AIR & SPACE MAGAZINE

Apollo’s Army

It took 400,000 people, working under extreme pressure, to reach the moon in 1969. Like any army, they suffered casualties.

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Grumman workers pose with one of their lunar modules (LM-12) at the company's plant in Bethpage, New York, May 1971. Courtesy Lawrence A. Feliu, Northrop Grumman History Center

In their highly regarded 1989 history, Apollo: A Race to the Moon, authors Charles Murray and Catherine Bly Cox told the story of the lunar program’s other heroes: the flight directors, engineers, technicians, and back-room wizards who rarely shared in the astronauts’ public acclaim, but who were just as vital to their success. The book’s dedication reads: “For all the people who gave their best to Apollo—and for their families, who did too.”

That last point is rarely considered in the histories of NASA’s moon race, but was all too real to the 400,000 workers who made Apollo happen. Stories of broken marriages, absent fathers (back then it was mostly fathers), lost sleep, and crushing stress were common. More than one doctor in the Cape Canaveral area reported high incidences of ulcers, even among children. Kennedy Space Center director Kurt Debus told Parade magazine in 1969, “There is so much tension, so much anxiety in putting men into space…We live with it constantly. In fact, it is so much with us that we are studying it—how it is affecting our hearts, our nerves, our functions, our aging processes. We don’t know yet.”

In order to land on the moon “before this decade is out,” overtime was mandatory. George Skurla, who directed the Grumman Corporation’s lunar module work at Cape Canaveral and went on to become the company’s president, once estimated that NASA paid for no more than about 70 percent of the true human effort that went into Apollo. “A lot of people worked day and night,” he said. In the course of researching a documentary about the Apollo lunar lander, New York filmmaker Mike Marcucci heard similar tales from Grumman workers.

We’d like to hear from other Apollo veterans about the sacrifices they made to achieve this nation’s proudest moment in space (use the comments form below). The main reason is to honor their service. But 40 years later, we also should understand what was required to land on the moon, and what might be required to go back.

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Designing and assembling the lunar modules -- more than a dozen were built, including the six that landed on the moon -- was among Apollo's most demanding jobs in terms of complexity and schedule pressure. Here, engineers at Grumman's manufacturing facility in Bethpage, New York, work on the fourth Lunar Module (LM-4, flown on Apollo 10), September 15, 1966. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-2 Descent Stage being readied for tank installations, September 15, 1966. This lander is now in the National Air and Space Museum. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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Installation of the forward bulkhead for LM-5, the Apollo 11 lunar lander, August 10, 1966. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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Installing wire bundles on the LM-7 (Apollo 13) Ascent Stage, March 18, 1968. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-4 (Apollo 10) Descent Stage being prepared for cold flow testing, August 16, 1967. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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Overhead view of the LTA-1 test article being tested in the Electromagnetic Interference Room, June 23, 1966. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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Astronaut Gerald Carr inspects the LTA-8 test article, October 11, 1966. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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LM-2 being weighed upon arrival at the final assembly area before cleaning, June 4, 1966. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-7 (Apollo 13) Ascent Stage in Grumman's Structural Assembly Fixture after attachment of its front face, June 20, 1967. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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Working on the support stand for a test article (LTA-8), September 6, 1966. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-6 (Apollo 12) Ascent Stage during installation of electronic instruments and thermal shields, January 22, 1968. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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A lunar test article (LTA-3D) Descent Stage during a leg deployment test in preparation for drop tests, September 6, 1967. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-6 (Apollo 12) Ascent Stage prior to being moved to Grumman's Controlled Environment Area for installation of plumbing and electrical wiring, September 10, 1967. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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Engineers check the weight and center of gravity of the LM-2 Descent Stage, February 12, 1968. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-5 (Apollo 11) Descent Stage in Structural Assembly Fixture, January 11, 1967. Courtesy Lawrence A. Feliu, Northrop Grumman History Center
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The LM-1 Ascent Stage ready for removal from its workstand before shipment to Florida for an unmanned test, June 18, 1967. Courtesy Lawrence A. Feliu, Northrop Grumman History Center

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