closer to be a part of the Space Industry, he decided to move to Washington State. After a while of working in Washington State, he received a job offer from Boeing in Hunstville, AL and began his career there being involved with the space station.
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  • phiandpraofrelasappinthedesofthesatinssys_013008103714.pdf

    The basic engineering approach used in the Saturn instrumentation system has evolved to provide a highly reliable design for short periods of operation. The airborne measuring and telemetry systems including preflight tests, inspection, documentation, and feedback between the users and designers are discussed. The apparent differences between the practice and theory of reliability are rationalized. Some consideration is given to new problems in designing systems that must operate in hostile environments for long periods. The potential contribution of redundancy as a design concept is discussed.; This paper is concerned with the airborne measuring and telemetry systems; it does not attempt to treat the entire Saturn instrumentation system which consists of tracking devices including optical, radar, and Doppler, plus television, film cameras, and a myriad of instruments connected with factory checkout, ground test, and launch.
  • loc_gold_000354_000354.pdf

    This document contains a detailed breakdown of the fees associated with the "unlawful detainer suit" filed by Lawrence Goldsmith against H. Oliver.
  • http://dkdayton.net/roberts/images/r02h/pdfs/r02h03-00-002.pdf

  • liqrockeng.pdf

    This paper presents a discussion on liquid propellant rocket engines. The first part contains a discussion on liquid propellants, including a description of various propellant types such as cryogenic, storable,bipropellant, and monopropellant. This part also points out desirable physical properties and includes a section on performance outlining the methods by which performance is calculated and shows performance for various liquid rocket propellant combinations.

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  • spc_spac_000350_000351.pdf

  • loc_gold_000301_000303.pdf

    This personal letter to Oscar Goldsmith from his grandson, also named Oscar, details the removal of young Oscar's tonsils and his gaining eight and a half pounds. He also writes of his first refrigerator sale and his hopes to sell more, though he is "no salesman". He conveys some information from his mom and thanks him for making her trip to New York possible. Finally, young Oscar thanks Papa Oscar for paying his tonsil removal bill, and promises that he can take care of his dentist bill.
  • TheNASAGrumApol_052410121955.pdf

    Handwritten in pencil on the document. Describes the layout and function of various sections of the Apollo lunar module.
  • StruoftheNASA_052410122627.pdf

    Describes the structure and function of each part of the NASA Lunar Module

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