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Failure Is Not an Option
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Failure
Is Not an
Option
MISSION CONTROL
FROM MERCURY
TO APOLLO 13
AND BEYOND
GENE KRANZ
Simon & Schuster
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Copyright © 2000 by Gene Kranz
All rights reserved, including the right of reproduction in whole or in part in any form.
Simon & Schuster and colophon are registered trademarks of Simon & Schuster, Inc.
ISBN 0-7432-1447-1
With love to my wife, Marta,
and our children,
Carmen, Lucy, Joan,
Mark, Brigid, and Jean
Contents
1 | The Four-Inch Flight
2 | "Liftoff; the Clock Is Running"
3 | "God Speed, John Glenn"
4 | The Brotherhood
5 | The Making of a Rocket Man
6 | Gemini—The Twins
7 | White Flight
8 | The Spirit of 76
9 | The Angry Alligator
10 | A Fire on the Pad
11 | Out of the Ashes
12 | The X Mission
13 | The Christmas Story
14 | 1969—The Year of Apollo
15 | SimSup Wins the Final Round
16 | "We Copy You Down, Eagle"
17 | "What the Hell Was That?"
18 | The Age of Aquarius
19 | Coming Home
20 | Shepard's Return
21 | What Do You Do After the Moon?
22 | The Last Liftoff
Epilogue
Where They Are
Acknowledgments
Appendix: Foundations of Mission Control
Glossary of Terms
Index
FAILURE IS NOT AN OPTION
1
THE FOUR-INCH FLIGHT
“Houston, we have a problem.”
At some time in the hours that followed that terse announcement from Apollo 13, many of us in NASA’s Mission Control Center wondered if we were going to lose the crew. Each of us had indelible memories of that awful day three years before when three other astronauts sat in an Apollo spacecraft firmly anchored to the ground. Running a systems test. Routine. In terms of the distances involved in spaceflight, we could almost reach out and touch them.
Moments after the first intimation that something had gone terribly wrong, technicians were up in the gantry, desperately trying to open the hatch. It took only seconds for an electrical glitch to ignite the oxygen-rich atmosphere of the cabin, creating a fire that was virtually a contained explosion. In those few seconds, the men inside the capsule knew what was happening—and they must have realized, at the last moment, that there was no escape. We simply could not reach them in time.
Now, three equally brave men were far beyond us in distance, far out in the vast absolute zero world of space, the most deadly and unforgiving environment ever experienced by man. We could measure the distances in miles. But with so many miles, the number was an abstraction, albeit one we had become used to dealing with in matter-of-fact fashion.
We could reach them only with our voices, and they could speak to us only through the tenuous link of radio signals from precisely directional radio antennas. This time they were truly beyond our reach. Time and distance. So close were we in the Apollo fire that claimed the first three Americans to be killed in a spacecraft.
Now we were so far, so very far, away.
Once again, technology had failed us. We had not anticipated what happened back then, on Earth. We had not anticipated what had happened this time. In fact, it would be hours before we really understood what had happened. There was one big difference in this case. We could buy time. What we could not accomplish through technology, or procedures and operating manuals, we might be able to manage by drawing on a priceless fund of experience, accumulated over almost a decade of sending men into places far beyond the envelope of Earth’s protective, nurturing atmosphere. All we had to work with was time and experience. The term we used was “workaround”—options, other ways of doing things, solutions to problems that weren’t to be found in manuals and schematics. These three astronauts were beyond our physical reach. But not beyond the reach of human imagination, inventiveness, and a creed that we all lived by: “Failure is not an option.”
That was not true in the beginning of the space program. There had been many early failures back then—because we hadn’t learned enough about the perilous business in which we were engaged.
Would it happen again—the loss of three men? We had failed our crew in Apollo 1. This time we had a few hours to do something. But did we have the wisdom? And could we somehow build not just on our own years of experience but the courage and resourcefulness of three astronauts far, far from home?
Sociologists and engineers call it “the human factor.” It’s what we must depend on when all the glittering technology seems, suddenly, useless.
For me, and others sitting safely in Mission Control in Houston, we could depend only on a learning curve that started at a place that wasn’t more than a complex of sand, marsh, and new, raw concrete and asphalt. It wasn’t even Kennedy Space Center then. But it was our first classroom and laboratory. And all we had learned since those first, uncertain years would be what we had to work with to figure out what had happened—and what to do about it.
November, 1960
As a former Air Force fighter pilot, I am not usually a nervous passenger, constantly staring out the window to make sure a wing hasn’t fallen off or monitoring the noise of the engines. But for once, on that fateful day, November 2, 1960, I couldn’t wait to get on the ground.
