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Moonshot - The Inside Story of Mankind's Greatest Adventure Part 1

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MOONSHOT.

THE INSIDE STORY OF MANKIND'S.

GREATEST ADVENTURE.

by DAN PARRY.

PROLOGUE

What would the Moon be like?While this question fascinated those back on Earth, for Neil Armstrong the Moon was playing no more than a supporting role. Here was a chance for man to achieve something beyond comparison. If it were successful, the Apollo 11 mission would demonstrate that humans, as a species, were capable of escaping from their planet and visiting somewhere a world away from home. It didn't matter much whether the Moon was made of brown rocks, grey dust or even green cheese. To Armstrong, all that really counted was landing safely and then coming home again, without letting anyone down in the attempt to do either.Standing in the lunar module, the most fragile manned s.p.a.cecraft ever built, Armstrong was flying at more than 3,000mph, five times faster than a pa.s.senger jet. There were no landing pads on the Moon, no ground crew to guide him down; 50,000 feet below him lay nothing more than an uncharted area that was pockmarked by rocks and craters and which was believed to be a little less dangerous than other uncharted areas. If he were to reach his designated target site, Neil would have to gradually reduce his speed to walking pace and then find a relatively benign area to touch down before his fuel ran out. There was little margin for error. Landing too fast on a landscape strewn with boulders could damage the s.p.a.cecraft and potentially end any hope of returning home.One way or the other, in the next 12 minutes it would be over and all the hand-wringing, the months of agonising expectation and the endless press questions could finally be laid to rest. The newspapers were fascinated by lunar landscapes. But while rocks and craters captured the media's attention, for a pilot they were to be avoided. As far as Neil was concerned, Apollo 11 wasn't about boxes of stones. Exploring the surface was secondary to the mission's prime objective. None of the early aviation pioneers, who had so inspired Neil as a boy, had regarded their greatest triumph to be a stroll beside their aircraft. Armstrong, like the Wrights, Earhart and Lindbergh before him, knew that nothing was more significant about a test-flight than safely completing it.Standing beside Neil was Buzz Aldrin, and together the two men would have considered themselves to be flying horizontally face down had they not been in weightlessness. They were also travelling backwards, feet first, using the engine as a brake to reduce their speed. The gleaming white surfaces of their cramped cabin were bathed in sunlight, yet somehow the aura of a brandnew s.p.a.ces.h.i.+p was personalised by the grubby ways of people. Handwritten notes were stuck on the dull grey instrument panels and here and there other personal items were secured by Velcro or held down by netting. Having taught himself to go to the Moon, man was bringing with him urine bags, food trays and doodles in margins.While Buzz monitored the instruments, Neil looked through the triangular window in front of him. In timing their journey over the alien terrain below, he discovered with dismay that the crater known as Maskelyne-W had arrived early. They were three seconds ahead of themselves, and three seconds equated to three miles, which would take them beyond the edge of the landing zone. They would be coming down in an area Neil knew to be strewn with boulders, and in a s.p.a.cecraft with walls so thin you could poke a pencil through them. He knew they would be lucky to avoid any damage. Luck wasn't enough. He had the facility to override the computer and fly the s.p.a.cecraft manually but this could only be done in the closing stages of the descent. For the moment he must follow the flight-plan.At 40,000 feet, Armstrong rotated the lunar module by 180 degrees so that he was no longer looking down at the Moon but staring up into s.p.a.ce. By repositioning the s.p.a.cecraft, which was operating under the call-sign Eagle Eagle, Neil enabled the landing radar to get a clearer view of the surface. Now that they were due to land long he needed as much reliable information as he could get.Then the yellow master alarm started to flash, a tone sounded in Neil's headset and the computer's yellow PROG light lit up. The computer would help diagnose the problem, allowing Armstrong and Aldrin to decide what action to take based on lessons learned during training. 'It's a 1202,' Neil told Houston after glancing at the computer display. It was a code neither he nor Buzz had ever seen during training, so now they had two problems. The computer could be signalling an immediate need for action, yet incapacitated by uncertainty they could do nothing but wait for advice from home.The seconds slowly ticked by. Neil was prepared to abort at any moment should it suddenly become obvious that they were in serious trouble. As commander of the mission his decision was final, and if the situation demanded it he would take action, whether Houston had replied in time or not. Conscious that the situation could rapidly deteriorate, Armstrong quickly a.s.sessed the performance of the s.p.a.cecraft's systems. He urgently needed to know whether the alarm required them to immediately abort the flight. In the absence of information, 18 seconds after calling for a.s.sistance he was forced to repeat his request, and for the first time anxiety could be heard in his voice.'Give us a reading on the 1202 program alarm.'A further five seconds later, Houston finally replied: 'Roger. We're go on that alarm.' Using the jargon of Mission Control, the ground a.s.sured Neil that the alarm could be switched off and that it was safe to continue the flight.Mission Control tried to pa.s.s on additional information but the haunting sound of static interrupted the transmission, and for a while communication was intermittent. There were many moments when Neil and Buzz simply didn't know how closely the flight controllers were able to follow the data that was automatically sent back from the s.p.a.cecraft. This was something they had never practised for. Training simulations had either gone well or something had gone wrong; the question of things-kind-of-being- OK-but-it's-hard-to-be-sure had never arisen, and the astronauts found it distracting. The computer alarm was even worse. It continued to signal a warning, and for Neil and Buzz it seemed that they had a genuine problem. Houston was three days away, and confronted by an error in their timing, broken communications and recurring alarms, Armstrong and Aldrin were relying on pure piloting skills. It was hard to be sure about where they were going to come down, but then it didn't really matter as long as they came down safely. Apollo 11 was no longer confined to the science of computers and trajectories, it was about the art of flying.Lying on its back, Eagle Eagle gradually pitched upright towards a vertical position, giving Neil a clear view of the ground ahead. The computer was guiding the s.p.a.cecraft directly towards a huge crater beside a field of boulders, any one of which could smash the lunar module's landing gear or the engine bell. At less than 1,000 feet Neil took partial control of the s.p.a.cecraft. Using a hand controller, he cut the descent rate and focused on flying forward, skimming over the dangers below without a word to Mission Control. In Houston the flight controllers were all but paralysed by the tension as it became clear that Neil was delaying the landing. Each man knew that the s.p.a.cecraft was approaching an alt.i.tude just a few hundred feet above the surface that was known to be a point of no return, a part of the flight path referred to as the dead-man's box. Attempting an abort at this point was fraught with danger. Neil now had to land, safely and quickly, before his fuel ran