Lunar Geology and the Apollo Program

Geologic Map of the Copernicus Quadrangle of the Moon
H. H. Schmitt, N. J. Trask and E. M. Shoemaker, “Geologic Map of the Copernicus Quadrangle of the Moon,” 1967. USGS.

Planetary geologist David Rothery writes about the early attempts to map the Moon’s geology, both before and after the Apollo program. There was a symbiotic relationship between the map and the mission: maps suggested where landings might be most profitable from a geological perspective; and field work by the astronauts informed later moon maps.

Lunar Cartography During the Age of Apollo

Writing for Crosscut, Tom Reese memorializes his father, who worked as a cartographer and engineer for NASA’s Aeronautical Chart and Information Center during the Apollo program. Harlan Reese left behind a collection of maps, photos and charts in his garage which, Tom says, still contains “mesmerizing detail and mystery”:

One box has odds and ends of early lunar photography, some of the prints overlain with Dad’s hand-drawn compass points, landing site X’s and handwritten notations. The images were made through large telescopes on Earth, by the Surveyors and Rangers and Lunar Orbiters and early Apollos flying around and over the most promising landing sites. You can also see those smudged fingerprints that likely belong to Dad, mixed with those of many others who used magnifiers and X-Acto knives to carefully slice apart select sections of crater fields. Some small globs of cracked glue remain where they dripped during the process of pasting together the cut pieces to form mosaics of the unexplored landscape.

Some small indentations probably show how the prints were positioned in viewing devices like the extremely precise optical comparator, which helped human eyes interpret the length of shadows inside craters for the first time. These results were coordinated with data about altitude and lunar daylight to provide the most precise terrain measurements possible. Careful airbrushing would smooth over and fill in terra incognita with educated guessing. Finally, this data would be transformed into the precisely printed maps and charts that would help lunar lander pilots to, among other things, second-guess in real time the navigation decisions made by computers of the late 1960s and early 1970s.

Below, a Target of Opprtunity Flight Chart for the Apollo 11 mission:

Apollo 11 Target of Opportunity Flight Chart