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Saturn Launch Vehicles Astrionics System Handbook, 2nd revised edition.
This updated edition of the Astrionics System Handbook instructs, "The enclosed pages change, delete, or supplement the information in the Astrionics System Handbook (1 August 1965). Insert these pages and destroy the pages they replace." -
"The Astrodynamicist's Role vis-a-vis the Systems Engineer."
By J. Reynolds Duncan, Jr., Aerospace Engineer, NASA Marshall Space Flight Center, Huntsville, Alabama. AIAA 7th Aerospace Sciences Meeting, New York City, New York, January 20 - 22, 1969. -
"Assessment of Risk for Engineering Change Decisions."
This document includes the current basis for approval of ECPs, fatigue life after stress reduction, and other probability and comparative risk assessments. On the first page there is an inscription, "By E.L. Bombara NASA-MSFC." -
"Air Force Surveys in Geophysics: The ARDC Model Atmosphere, 1956."
This paper presents a "realistic model of atmospheric properties based on reliable observations and current theories" according to the abstract found on page xv. This 1956 ARDC model was meant to be used as the "basis for engineering and design work performed." -
Reproduction of "Apollo Interface Control Document Log."
This copy is a reproduction of a document held by the NASA Scientific and Technical Information Facility . -
"Alignment Tool Aids in Large Tank Fabrication."
Includes the clipping "Clamping Tool Aligns Odd-Shaped Sections for Welding" from <i>Design News</i>, September 4, 1963, written by Margaret A. Maas. -
"Aerospace Vehicle Simulation and Checkout."
Paper by J. W. Moore and J. R. Mitchell, Quality & Reliability Assurance Laboratory, Marshall Space Flight Center, and H. H. Trauboth, Computation Laboratory, Marshall Space Flight Center. The paper summary notes, "The advancement of the space age into increasingly complex and ambitious missions requiring the development and operation of more sophisticated and intricate launch vehicles has generated numerous problem areas. The purpose of this paper is to define the Aerospace Vehicle Simulation; discuss the relationship of this simulation to the major problem areas of checkout; describe the development and implementation of this simulation system; indicate multidiscipline applications to present and future programs."