out. gradually pitched upright towards a vertical position, giving Neil a clear view of the ground ahead. The computer was guiding the s.p.a.cecraft directly towards a huge crater beside a field of boulders, any one of which could smash the lunar module's landing gear or the engine bell. At less than 1,000 feet Neil took partial control of the s.p.a.cecraft. Using a hand controller, he cut the descent rate and focused on flying forward, skimming over the dangers below without a word to Mission Control. In Houston the flight controllers were all but paralysed by the tension as it became clear that Neil was delaying the landing. Each man knew that the s.p.a.cecraft was approaching an alt.i.tude just a few hundred feet above the surface that was known to be a point of no return, a part of the flight path referred to as the dead-man's box. Attempting an abort at this point was fraught with danger. Neil now had to land, safely and quickly, before his fuel ran out.No TV pictures were being transmitted from the s.p.a.cecraft so all the flight controllers had to go on was their telemetry. But this didn't explain why Armstrong was taking so long to come down, nor did Buzz's emotionless reading of the instruments.'3 down, 220 feet, 13 forward,' said Buzz, reporting on the lunar module's rate of descent, alt.i.tude and velocity.There was no response from Houston.'11 forward. Coming down nicely.'200, 4 down.'5 down.'160, 6 to 6 down.'5 down, 9 forward. That's good.'120 feet.'100 feet, 3 down, 9 forward. Five per cent.'OK. 75 feet. And it's looking good. Down a half, 6 forward.'A curt announcement of '60 seconds' from the ground reminded the crew that soon they must land or attempt to abort. To Armstrong, fuel getting low and time running out were mere parts of an equation. There was no need nor time to discuss them with Buzz. Nor did he say much to Houston, only occasionally pressing the switch that would transmit his words. A man with a cool yet agile mind, Neil's ability to conceal much of it from the world was something the world occasionally found frustrating. It barely mattered to Neil that they were now three miles beyond the ideal landing zone, that communications were patchy and that the fuel was low; what mattered as he searched for a safe spot to land was that there were rocks below. The fuel was a concern, but he believed he had enough to do the job.Supporting Neil with a constant account of their position, Buzz continued to read aloud from the instruments: '4 forward. 4 forward. Drifting to the right a little. OK. Down a half.''30 seconds,' called Mission Control.With their role on this phase of the mission coming to a close, the flight controllers were now no more than spectators, like everybody else. In truth, nothing needed to be said. It was down to Armstrong.

Chapter 1.

THE BRIGHT STUFF

Grasping a grey pistol-grip controller with his right hand, Armstrong guided the lunar module down towards his chosen landing point. By manoeuvring the joystick he was able to fire thrusters mounted on the sides of the s.p.a.cecraft, allowing him to fly in any given direction. But once moving, the lunar module would keep going until the opposite thruster was fired, which meant that maintaining course was a tricky process involving a careful balancing act. After satisfactorily landing the s.p.a.cecraft, a s.h.i.+rt-sleeved Armstrong casually took off his headset and hopped out of the hatch.It was Tuesday 15 July 1969, the day before Apollo 11 was due to launch, and Armstrong and Aldrin were taking part in final simulations using a mock-up of the lunar module in the Flight Crew Training Building at the Kennedy s.p.a.ce Center. Equipped with displays showing images of the landing zone, and driven by a battery of computers capable of replicating some of the challenges of s.p.a.ce-flight, the simulator at Cape Kennedy1 was the best available. Here, and in other training facilities, Armstrong familiarised himself with the s.p.a.cecraft's systems including the joystick with which he would fly the lunar module during the final stages of the landing. For a pilot, the hand controller was an unfamiliar device. In an aircraft, a control stick adjusts the angle of the ailerons on the trailing edges of the wings which roll the aeroplane left or right. The stick also raises or lowers the two horizontal elevators on either side of the vertical tail, pitching the aircraft up or down. By pus.h.i.+ng against the air, these adjustable surfaces allow an aeroplane to change direction. In s.p.a.ce there is nothing to push against, so these surfaces were replaced with small rocket thrusters that were controlled by the sensitive joystick, based on principles developed in NASA's experimental rocket plane, the X-15. was the best available. Here, and in other training facilities, Armstrong familiarised himself with the s.p.a.cecraft's systems including the joystick with which he would fly the lunar module during the final stages of the landing. For a pilot, the hand controller was an unfamiliar device. In an aircraft, a control stick adjusts the angle of the ailerons on the trailing edges of the wings which roll the aeroplane left or right. The stick also raises or lowers the two horizontal elevators on either side of the vertical tail, pitching the aircraft up or down. By pus.h.i.+ng against the air, these adjustable surfaces allow an aeroplane to change direction. In s.p.a.ce there is nothing to push against, so these surfaces were replaced with small rocket thrusters that were controlled by the sensitive joystick, based on principles developed in NASA's experimental rocket plane, the X-15.Straight out of a 1950s sci-fi comic, the X-15 was the stuff of legend. Everything about it was extreme. Slung beneath the wing of an adapted B-52 bomber, the aircraft was carried to alt.i.tude before the pilot ignited the rocket engine. Reaching record-breaking speeds in excess of 4,000mph, fast enough to strip paint off its airframe, the X-15 would zoom out of the atmosphere towards the edge of s.p.a.ce, where the pilot would briefly experience weightlessness. It would then slice its way back into the thinnest layers of air for the flight down to the ground. In climbing to 50 miles and above, the X-15 was in effect the first manned sub-orbital s.p.a.cecraft; three of its pilots reached alt.i.tudes that ent.i.tled them to receive NASA astronaut wings. At such heights the atmosphere was too thin to have any impact on conventional control surfaces, forcing the pilot to rely on the small rocket boosters and the prototype hand controller that were tested by, among others, Neil Armstrong, one of only 12 men ever to fly the X-15.2For Neil, it was not so much a love of flying that took hold of him at an early age, more a fascination with the design and construction of aircraft. Armstrong rarely discusses his personal life, but he revealed in his authorised biography3 private details about his childhood, describing how he came to build model aircraft out of straw, paper and wood. He still possessed many of the models even after becoming an astronaut. Born on 5 August 1930 in Wapakoneta, Ohio, as a child Neil frequently moved from town to town due to the nature of his father's work in the state auditor's office. Stephen Armstrong had a remote though cordial relations.h.i.+p with his elder child; it was Neil's mother Viola who was to have the greater influence on their son. private details about his childhood, describing how he came to build model aircraft out of straw, paper and wood. He still possessed many of the models even after becoming an astronaut. Born on 5 August 1930 in Wapakoneta, Ohio, as a child Neil frequently moved from town to town due to the nature of his father's work in the state auditor's office. Stephen Armstrong had a remote though cordial relations.h.i.+p with his elder child; it was Neil's mother Viola who was to have the greater influence on their son.4 Like many of NASA's pioneering astronauts, Neil grew up in small country towns many of which were slow to recover from the Depression. 