East Coast Airlines had only one flight a day from Langley Air Force Base in Virginia to South Florida, using creaky, old twin-engine Martins and Convairs. How long the flight took on one of those old prop aircraft on any given day depended on the size of the bugs that hit the windshield and slowed it down.
This time my eagerness had nothing to do with the condition of the aircraft. This was my first trip to Cape Canaveral, Florida, the launching site for the infant American space program. During the brief flight on the shaky Convair, I was absorbed in thoughts about the new battle in which I had elected to play a part. As an American, I hated to see our nation second in anything—and I had no doubt we were second in space. I had seen an example of what Soviet technology could do as I watched MiG aircraft making contrails high in the sky over the demilitarized zone in Korea, higher than our F-86 fighters could climb. Now the Russians had utterly surprised us by launching the space race. This was a race we had to win and I wanted to be part of it. In a matter of weeks, I had given up my exhilarating work in aircraft testing to take a job with the National Aeronautics and Space Administration (NASA), officially coming on board on October 17. Two weeks later I was on my way to the Cape, and my family—my wife, Marta, and our two young daughters—was camping out at a motel near Space Task Group headquarters at Langley. My instructions were pretty simple: get to Mercury Control and report for work.
Well, I thought, here I am, looking around for launch towers and gantries—but all I could see looked like a regular old Air Force base. It turned out that my knowledge of the local geography was just a little bit hazy. We had landed at Patrick AFB and I literally did not know whether we were north or south of my destination. After the plane rolled to a stop and a couple of guys from base operations rolled a metal stairway out to the
aircraft’s door, a shiny new Chevrolet convertible wheeled to a halt just beyond the wingtip. An Air Force enlisted man popped out, saluted, and held open the car’s door for a curly-haired guy in civilian clothes, a fellow passenger who deplaned ahead of me. That was unusual—a nonmilitary vehicle cruising around the ramp of a military base. As I stepped onto the tarmac, I looked around for the man my boss had said would meet me. I didn’t see anyone who seemed to be looking for me, so I started searching for a taxi or any form of transportation. I felt like a foreigner in a strange land.
The plane’s baggage was being offloaded next to the operations building when the tall, thin, curly-haired guy now driving the Chevy yelled out, “C’mon, I bet you’re going to the Cape.” I suppose my military-style crew cut and ramrod-straight posture gave me away. As I nodded, he said, “Climb aboard.”
After clearing the plane, he peeled into a 180-degree turn and raced along the ramp for 100 yards, my neck snapping back as he floored the Chevy. I had never driven this fast on a military base in my life. I was thinking I had hitched a ride with a madman, or at least someone who apparently had no concern about being pulled over by the Air Police for speeding and breaking every regulation in the book. This feeling was reinforced as we took a few hard rights and lefts, then roared toward the gate, momentarily braking as an Air Force military policeman snapped a salute and waved us through. I took a closer look at the stranger behind the wheel. He was hatless, wearing a Ban-Lon shirt. There was no gold braid on him. I wasn’t accustomed to seeing a guy in a Ban-Lon shirt rate salutes.
Hitting the highway, he made a wide turn and a hard left, burning rubber. In no time, he had the needle quivering between eighty and ninety miles an hour. After a joyful cry of “Eeeee hah,” he turned and offered his hand, saying, “Hi, I’m Gordo Cooper.” I had just met my first Mercury astronaut. As I soon learned, if you saw someone wearing a short-sleeved Ban-Lon sport shirt and aviator sunglasses, you were looking at an astronaut. We humble ground-pounders wore ties and white shirts, and yes, those nerdy pencil-holding pocket protectors.
I thought of that handshake often in the many years that followed. Mercury worked because of the raw courage of a handful of men like Cooper, who sat in heavy metal eggcups jammed on the top of rockets, and trusted those of us on the ground. That trust tied the entire team into a common effort.
I took it as a good omen that Cooper, taking pity on a befuddled stranger, offered me a lift to the base. He was one of the seven former test pilots selected for the first class of astronauts. They had been introduced, unveiled like sculptures, in April of 1959. Instantly the media compared them to Christopher Columbus and Charles Lindbergh. Today, I wonder how many of them the average American could name. They were John Glenn, Alan Shepard, Virgil I. (Gus) Grissom, Wally Schirra, Donald K. (Deke) Slayton, Scott Carpenter, and Cooper. They were similar in size and build, partly because the design of the capsule ruled out anyone over five-foot-eleven.
