Bold They Rise: The Space Shuttle Early Years, 1972-1986 (Outward Odyssey: A People's History of S) (27 page)

BOOK: Bold They Rise: The Space Shuttle Early Years, 1972-1986 (Outward Odyssey: A People's History of S)
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After the crew’s return to Earth, engineers analyzing the failure determined that the suit had a serious electrical problem but one that could be easily repaired for future spacewalks. “The bad news was the spacesuit failed; the good news was we were not outside the ship when it failed,” Allen noted. “It would have been considerably more traumatic had it failed outside. It would not have been fatal to me, but it would have gotten my attention, for sure. I would have to scramble to get back in, button myself up, and get out of the suit before other parts of it started to fail.”

Brand recalled how, as commander, he made the call that cost his mission its place in history as the first shuttle with spacewalks: “I guess I was the bad guy. As much as I hated to, I recommended to the ground that we cancel the
EVA
s, because we had a unit in each spacesuit fail in the same way. . . . We could have taken a chance and . . . could have done it, the
EVA
, but we didn’t. I’m not sure Bill Lenoir was ever very happy about that, because he and Joe, of course, wanted to go out and have that first
EVA
.”

For the first four-person crew and the largest yet to inhabit the orbiter, living aboard the spacecraft for the duration of the five-day mission created interesting challenges when it came to sharing the small amount of habit
able space. For example, there were no sleeping compartments, Brand said, so they had to be creative in each finding a place of his own for rest. “Since we didn’t have a sleep station, I just would take a string and tie it to my belt, and tied the other end to the wall. Tethered by the string, I’d put on a jacket and just fall asleep. It was great in weightlessness, and I slept well.”

Bob Overmyer used the only sleeping bag and slept in the lower deck of the Space Shuttle, while Bill Lenoir slept in a corner on the upper deck. “I don’t know how he did it, but he didn’t float out of the corner, and he would sleep that way,” Brand said. “Joe Allen was the funniest. He would just free-float through the spacecraft the whole night, or what we called night. He moved gently, and the air currents would move him around. He might gently bump into a switch or something, but they were covered and he was hitting them so gently that there wasn’t really any concern about moving the switches. That was really humorous, seeing that.”

As with the demonstration flights, mission objectives included checking out the orbiter systems and determining their capabilities and tolerances. One such task, Brand explained, was to test the orbiter’s thermal tolerances by positioning the vehicle so that one side was fully in the sun and the other side was in shadow. “Sometimes after spending many tens of hours in one attitude, the shady side of the ship would get real cold,” Brand recalled. “Dew would form on the inside of the ship on the cool side. We had a treadmill in the mid-deck, and when people ran on the treadmill, it shook that dew loose and it would sort of rain inside the spacecraft.”

Allen, who would later publish a book featuring on-orbit photography, explained that
NASA
regulations almost prohibited him from taking a historic photo of the first time four Americans were together in space. In preparing for the mission, he discovered that the delayed shutter release button on his camera had been removed.

I went back to the photo people and I said, “This is a defective camera. It’s been plugged. I want a real Nikon.” Well, it had been modified, and the modification had cost tens of thousands of dollars in order to make it more astronaut-proof, such that astronauts didn’t, by mistake, put the camera on delayed timing and thus mess up a picture. A couple of modifications had been done, none of which was necessary, all of which were costly, and I just was very upset with my colleagues. I said, “Cameras are amongst the best-tested of complicated tools that we have
humans have. They’ve been tested in wars. They’ve been tested in violent storms. They’ve been tested at the bottoms of the oceans. They’ve been tested everywhere. Why are you making them better?” Well, it was an argument I did not win.

Not to be deterred, Allen was determined to find another solution to the issue.

Perhaps in spite of the rules and because I’ve been a little bit of a troublemaker, but not serious trouble, I went to a camera store and was able to find a very old-fashioned shutter release mechanism. . . . I took this device aboard the spaceship without anybody really knowing it, and it came secretly off the spaceship on my person. This was against
NASA
regulations, and I will readily admit to it. But in the flight photos that came back, there were numbers of photos of us, the four crewmen. [One was] good enough to appear in
Time
magazine the next week. But this was with a camera that had no delayed shutter release! Not one
NASA
person said a word to me about it, but you knew that the people in the photo shops wondered how in the world those photographs were taken. A very nice man ran
NASA
Photo for many years; when he retired, I gave him that secret shutter release device—a flown object. . . . Because I knew he knew how I’d made that photo. He just had to know how I’d done it.

At last, it was time to return to Earth. Brand, who had previously experienced reentry in an Apollo capsule at the end of his Apollo-Soyuz mission, said his return to Earth on the shuttle was a very different experience.

There were very large windows, and you weren’t looking backwards at a donut of fire. You were able to see the fire all around you; you could look out the front. First the sky was black, because you were on the dark side of the Earth, but as this ion sheet began to heat up, you saw a rust color outside, then that rust color turned a little yellowish. Eventually, around Mach 20, you could see white beams or shockwaves coming off the nose. If you had a mirror—and I did on one of my flights—you could look up through the top window, which was a little behind the crew’s station, and see a pattern and the fire going over the top of the vehicle, vortices and that sort of thing.

The crew landed at Edwards Air Force Base at 6:33 on the morning of 16 November 1982. “We had an intentional max braking test and completely ruined the brakes,” Brand said. “I had to stomp on them as hard as I
could. . . . Even though it was billed as the first commercial flight, I think we had roughly fifty flight-test objectives. That braking test was just one of them. We ruined the brakes, completely ruined them, but it was a test to see how well they would hold together if you did that.”