'We were not deprived,' he remembered, 'but there was never a great deal of money around.' All 12 men who walked on the Moon were either the first son or an only child. In Neil's case, a sister, June, arrived when he was nearly three, and a younger brother, Dean, joined them a year and a half later. The three children played happily together, but one abiding memory of Neil's places him quietly indulging in his love of books. Like many of NASA's pioneering astronauts, Neil grew up in small country towns many of which were slow to recover from the Depression. 'We were not deprived,' he remembered, 'but there was never a great deal of money around.' All 12 men who walked on the Moon were either the first son or an only child. In Neil's case, a sister, June, arrived when he was nearly three, and a younger brother, Dean, joined them a year and a half later. The three children played happily together, but one abiding memory of Neil's places him quietly indulging in his love of books.When Neil was 14, the family moved back to Wapakoneta where friends remembered him as being confident and capable but also as a boy with little to say. Those who knew him didn't regard him as shy he played the baritone horn in the school orchestra and took part in plays but he was seen as someone who didn't feel the need to say much. Neil was 'a person of very few words' who 'thought before he spoke', cla.s.s-mates said. His tendency to engage with the world somewhat privately found expression in the construction of those model aircraft. 'My focus was more on the building than the flying,' he told his biographer, Dr James Hansen. 'While I was still in elementary school my intention was to be or hope was to be an aircraft designer.'5Unhurried in design projects both at home and at school, Neil came to be known for doing things in his own way without being in any particular rush to set the world alight. He never displayed any 'outer fire', as his brother put it.6 NASA flight director Gene Kranz said he never saw Armstrong argue; nevertheless he 'had the commander mentality ... and didn't have to get angry'. Neil was cool in the old-fas.h.i.+oned sense, in that he tended to keep his distance. His interests weren't confined to model aeroplanes he once crashed his father's car after the school prom while driving his date back from an all-night diner but at first glance he was not the kind of person who might expect to find himself in an aircraft flying at five times the speed of sound. Nevertheless, applying his careful (some were to describe it as slow) a.n.a.lytical style of thought to the pursuit of his interest in aircraft design, Neil came to a logical conclusion: 'I went into piloting because I thought a good designer ought to know the operational aspects of an airplane.' NASA flight director Gene Kranz said he never saw Armstrong argue; nevertheless he 'had the commander mentality ... and didn't have to get angry'. Neil was cool in the old-fas.h.i.+oned sense, in that he tended to keep his distance. His interests weren't confined to model aeroplanes he once crashed his father's car after the school prom while driving his date back from an all-night diner but at first glance he was not the kind of person who might expect to find himself in an aircraft flying at five times the speed of sound. Nevertheless, applying his careful (some were to describe it as slow) a.n.a.lytical style of thought to the pursuit of his interest in aircraft design, Neil came to a logical conclusion: 'I went into piloting because I thought a good designer ought to know the operational aspects of an airplane.'7From the age of 15, Neil joined other local kids hanging around Port Koneta, the town's small airfield. He saved his earnings and managed to pay for flying lessons, which he took to so readily he qualified by the time he was 16, before he'd got his driving licence. Hooked on aircraft, Neil opted to study aeronautical engineering at college, notwithstanding that college was expensive and his family couldn't afford it. A solution was possible through the navy, which was offering four-year scholars.h.i.+ps in return for a period of service. Armstrong wasn't particularly interested in a military career but he saw it as a means to an end. In 1947, after receiving a 'wonderful deal' from the navy, he began to attend Purdue University in Indiana. Just a year later, confronted with the prospect of war in Korea, the navy began to recruit extra personnel and Neil, aged 18, was ordered to interrupt his studies and report for duty at Pensacola, Florida. While the air force turned out pilots, the navy produced airmen capable of landing on the deck of a pitching carrier, whom they branded aviators. In August 1950, after 18 months' training, Armstrong joined their ranks.8On 3 September 1951, Ensign Armstrong was preparing for his twenty-eighth a.s.sisted take-off in three months. After lining up his F9F-2 Panther fighter jet aboard the USS Ess.e.x Ess.e.x, a hydraulic catapult hauled his aircraft from a standing start down the length of the short flight-deck and into the air above the freezing waters of the Sea of j.a.pan. Flying with VF-51, the first all-jet squadron in the navy, Armstrong was just beginning this armed reconnaissance mission over North Korea when his unit ran into antiaircraft defences. Streaking in at 350mph he prepared for a low-level attack when at 500 feet his Panther, loaded with bombs, struck an air-defence cable that ripped six feet off his starboard wing. Ejecting would have given him only the slimmest hope of reaching safety as few American pilots had returned after parachuting over enemy territory. After reclaiming limited control of the stricken jet Armstrong nursed it back to South Korea where he could safely eject, coming down virtually unhurt in a rice paddy. At a time when ejection seats were still in their infancy, Armstrong's cool handling of the incident won him much 'favourable notice', as a fellow pilot put it.9During five tours of combat and 78 missions over enemy territory, Armstrong lost close friends and experienced freezing Korean winters amid a growing realisation that few people in the States knew what the military were doing in Asia. He fired thousands of rounds, suffered engine failure, survived forays into 'MiG Alley' and many times after landing he discovered bullet holes in his aircraft. Compared to civilian flying, combat as Armstrong put it ran the risk of 'more consequence to making a bad move'. He also enjoyed periods of leave in j.a.pan, discovering aesthetic influences that were to stay with him for the rest of his life.In September 1952, Armstrong returned from the war to finish his degree at Purdue, and there he met 18-year-old Janet Shearon, a home economics student. Attractive and vivacious, Janet was the girl he would some day marry, Neil told his roommate after first meeting her, although it would be three years before he got round to asking her out on a date. 'Neil isn't one to rush into anything,' Janet later said. Outgoing and talkative, she regarded him as good-looking and fun to be with.10When Neil graduated in January 1955, with good though not outstanding grades, he looked for a job as a test pilot. While in Korea his term of service with the navy had officially ended and he had been transferred into the naval reserve, a halfway position between civilian life and the military. For civilians, the most exciting test-flight opportunities were to be found at Edwards Air Force Base, home to a small team from the National Advisory Committee for Aeronautics (NACA). Initially, Armstrong's application to Edwards was unsuccessful, and although the NACA took him on, he was sent not west but east to Cleveland where he was involved in research into anti-icing systems. Then, just five months later, he was invited to swap the grey clouds of Ohio for the Californian suns.h.i.