'Space Men': Documentary Shows How Balloon Tests Paved Way to Space

Ask most Americans about the early space program, and the first names mentioned will probably be Alan Shepard and John Glenn, the first NASA astronauts to reach space and orbit Earth, respectively.

But a lot of work led up to these epic 1961 and 1962 flights, as the new PBS documentary “Space Men” makes clear. And this work was done not just by test pilots in jets, but by brave balloonists, the film reveals. You can see an exclusive clip from “Space Men” here .

“Space Men,” which premieres on PBS Tuesday (March 1), covers the research of an Army doctor named John Paul Stapp. Stapp was interested in how the human body would cope with spaceflight. He started his work in the 1940s, years before the Soviet Union’s 1957 launch of Sputnik, the world’s first artificial satellite. [Giant Leaps: Top Milestones of Human Spaceflight ]

“It was just this kind of forgotten history, and then I was drawn into that,” Amanda Pollak, the documentary’s writer and director, told Space.com. “In the late 1940s and ’50s, he [Stapp] saw the progress around him and what was happening with rocket technology. As a med doctor, he saw people flying faster and higher, and he wanted to protect the human body in that situation.”

Stapp secured funding for experiments on the human body and, ultimately, a set of six balloon flights to the stratosphere, which were conducted as part of projects known as Manhigh and Excelsior. Balloons can’t make it to orbit, but they can get above 99 percent of Earth’s atmosphere , to altitudes of about 100,000 feet (30,000 meters). (Jets at that time were unable to approach such altitudes.)

“The purpose of Manhigh was to come up with the life-support systems,” said retired U.S. Air Force Col. Joseph Kittinger, who flew one flight in 1959 during Manhigh and three times during Excelsior, in 1959 and 1960.

Kittinger jumped from his gondola during his three Excelsior missions, skydiving back to Earth. The goal of these jumps was to find out how an astronaut might cope with a high-altitude bailout. On Kittinger’s third jump, in August 1960, he set a skydiving altitude record — 102,800 feet (31,333 m) — that remained in place until 2012, when it was broken by Austrian daredevil Felix Baumgartner. (Former Google executive Alan Eustace broke Baumgartner’s record in October 2014, jumping from a height of 135,908 feet, or 41,425 m.)

Kittinger said the challenge was to come up with a bailing-out system simple enough for anyone to use.

“Pilots aren’t skydivers,” he said.

Air Force Capt. Joe Kittinger jumps from the Excelsior III balloon gondola in a 1960 test, free-falling toward Earth for more than 4 minutes.

Air Force Capt. Joe Kittinger jumps from the Excelsior III balloon gondola in a 1960 test, free-falling toward Earth for more than 4 minutes.

Credit: U.S. Air Force

For example, one problem is rotation: When jumping out of a plane, a skydiver will start to rotate. At low altitudes, this isn’t a problem, because air resistance keeps the spin rate down. But at the altitudes Kittinger jumped from, there is so little air that the rotation keeps getting faster — as he discovered on his second jump, in November 1959, when a parachute malfunction resulted in a spin of 120 rotations per minute that knocked him unconscious. Kittinger’s emergency chute opened up at about 10,000 feet (3,000 m), saving his life.

The result of Kittinger’s jumps, though, was the drogue parachute design that spacecraft still use today — a small parachute is released at high altitude, when the spacecraft has built up enough speed for the thin air to catch it. That smaller parachute guides the larger one, which is opened later, and prevents tangling.

Stapp’s project also gave engineers the equipment that they almost take for granted in astronaut training today, such as the centrifuge that subjects test pilots and astronauts to high gravity loads.

Beyond testing the limits of human bodies, there were scientific experiments to be done. In the 1950s, not much was known about the region beyond the stratosphere. It wasn’t clear, for example, how dangerous superenergetic cosmic rays might be to human health.

Despite their importance to the later space program, the balloon projects got little funding. Stapp had to be creative in finding ways to make a few dollars go further. The balloon projects were disbanded shortly after NASA was established in 1958, though the space agency did use the data Stapp and his colleagues had gathered on the stratosphere and the effects of stratospheric flight to design its own astronaut training. And Stapp himself helped NASA with its astronaut selection .

Pollak said politics likely played a role in the balloon projects’ demise. The Dwight Eisenhower administration wanted NASA to be an entirely civilian program, so the associations with the U.S. Air Force were downplayed. It was also difficult to get the public excited about balloons when rockets were on offer.

Meanwhile, Kittinger, who still flies planes and performed the first balloon trans-Atlantic crossing in 1983, says he’d do his jumps all over again.

“I’d need a bigger pressure suit,” he said.

“Space Men” premieres March 1 on PBS at 9 p.m. ET (check local listings). To learn more about the documentary, visit: 
http://www.pbs.org/wgbh/americanexperience/films/spacemen/
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Follow us @Spacedotcom , Facebook  or Google+ . Originally published on Space.com .

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