STS
-6
Crew: Commander Paul Weitz, Pilot Bo Bobko, Mission Specialists Story Musgrave and Don Peterson
Orbiter:
Challenger
Launched: 4 April 1983
Landed: 9 April 1983
Mission: Deployment of
TDRS
-1; first flight of
Challenger
; first shuttle spacewalk

Paul Weitz, Bo Bobko, Story Musgrave, and Don Peterson were not, at first, officially the crew of the sixth Space Shuttle mission. Like the members of the other early crews, they were given a letter designation, F, when they participated in the development of the Orbiter Flight-Test program. The crew members nicknamed themselves “F Troop,” a reference to a television comedy series featuring an Old West army troop. The crew even took an F Troop–themed crew photo. “We had on the little flight T-shirts and the flight pants,”
STS
-6 mission specialist Don Peterson recalled,

but we went out and bought cowboys hats. I had a sword that had once belonged to some lieutenant in Napoleon’s army. We got a Winchester rifle, the lever-action rifle, and a bugle and a cavalry flag, and we posed for this picture. Weitz, of course, is the commander, and he’s sitting there very stern looking, with the sword sticking in the floor. I had the rifle, and I think Story had the bugle. Anyway, we had that picture made, and we were passing them out, and
NASA
asked us not to do that. They thought that was not dignified, but I thought it was hilarious. I still have a bunch of them.

While the crew members embraced the F Troop nickname, there was another nickname used mainly behind their backs. “I didn’t hear ‘the Geritol bunch’ until, I guess, after the flight was over,” recalled
STS
-6 commander Weitz, who had been selected as a member of
NASA
’s fifth astronaut class seventeen years earlier. “Maybe that was something that everybody said about us when we weren’t around. We were on orbit and somebody was
talking about ‘how old you guys are.’ We had taken a bunch of pictures, and I couldn’t resist, I said, ‘You know, we’re not going to show the pictures to anybody under thirty-five when we come back. So some of you guys, some of you wiseasses, won’t see them.’”

STS
-6 had three major mission objectives. It was the maiden launch of the second operational orbiter,
OV
-099, better known as
Challenger
, and so the crew would be making sure the new vehicle operated properly. The flight was to make the first deployment of a Tracking and Data Relay Satellite, part of a new space-based communications system. And, after the problems with the spacesuits on
STS
-5, this flight would now be making the first shuttle-based spacewalk.

Peterson and Musgrave were responsible for the deployment of the
TDRS
-1 satellite on the first day of the mission. “Story’s the kind of guy that he wants to throw the switches,” Peterson recalled, “so what I did was took the checklist. Story was not real good about following the checklist, and so you had to kind of say, ‘Wait, Story. Let’s go step-by-step here and make sure we get this right.’”

A few days before launch, while the crew was quarantined in the crew quarters at Cape Canaveral, Peterson and Musgrave were informed that changes had been made to the software they would use to deploy the satellite. “These two guys showed up and . . . said they were from Boeing. They had badges. . . . Story and I literally copied a bunch of stuff down with pen and ink and used that on orbit,” Peterson said. “And that’s really scary, because, you know, you’re taking these guys’ words. You’ve never seen some of this stuff in the simulator. It’s, like, suppose what they’re telling us is not right, and we do something and we mess up the payload. Then they ain’t never going to find those two guys again. They’ll be gone, and it’ll be, like, ‘Why the hell didn’t you guys do it the way you were trained to do it?’”

The deployment went as planned, but after deployment, one of the two solid rockets in the booster that was to transport the satellite from the shuttle’s orbit to its intended geosynchronous orbit failed. However,
NASA
was able to nudge the satellite into its proper orbit using extra fuel in the attitude control system that allowed the orientation of the satellite to be changed.

Bobko explained, “Luckily, they had planned to use the satellite for commercial purposes as well as
NASA
, and it was decided not to do that, but they didn’t make that decision in time to take off some of the extra fuel that was required for using the satellite commercially. So that fuel was available, and, luckily, that was what saved the satellite.”

19.
The deployment of the first Tracking and Data Relay Satellite, on
STS
-6. Courtesy
NASA
.

Musgrave and Peterson also were assigned to make the first shuttle-based spacewalks. “It’s kind of funny,” Peterson said. “George Abbey, I think, had some people already picked out that he wanted to have the honor of doing the first spacewalk, and when that canceled, he said, ‘Well, we’ll have to slip now. It’ll take months to get another crew ready.’ Jim Abrahamson, who’s an old friend of mine, was the [associate] administrator. He called me on the phone and said, ‘Can you and Story do the spacewalk?’ And I said, ‘Yeah.’ So he said, ‘Okay. We’re going to do it on the next flight.’”

The late addition of the spacewalk didn’t give the astronauts much time to train. Peterson had very little experience in the extravehicular activity
spacesuit, but Musgrave had represented the Astronaut Office in the suit’s development so he knew everything about the suit there was to know, Peterson said. “Story had spent, like, four hundred hours in the suit in the water tank, so he didn’t really have to be trained,” recalled Peterson. “Now, my training was pretty rushed, pretty hurried. I think I was in the water, I don’t know, fifteen, twenty times, but that’s really not enough to really know everything you need to know. But all we were doing was testing the suit and testing the airlock, so we weren’t really doing anything that was critical to the survival of the vehicle. We were just testing equipment, and the deal was, if something went wrong, you’d just stop and come back inside. So the fact that I wasn’t highly skilled in the suit really didn’t matter that much.”

Back during the Gemini program,
NASA
had determined that the best way to prepare for spacewalks was to make suited dives in a water tank. The spacesuit is weighted to make it “neutrally buoyant,” such that it doesn’t sink to the bottom or float to the surface; it just hangs there. The simulation of weightlessness isn’t perfect—inside the suit, the astronaut’s body is not floating; it’s supported by the suit. So if the astronaut turns upside down in the water tank, the weight is on his or her head and shoulders.

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