+ne after the NACA found an opening and sent him to Edwards at last.11Neil had once believed that nothing could replicate the great days of aviation, when fighter aces raced about the sky in scarlet triplanes, and heroes and heroines set records in epic flights to distant corners of the Earth. 'I had missed all the great times and adventures in flight,' he felt.12 But for an ambitious test pilot, Edwards was the place to be. Here, in 1947, Chuck Yeager first flew faster than the speed of sound, taking the rocket-powered Bell X-1 into a new era of high-speed flights that heralded the dawn of the s.p.a.ce age. Edwards was where the first US jet had been tested, as well as many of the experimental X-planes, including the X-3 Stiletto and the X-5 variable geometry 'swing-wing' jet. But it was Yeager's achievement that first put Edwards on the map, prompting scores of young pilots to head west in search of golden opportunities. But for an ambitious test pilot, Edwards was the place to be. Here, in 1947, Chuck Yeager first flew faster than the speed of sound, taking the rocket-powered Bell X-1 into a new era of high-speed flights that heralded the dawn of the s.p.a.ce age. Edwards was where the first US jet had been tested, as well as many of the experimental X-planes, including the X-3 Stiletto and the X-5 variable geometry 'swing-wing' jet. But it was Yeager's achievement that first put Edwards on the map, prompting scores of young pilots to head west in search of golden opportunities.After marrying Janet, Neil bought a property 5,000 feet up in the remote Juniper Hills region of the Antelope Valley, not far from the air base. It was a rural cabin with basic plumbing, bare wood floors and no electricity, but Neil slowly set about transforming the place into a home fit for a family. In June 1957 Janet gave birth to Eric, whom they came to call Ricky; two years later he was joined by a baby girl, Karen, and then in 1963 by another boy, Mark. Together the Armstrongs lived in the high desert of California, an untamed corner of America lost under endless blue skies.13Edwards was situated next to the dusty salt-pan bed of Rogers Dry Lake. An enormous runway two and a half miles long extended into the lake itself which for most of the year was swept dry by the heat of howling desert winds. Stretching for 25 miles towards desolate mountain ranges, in an emergency the flat lakebed was as useful to dare-devil pilots as it was unforgiving. With its fearsome death toll and harsh climate, its rattlesnakes and sandstorms, Edwards was only marginally less desperate than the kind of air force pilots attracted there by the range of exotic aircraft.What mattered to many was the opportunity to clamber aboard something with an X in its name and push it as hard as possible in a wham-bam moment of ecstasy. However, the small number of engineer pilots, including Armstrong, who were attached not to the air force but to the NACA's High Speed Flight Station sought time to get intimately acquainted with the aircraft in the interests of aeronautical research.Edwards for Armstrong proved to be a s.h.i.+ning highlight of his career. His work was as varied as the aeroplanes he flew: he carried out more than 900 flights in a range of famous aircraft, from the F-104 Starfighter to the KC-135 Stratotanker. While he occasionally evaluated a new aircraft, noting its characteristics and recommending changes, he also flew older types that were fitted with experimental components designed to enhance the performance of the instruments, engines or airframe. A couple of his contemporaries considered other pilots to be better 'stick-and-rudder' men than Armstrong, but he acquired a reputation for a detailed understanding of technical issues and could be consistently relied upon to monitor a test accurately while rocketing through the sky faster than the speed of sound. His unflappable command of the aircraft bought him the time he needed to complete the task in hand.14Sometimes the pressures were enormous. During the early 1950s, an average of one test pilot a week was killed in an air accident; in 1952 alone 62 pilots died at Edwards during a nine month period.15 Neil had been introduced to the ugly side of flying while still in Wapakoneta where he witnessed a fatal crash, but it was in Korea that he was first personally touched by loss. On the day he returned to his s.h.i.+p after bailing out, two squadron friends had been killed. Less than two weeks later a Banshee jet, attempting to land on the Neil had been introduced to the ugly side of flying while still in Wapakoneta where he witnessed a fatal crash, but it was in Korea that he was first personally touched by loss. On the day he returned to his s.h.i.+p after bailing out, two squadron friends had been killed. Less than two weeks later a Banshee jet, attempting to land on the Ess.e.x Ess.e.x, smashed into a row of aircraft lined up on the deck, burning four men to death. Later, the loss of Armstrong's cabin-mate Leonard 'Chet' Ches.h.i.+re hit him particularly hard.16 At Edwards the risks could be more easily calculated, but much of the flying was still inherently dangerous, particularly Neil's work with the X-15, an aircraft he was to fly seven times. At Edwards the risks could be more easily calculated, but much of the flying was still inherently dangerous, particularly Neil's work with the X-15, an aircraft he was to fly seven times.Designed to reach hypersonic speeds above Mach 5, three X-15s were built by North American Aviation, each so dangerously close to the limits of aircraft performance that they set speed records which still stand today. Managed by a flight control centre equipped with tracking facilities, each flight to the edge of s.p.a.ce was first rehea.r.s.ed in a simulator. Once in the air, the aircraft was accompanied by four chase planes, while on the ground a fleet of vehicles was ready to deal with all eventualities. The pilot, wearing a pressure-suit and squashed into a tiny c.o.c.kpit, could see little of his sleek black aircraft through the reinforced windows. At the end of his ten-minute test, he would have to lose speed and alt.i.tude quickly by flying a specific flight pattern, later adopted by s.p.a.ce shuttle pilots. Even then he would be unable to land without first jettisoning the ventral fin slung beneath the fuselage.On 20 April 1962, as the launch countdown reached zero, Neil prepared to a.s.sess a new 'g-force limiter' designed to prevent a pilot from experiencing a force more than five times greater than gravity. Once released, with a sharp lurch, from the B-52 he ignited his rocket engine and zoomed up to 207,500 feet the highest alt.i.tude he would ever reach in an aircraft. At this height he could see the black void of s.p.a.ce. He was completely reliant on his rocket thrusters to get back into the atmosphere, but while focusing on a test of the limiter he held the nose of the aircraft up for too long and as he tried to descend the X-15 bounced off the atmosphere back up towards the edge of s.p.a.ce. The flight control centre urged him to follow the correct course, but Neil found that by the time he had managed to cut back into the upper reaches of the atmosphere he was screaming past the airfield at a speed of Mach 3. Turning round 45 miles south of Edwards, he was confronted with the uncomfortable thought that he might have to ask for permission to bring his rocket-plane into the traffic pattern of Palmdale munic.i.p.al airport. When he eventually came within sight of the southern tip of Edwards the chase jets caught up with him and the control centre helped co-ordinate the landing as Armstrong raced in just a few feet above the desert floor.During the post-flight debriefing a flight manager asked one of the chase pilots how close Neil had been to the trees.'About 150 feet,' came the reply.'Were the trees 150 feet to his right or to his left?' asked the smirking manager.17Yet for all the record-breaking alt.i.tudes and speeds achieved by Armstrong and the other X-15 pilots, there was a growing sense that America was being left behind in the attempt to send a man into s.p.a.ce. In October 1957, the legendary aircraft streaking about the blue skies above Edwards were overshadowed by a football-sized satellite. It did little more than transmit a radio signal back to Earth, but it was unmistakably un-American. Russia's successful development of Sputnik propelled the Cold War into s.p.a.ce, prompting a sense of shock that rippled in many high-level directions. There was a widespread belief that if the Russians could send a ball across the United States, they could surely send nuclear warheads. But instead of bombs, a month later Sputnik 2 carried a dog, Laika, into orbit, extending Russia's bid for recognition as the world's leading technical nation. For the first time the NACA realised that Moscow was preparing to send a man into s.p.a.ce,18 something that would deal a major blow to American esteem and put the US on the back foot for years to come. Was.h.i.