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Analysis of Apollo 8 Photography and Visual ObservationsApollo 8 was launched from Cape Kennedy, Fla., at 7 :50 a.m., e.s.t., on December 21, 1968. Two hours 50 minutes later, translunar injection was performed; and astronauts Col. Frank Borman, the commander; Capt. James A. Lovell, Jr., the command module pilot; and Maj. (now Lt. Col.) William A. Anders, the lunar module pilot, were on their way to the Moon. The spacecraft was placed in an elliptical lunar orbit at 69 hours 8 minutes after liftoff. After flying two elliptical orbits of 168.5 by 60 nautical miles with an inclination of 12° to the Equator, the spacecraft was placed in a nearly circular orbit of 59.7 by 60.7 nautical miles, in which it remained for eight orbits. At 89 hours 19 minutes, trans earth injection was performed from behind the Moon. A nearly flawless mission was completed on the morning of December 27 when splashdown occurred in the Pacific Ocean after a total elapsed time of 147 hours.

Lt. Gen. Sam C. Phillips, the Director of the Apollo Program, announced that such a mission was being considered at a press conference on August 19, 1968. Formal announcement that NASA was preparing Apollo 8 for an orbital flight around the Moon was released to the press on November 12, 1968.

The primary purpose of this mission was to further progress toward the goal of landing men on the Moon by gaining operational experience and testing the Apolio systems. However, a great effort was also made to accomplish worthwhile scientific tasks with photography and visual observations by the astronauts.

In planning the scientific tasks to be attempted on this mission, it was obvious that one of the prime tasks should be photography of the lunar surface. Such photography would furnish valuable information on the following :

1. Approach topography and landmarks for the early Apollo landings
2. The scientific merit and the roughness of areas for possible follow-on
Apollo landings
3. The broad structure and characteristics of the lunar surface

During the orbital part of the mission, a major portion of the lunar far side would be in sunlight. Although almost all of the far side of the Moon has been photographed by the automated Lunar Orbiter spacecraft, the photography generally was made with the spacecraft relatively far from the Moon, limiting the Lunar Orbiter photographs to an average resolution of approximately 100
meters. Thus, Apollo photographs of the far side would have much better resolution than existing pictures.

Finally, it was recognized that contamination, both as it relates to window fogging (which did occur) and to contamination clouds around t he spacecraft, should be studied for both scientific and operational interests.
Document ID
19700005062
Acquisition Source
Kennedy Space Center
Document Type
Special Publication (SP)
Authors
Richard J. Allenby
(National Aeronautics and Space Administration Washington D.C., District of Columbia, United States)
William A. Anders
(National Aeronautics and Space Administration Washington D.C., District of Columbia, United States)
James A. Lowell
(National Aeronautics and Space Administration Washington D.C., District of Columbia, United States)
Frank Borman
(National Aeronautics and Space Administration Washington D.C., District of Columbia, United States)
James H. Sasser
F. El-Baz
E. A. Whitaker
Robert G. Storm
D. E. Wilhelms
D. E. Struat-Alexander
K. A. Howard
Newell J. Trask
Gordan A. Swann
J. A. O'Keefe
W. S. Cameron
Harold Masursky
H. G. Wilshire
A. F. H. Goetz
H. A. Pohn
R. L. Wildey
H. W. Radin
James L. Dragg
Herold L. Prior
K. Ziedman
B. K. Lucchitta
N. A. Gambell
D. W. G. Arthur
Richard L. Nance
Date Acquired
September 2, 2013
Publication Date
January 1, 1996
Subject Category
Space Vehicles
Instrumentation And Photography
Report/Patent Number
Report Number: NASA-SP-201
Accession Number
70N14366
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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