All of them were white, all from small towns, all middle-class, and all Protestant. This was not the result of deliberate discrimination, but because at the time that was the kind of man who became a military test pilot. At this period it was hard for Americans from any minority to get into flight training. But the military, like the rest of the country, grew up and lived up to its fundamental commitment to equality, thanks in large measure to the civil rights movement that, like the space program in the same era, demanded conviction and courage.
That day when I arrived in Florida I stumbled into the future. I didn’t have enough time even to learn the recently coined space jargon before the Mercury flight director, Chris Kraft, gave me the task of writing the operating procedures for Mercury flight controllers. Without knowing much about anything, I was telling people how to do everything, writing the rules for the control team that would support the Mercury-Redstone launch. Not only had I never laid eyes on the Mercury Control Center, I had never even seen, close up, any rocket big enough to carry a human payload.
I did not really research the program before I joined. I knew that it was called the “man in space project.” Lyndon Johnson, then the Senate majority leader, was given the job by President Dwight Eisenhower of determining how we should respond to the Soviets’ launch of Sputnik on October 4, 1957. The impact of the first orbiting satellite, visible to the naked eye as it passed through the night sky over America, was profound. Sputnik was a shock to national pride—Russian science had put the first object in outer space, giving Americans both an inferiority complex and a heightened sense of vulnerability in what was then the most intense phase of the Cold War. Out of this was born the “missile gap” between ourselves and the Soviet Union.
Years later we would discover that this “gap” was an intelligence myth. But the Soviet Union was indeed ahead in a space race that this tiny, rather primitive satellite had effectively initiated. Our adversary had developed rockets with greater thrust and throw weight—for the military this meant ballistic missiles that could “throw” a heavier warhead a greater distance than anything in our arsenal.
The reverberations of that little sphere emitting its “beep-beep” radio signal as it sailed unrestricted through space were far reaching. Among other things, it would spark a massive federal education funding program, significantly called “The National Defense Education Act,” to stimulate better teaching of math and science as well as foreign languages to more students throughout the country. A sleeping giant suddenly woke up.
One of the other immediate results of Sputnik was the National Space Act of 1958 and the creation of the National Aeronautics and Space Administration. To me, our leap into space was the logical next step beyond the X-15 rocket-powered aircraft. The problem was that our first “leaps” would be some fairly short hops. All of these factors had influenced my decision to join this embryonic program. It had been cautiously funded, was working from a somewhat thin base—and was also a crash effort for everyone involved in it. I don’t think that at the time I realized just how caught up I was in the excitement and challenge of this race. Nor could I have anticipated just how thrilling and dangerous, frustrating and inspiring the first lap in it would be. All of those involved were obsessed by a driving dream, working with an intensity that fused NASA employees and contractors, launch and flight operations into one powerful organism.
Cooper dropped me off at Mercury Control and I was greeted by the familiar face of the only person in the program I knew down at the Cape, Paul Johnson, a troubleshooter working for Western Electric, one of the subcontractors to Bendix in building the control center and the tracking network. Western Electric’s responsibilities included radars, telemetry (radio signals to and from the rocket and spacecraft that told us how things were working—and what wasn’t) control consoles, and communications. These were the core systems. Western Electric quickly parlayed this into a responsibility for integrating operations, training, maintenance, and network communications. Paul was amazingly young for his responsibilities. He had an intuitive feel for this unprecedented development and deployment of technology, writing the specifications and testing procedures and doing everything that needed to be done to check out the largest “test range” in history, one that went around the globe.
“Kraft said you were coming down,” he greeted me, smiling, “and I thought I’d give you a hand.” During the next two days, Johnson gave me a master’s degree in the art of mission control. He had been at the Cape for the preceding week and had been writing the manual on the team structure and operations. He handed it over to me to finish defining the standard operating procedures for Mercury Control, such as how to check out the console displays and communications, set the format for Teletype communications, and how specifically to request data from the technicians (politely but urgently).
I soon began to think of Paul as my guardian angel. From the moment I came on the job it seemed that whatever I was doing, wherever I turned, he was there. He always appeared when the pressure was on and I was happy
to see him.
As I felt my way through a program inventing itself, Marta was moving from the motel into a new house in Hampton, Virginia. It was our fifth move in the four years since our marriage, setting up successive households in South Carolina, Texas, Missouri, New Mexico, and now Virginia. Carmen, our two-and-a-half-year-old daughter, had been born in Texas, and Lucy, fourteen months, in New Mexico. Like most service families they were ready for anything, anytime.