+ngton was forced to act. something that would deal a major blow to American esteem and put the US on the back foot for years to come. Was.h.i.+ngton was forced to act.Less than a year after Sputnik, the NACA was replaced by the National Aeronautics and s.p.a.ce Administration (NASA), and its managers were given a specific brief: put a man in s.p.a.ce ahead of the Soviets.19 But what could a man actually do in s.p.a.ce? Would the high g-forces, weightlessness and the undiscovered problems of orbital flight allow him to do anything at all? These questions shaped the search for recruits, and eventually 110 military pilots, each with a college degree and at least 1,500 hours' flying time, were invited to apply. But what could a man actually do in s.p.a.ce? Would the high g-forces, weightlessness and the undiscovered problems of orbital flight allow him to do anything at all? These questions shaped the search for recruits, and eventually 110 military pilots, each with a college degree and at least 1,500 hours' flying time, were invited to apply.Armstrong, a civilian, was not asked. In any event, it is unlikely that he would have agreed to swap the successful X-15 programme for an unproven project where a man would be shut up in a capsule and blasted on a short trajectory largely controlled from the ground. 'Spam in a can' Yeager called it, though Armstrong himself was not quite so scornful. He saw that s.p.a.ce represented a new challenge. 'I thought the attractions of being an astronaut were actually not so much the Moon, but flying in a completely new medium,' he said later.20In April 1959, seven men were selected to take part in the fledgling manned s.p.a.ce programme, named Project Mercury. All were white military men despite the fact that thirteen women later proved they could pa.s.s the demanding round of tests, including Jerrie Cobb. Cobb, who had set records for speed, distance and alt.i.tude, sought support from Congress, and a memo noting her impressive qualifications was laid before Vice President Lyndon Johnson who promptly dismissed her cause with the comment 'Let's stop this, now.'21 NASA argued that one day capsules would support two or more astronauts in a confined s.p.a.ce, making it difficult to accept women into the programme. However, as writer Andrew Smith put it, 'anyone capable of contemplating the myriad nasty ends available to an astronaut could probably learn to bare his a.r.s.e in front of a lady without bursting into tears'. NASA argued that one day capsules would support two or more astronauts in a confined s.p.a.ce, making it difficult to accept women into the programme. However, as writer Andrew Smith put it, 'anyone capable of contemplating the myriad nasty ends available to an astronaut could probably learn to bare his a.r.s.e in front of a lady without bursting into tears'.22After being accepted by NASA, the Mercury Seven began preparing for America's first manned missions. The United States expected to become the first nation to send a man on a suborbital flight, in a mission that would be a triumphant coup for the West. In the first weeks of 1961, however, doubts remained concerning the safety of the capsule and its rocket, and both had yet to be man-rated in a test-flight. Instead of an astronaut, the capsule would first carry Ham, a four-year-old chimpanzee, and on 31 January Ham was launched on a flight lasting nearly 17 minutes. Then on 12 April the Russians, once again ahead of the Americans, launched Yuri Gagarin not just into s.p.a.ce but into a complete orbit of the Earth. The coup had been pulled off, not by NASA but by Moscow. In the States, a contemporary newspaper cartoon by John Fischetti showed one chimpanzee telling another 'We're a little behind the Russians, and a little ahead of the Americans.'On the day when he first flew faster than sound, Chuck Yeager had been unable to close the aircraft canopy unaided, after breaking a couple of ribs two days earlier while riding a horse. He had told only his wife and a fellow pilot about the accident, asking his buddy to secretly rig up a device that would help him secure the hatch. This anecdote comes from the writer Tom Wolfe, who wrote about the rugged, pioneering ways of pilots like Yeager, and his contemporaries the Mercury Seven. Only men with the 'right stuff', who rode horses through the desert, were able to fly experimental flying machines powered by rockets and testosterone, while ignoring eye-watering pain. Men like Yeager could 'break the sound barrier' (although there was no such thing), and if you asked them nicely they could even possibly squeeze spinach from a tin using just their hands. Wolfe's pilots are lone heroes, 'single-combat warriors' living on the edge, having taken over the mantle of the cowboys who occupied the wild deserts of the West before them. Such bravado was embraced by many of the air force pilots at Edwards. Men like Yeager were dismissive of the more studious type of airmen, some of whom came to be recruited as astronauts.23 It was said that anyone who would want to sit in a Mercury capsule would have to 'wipe the monkey s.h.i.+t off the seat first'. It was said that anyone who would want to sit in a Mercury capsule would have to 'wipe the monkey s.h.i.+t off the seat first'.24 Some of these air force men were not actually ent.i.tled to become astronauts themselves because they did not have a college degree, such as Yeager. Priding himself on his 'b.a.l.l.s out' att.i.tude, Yeager regarded NASA's airmen as 'sorry fighter pilots' who rated 'about as high as my shoelaces'. Some of these air force men were not actually ent.i.tled to become astronauts themselves because they did not have a college degree, such as Yeager. Priding himself on his 'b.a.l.l.s out' att.i.tude, Yeager regarded NASA's airmen as 'sorry fighter pilots' who rated 'about as high as my shoelaces'.25 But it was NASA's research pilots who would prove themselves capable in the agency's blossoming s.p.a.ce programme. But it was NASA's research pilots who would prove themselves capable in the agency's blossoming s.p.a.ce programme.In May 1961, Alan Shepard became the first American to reach s.p.a.ce, his Mercury capsule being carried to an alt.i.tude of 116 miles by a Redstone rocket. During this and subsequent Mercury flights, the astronauts' work in weightlessness exceeded all expectations. Encouraged by their early success, NASA began to plan for more complicated missions in preparation for the ultimate ambition, a journey to the Moon. Such a flight would rely on orbital mechanics, lunar trajectories, docking procedures and machinery complex enough to safely carry a crew nearly a quarter of a million miles and back. More technically complicated than anything achieved by man before, such a mission would require years of studious preparation. Notwithstanding Wolfe's adulation of heroics, only those with the bright stuff would be up to completing such an adventure.In April 1962, NASA asked for applications for a new cla.s.s of astronauts. Applicants had to be test pilots who were currently flying high-performance aircraft and who had a college degree in engineering or one of the sciences. They could be no taller than six feet and no older than 35. Although it wasn't explicitly mentioned, it was clear that one way or another they would be involved in the preparations for a lunar landing. As well as new personnel, such ambitious plans would require s.p.a.cecraft and rockets bigger and stronger than anything that was currently available. Two months earlier, Project Mercury had successfully achieved its goal of putting a man in orbit. John Glenn, a former marine, circled the Earth three times, but his hardware fell far short of the capability needed to get to the Moon. The rockets propelling the first two Mercury flights were not much more powerful than the XLR-99 engine installed in the X-15.In May, NASA's plans for the future were set out at a conference in Seattle, and among those speaking was Armstrong, who delivered a presentation on hypersonic research flights. The conference was held alongside the Seattle World's Fair, whose guests included John Glenn. By proving that NASA was capable of orbital flight, Glenn had demonstrated that proposals for more adventurous missions deserved to be taken seriously. It was clear that the design and engineering challenges posed by flights into s.p.a.ce promised to go beyond anything on offer elsewhere. For a pilot captivated by powered flight since childhood the new opportunities were too exciting to resist. Still, never one to rush things, Armstrong waited until he got back from Seattle before submitting his application. It arrived at the Manned s.p.a.cecraft Center in Houston in early June, missing the final deadline by a week.26( )At Cape Kennedy on 15 July 1969, after leaving the simulator Armstrong returned to the crew quarters, from where he called his parents in Wapakoneta. Sounding cheerful, he told them that he and the rest of the crew were ready for the launch, scheduled for 9.32am local time the following morning.'Will you call us again before you leave?' his father asked.'No, I'm afraid I won't be able to call again,' Neil softly replied.'We asked G.o.d to watch over him, and then we had to say goodbye,' his mother later said.27After lunch (why was it always steak, he had once asked Janet) there was little to do except try to relax and maybe steal a breath of fresh air. The crew were given access to a cottage on the coast where they pa.s.sed the time swimming and relaxing on the beach. That evening they called their wives and ate an early dinner. Jim Lovell, the commander of the backup crew, told Armstrong, 'This is your last chance to tell me if you feel good. Because if you do I'm going to have myself a party.'While the astronauts themselves maintained an air of business as usual, around them their support team felt a rising sense of tension. 'We were the ones who were a little uptight,' Dee O'Hara, the crew's nurse, later said. After driving to the s.p.a.ce centre from her hotel, Dee told Neil, 'You wouldn't believe the number of people who have come to watch the launch.' Neil gave her a brief smile and said it was inevitable people were going to make 'a big deal out of it'. Dee was surprised by Armstrong's cool a.s.sessment of what to the rest of America promised to be the biggest scientific accomplishment in the country's history.28Tight security operated throughout the 88,000 acres of the Kennedy s.p.a.ce Center as a million sightseers from all corners of the country descended on eastern Florida. From t.i.tusville to Melbourne, thousands of cars converged on a huge region stretching as far west as Orlando. With the freeways blocked by the worst jams in Florida's history, some drivers used the wrong side of the road since no-one was heading in the opposite direction. Only the wealthy, or well-connected, managed to avoid the crowds by arriving in private aircraft and then boarding one of the hundreds of boats choking the Banana River. Meanwhile thousands of people, who were already settled among barbecues, beer coolers and bottles of pop, were either lounging around or else trying out their cameras, telescopes and binoculars. Somewhere out there was a rocket and a bunch of guys who were going to fly on it and there were persistent debates about which direction to look in. Hotel rooms had long since sold out but late-comers were allowed to set up camp-beds in lounges and lobbies. By the waterfront, caravans, tents and awnings lay scattered among camper vans and station wagons as revellers prepared for the countdown beach parties that would run through the night. A 'lift-off martini' would set you back $1.25, while for those who really wanted to live it up there was the 'moonlander', consisting of creme de menthe, creme de cacao, vodka, soda and a squeeze of lime, topped with an American flag. Food and drink were still available but local stores had sold out of alarm clocks by lunchtime.While for some Apollo 11 represented exploration, prestige and glamour, all wrapped up in a neat metal tube, beyond the fanfare on the beaches others believed that America was falling apart at the seams. Many felt the whole event was a costly mistake that ignored the social problems battering the nation. As the parties were getting under way, the Reverend Ralph Abernathy, successor to Martin Luther King as head of the Southern Christian Leaders.h.i.+p Conference, led more than a hundred campaigners to the gates of the s.p.a.ce centre in protest at 'this foolish waste of money that could be used to feed the poor'. As far as Abernathy and his supporters were concerned, relieving poverty was surely a priority over the search for moon rocks that was costing the nation $24 billion. Abernathy wanted to know whether the largest commitment of resources ever made in peacetime was really worth it. He was met by NASA Administrator Thomas Paine who addressed the protesters' concerns before inviting a delegation to watch the launch from the VIP area.For the vast majority of America, however, the moral arguments were a distraction from a feat of engineering that represented all that was great about the country. American expertise had built this rocket, heroes would sit in the top of it and there were only a few hours left before everyone could see it for themselves. 'Apollo 11 gave a lot of nice people a chance to get acquainted,' said Texas car dealer Jay Marks. He and a friend had loaded up their sons and driven east to Cocoa Beach, a Florida playground that had been frequented by off-duty astronauts since the days of Mercury, and which was now overflowing with people from out of town. Throughout the day the southern suns.h.i.+ne had given way to heavy clouds, but undaunted by the weather, everywhere everyone shared the feeling that history was about to be made.Ten miles beyond the most congested areas stood the object at the centre of all the excitement, the anguish and the hope. On launch-pad 39A, the towering Saturn V rocket waited in the one place on the coast that was relatively peaceful. With no-one aboard, and not yet carrying any fuel, the vehicle could be largely left alone until the pre-launch activity began. Yet this rocket, the most powerful machine ever built, was impossible to ignore. As dusk descended, the second tallest structure in Florida (the tallest was the building in which the Saturn V had been a.s.sembled) was brilliantly lit up by floodlights, its white panels glowing softly against the forbidding clouds behind. This was the vehicle that was going to achieve something men had dreamt of for millennia. That was the plan at least.Like all astronauts' wives before a launch, Janet Armstrong had been trying to prepare herself for any eventuality. Having been driven to a spot three miles from the launch-pad, Janet and her children gazed at the monumental sight before them. With clouds obscuring the Moon, she stood lost in her thoughts until forced to retreat to the car when a gentle rain began to fall.29

Chapter 2.

CARRYING THE FIRE

Standing 363 feet tall, from a distance the Saturn V looked more like a peaceful monument than anything capable of reaching orbit. But as lightning lit up the night sky, technicians began to busily prepare the slumbering rocket for its improbable flight to the Moon. At 11pm the launch-pad team began cooling the booster's empty fuel tanks before filling them with six million pounds of propellants. The RP-1 kerosene was allowed to remain at room temperature but the pale blue liquid oxygen had to be kept extremely cold to prevent it returning to gas. It boiled at a temperature of minus 182.96C; positively balmy compared to the liquid hydrogen that was held at minus 252.87C. The propellants were pumped into insulated tanks resembling giant thermos flasks. As the tanks slowly began to fill, glistening chunks of ice formed on the outside of the rocket. Some of the liquid oxygen was allowed to boil off, and as the tank was replenished excess gas was released into the atmosphere to prevent a dangerous build-up of pressure. Streams of vapour rolled down towards the ground, and the rocket looked as if it were exhaling on a cold winter's morning.The sections of the vehicle that would fly all the way to the Moon weighed more than 103,000lb (51 tons). To get them there meant first raising them off the ground, then pus.h.i.+ng them up through the atmosphere so quickly that they reached orbit before they could fall back again. Orbit was just 100 miles from the ground; the Moon, however, was the best part of 239,000 miles away. To complete the journey the rocket would have to break free of Earth's gravity, which meant burning fuel for another five minutes and 53 seconds. All in all, to put the s.p.a.cecraft on course for the Moon required such a heavy load of fuel that its weight compressed the relatively thin external skin of the booster. When fully laden, the rocket shrank by eight inches.Once depleted, the Saturn's heavy fuel tanks had to be dropped over the Atlantic to reduce the burden on the engines. This required the rocket to be made of three separate sections. The first stage fuel tanks, engines and all would fall away at a height of 36 miles, at which point the second stage would take over, pus.h.i.+ng the rocket up to an alt.i.tude of 101 miles before it too was dropped. To a.s.sist each separation process, small thrusters were placed at strategic points along the Saturn's length so that the entire vehicle carried a total of 41 rocket engines. Between them, the first two stages of the Saturn V produced enough energy to supply the city of New York for an hour and a quarter.1 After the second stage was jettisoned, the third-stage engine would then ignite, sending the s.p.a.cecraft into orbit. Built by different contractors in separate locations, the three stages (together referred to as the 'launch vehicle') had been transported to Cape Kennedy and bolted together in the Vehicle a.s.sembly Building (VAB), an enormous hangar with a floor plan covering an area of eight acres. After the second stage was jettisoned, the third-stage engine would then ignite, sending the s.p.a.cecraft into orbit. Built by different contractors in separate locations, the three stages (together referred to as the 'launch vehicle') had been transported to Cape Kennedy and bolted together in the Vehicle a.s.sembly Building (VAB), an enormous hangar with a floor plan covering an area of eight acres.On top of the third stage sat an instrument unit carrying the rocket's guidance system, and above this came the three modules that would continue all the way to the Moon (together referred to as the 's.p.a.cecraft'). The lunar module was sealed inside a conical 'adapter' that rested on the instrument unit, and on this sat the cylindrical service module which carried oxygen, electrical power and other critical supplies for the command module that was attached above it. The conical command module, the princ.i.p.al section that would be occupied by the crew, was just 11 feet five inches high. At the very top of the stack (or 's.p.a.ce vehicle') was an abort rocket which was capable of pulling the command module clear of danger during the launch. The stack, consisting of nearly six million parts a labyrinth of fuel lines, tanks, pumps, gauges, sensors, circuits and switches was put together by more than 5,000 technicians using computer-a.s.sisted cranes and an a.s.sembly tower, which at 398 feet was taller than the Saturn itself. The entire vehicle was completed on 14 April.2Connected by horizontal access arms, and together weighing 12 million pounds (6,000 tons), the vehicle and the tower rested on an enormous steel platform inside the VAB. The tricky thing about the VAB was that it was three and a half miles from the launch-pad. Fortunately the platform was mobile and could be collected by a vehicle and driven to where it was needed. The vehicle capable of collecting a Saturn V rocket and its accompanying tower and driving both to the launch-pad boasted a set of statistics that rivalled the booster itself. The six-million-pound 'crawler transporter' trundled along at 1mph on giant caterpillar tracks; each of its 'shoes' alone weighed a ton. More than 500 gallons of fuel were consumed during its six-hour journey along a road the width of an eight-lane motorway.3 Once the rocket was in position at Launch Complex 39A, the transporter retreated. Once the rocket was in position at Launch Complex 39A, the transporter retreated.Specifically designed and built to accommodate the Saturn V, the pad was equipped with fuel lines encased in a protective vacuum (small leaks were stopped using tampons soaked in water that quickly froze in place). It also offered a concrete blast-room, designed to protect the crew from an exploding rocket. Built directly under the pad and capable of holding 20 people for up to three days, in an emergency the bunker could be entered via a 40-foot slide that ended in the 'rubber room'. The pad was managed by a team of technicians who reported to the Launch Control Center, an enormous blockhouse built beside the VAB, from where the overnight preparations were directed.4At 4.15am, Neil Armstrong, Michael Collins and Buzz Aldrin were woken by the Director of Flight Crew Operations, Deke Slayton. Deke had originally been selected as one of the Mercury Seven, but after being unceremoniously grounded by a heart condition he had been moved to a management position and had never flown in s.p.a.ce. He joined the crew for breakfast (steak), accompanied by Bill Anders from the backup crew and the artist Paul Calle, who sat sketching in a corner. Half an hour later, the astronauts began the arduous process of putting on their pressure-suits. All being well, the bulky suits could be removed a few hours into the mission, but an emergency during the early stages of the flight might mean they would have to be worn for days. The procedure began with each man rubbing a special salve on his b.u.t.tocks before strapping on a condom-style device to collect urine, followed by a nappy for anything else. After attaching sensors to their chests, Armstrong, Aldrin and Collins put on 'constant wear' long-johns before being a.s.sisted into their airtight suits.On Earth, when drawing in breath your lungs rely on the fact that their sucking action is readily met by a quant.i.ty of air heaped into the body by the weight of the atmosphere pressing down from above. Without external pressure, the lungs would struggle to function. Worse still, the natural forces within your body would no longer be held in check; blood, and other fluids, might try to burst free. Keen to avoid this, the astronauts would artificially maintain pressure within the command module, allowing them to remove their suits. These were only worn to protect the men in the event of a sudden loss of pressure during vulnerable moments, such as the initial journey into s.p.a.ce. Each suit consisted of an inflatable bladder that allowed an artificial degree of pressure to be imposed on the body. To stop the bladder ballooning once inflated, its human shape was maintained by a web of stiff fabric, bellows, inflexible tubes and sliding cables, all of which were woven together to produce the familiar s.p.a.cesuit. Two types were available: Armstrong and Aldrin wore a heavier 55lb variety capable of protecting them on the surface of the Moon, while Collins wore a lighter 35lb suit.Once they had donned their 'Snoopy hats' (soft caps fitted with earphones and microphones), the astronauts completed the suiting-up process with the addition of a pressure helmet, a clear polycarbonate bubble. The suits were then filled with pure oxygen, which in s.p.a.ce would allow them to replicate only a fraction of the pressure of Earth's atmosphere (3.7 psi as opposed to 15 psi). However, pressure as low as this allowed nitrogen within the body to break free of solution and collect in painful bubbles - a condition known to divers as 'the bends'. In its mildest form this effect is familiar to all of us: it's thought that 'cracking knuckles' can be attributed to bursting bubbles of nitrogen. In s.p.a.ce, nitrogen collects in joints, particularly elbows and knees, and to prevent this the astronauts purged their body of the gas by breathing pure oxygen for more than three hours before launch. Dependent on portable supplies of pure oxygen, connected to the suit via a tube, the three men were sealed off from any physical contact with friends and colleagues waiting to bid them farewell. 'You peer at the world, but are not part of it,' wrote Michael Collins. He secretly found pressure-suits to be unsettling and even claustrophobic, so much so that he had once considered confessing all and leaving the programme.5In the weeks before the flight, Collins had attracted almost as much press attention as Armstrong, for the fact that he would not not be walking on the Moon. As the only member of the crew who would remain aboard the command module throughout the mission, he had been repeatedly asked about his fears of isolation. Despite the growing press attention he maintained a sang-froid that later earned him a reputation as Apollo 11's philosopher. Unenc.u.mbered by Neil's focus or Buzz's ambition, Michael occasionally managed to indulge a sense of detachment from his role as the command module pilot, not to mention the mission overall, and even NASA itself. be walking on the Moon. As the only member of the crew who would remain aboard the command module throughout the mission, he had been repeatedly asked about his fears of isolation. Despite the growing press attention he maintained a sang-froid that later earned him a reputation as Apollo 11's philosopher. Unenc.u.mbered by Neil's focus or Buzz's ambition, Michael occasionally managed to indulge a sense of detachment from his role as the command module pilot, not to mention the mission overall, and even NASA itself.This relaxed att.i.tude to life developed during childhood when he learned to adapt to the succession of new homes and schools that were part and parcel of life in a military family. His distinguished father, Major General James Collins, had served in the Philippines in 1911, where he had flown aboard the wing of a Wright Brothers aircraft. During an appointment to Italy as a military attache, Michael, his fourth child, was born, in Rome on 31 October 1930. After returning to the States, the family moved to Governor's Island in New York Bay, then to Baltimore, Ohio, and Texas before being sent to Puerto Rico where they lived in a 400-year-old house. To ten-year-old Michael it seemed that no other home could offer such an immense ballroom, gardens teeming with tropical animals, and a brothel at the end of the road. Later he remembered that the girls would 'toss me money if I would talk to them but I never would'. Through his father's connections and varied postings, Michael came to acquire a broader understanding of the world than some of his NASA contemporaries.6At school he was capable and athletic, and while he developed a love of books he also became known as a prankster. 'I was just a normal, active, troublesome kid. I liked airplanes and kites, and climbing trees and falling out of them. I didn't like school much.' He also shared Armstrong's interest in model aircraft, but for Michael it was an occasional hobby that was never as important as football and girls.Following the family tradition, Collins attended West Point Military Academy, princ.i.p.ally for a free education rather than to pursue an interest in the army. He could have made much of the fact that his father was a general and his uncle, a corps commander on D-Day, was now the army's chief of staff. But Michael played down his connections, to the point that after graduating in 1952 he declined to join the army at all, choosing the air force instead. After training at Nellis Air Force Base in Nevada, in 1954 Collins was sent to an F-86 fighter squadron that was soon transferred to Chambley-Bussieres, a NATO base in north-eastern France.At Chambley in early 1956 Michael met 21-year-old Patricia Finnegan. Pretty, with a vivid smile, Pat was a graduate in English who was working for the air force as a civilian. To her, Michael looked 'just as das.h.i.+ng, just as white-scarfy, as the others', but she was impressed by his knowledge of fine wines and French cuisine, along with his love of books and interest in the theatre. She thought he was simply 'lots and lots of fun', and above all she admired his approach to life: 'It was, and is, that everything will be OK; that everything will work out.' They married on 28 April 1957, and returned to the States a few months later.Initially Michael had intended to complete his required four years in military service before finding something he was more suited to (his mother had suggested the State Department), but in France he found that flying had become a pa.s.sion. Rather than leaving, he looked at how he might channel a restless desire for fulfilment. Collins felt the best way to get on was to become a test pilot, and he sought to acc.u.mulate the hours required by the air force's test pilot school at Edwards. Flying a variety of aircraft, Michael moved from post to post until August 1960, when the school eventually accepted him.7 As a trainee test pilot, Collins learnt to 'observe, remember, and record every last movement of a bucking, heaving, spinning plane', doing so with such proficiency that on graduation he was the only member of his cla.s.s a.s.signed to test fighter jets. As a trainee test pilot, Collins learnt to 'observe, remember, and record every last movement of a bucking, heaving, spinning plane', doing so with such proficiency that on graduation he was the only member of his cla.s.s a.s.signed to test fighter jets.During 1961 the number of available test-flights began to dwindle and Collins found himself casting his eye further afield. Rumours that NASA was about to hire a second group of astronauts were confirmed in April 1962, and Collins, in contrast to Armstrong's dawdling, applied 'before the ink was dry on the announcement'.8 Manned s.p.a.ce-flight was still in its infancy, and with scant information on the long-term effects of orbital missions NASA felt obliged to inspect the health of its applicants in great detail. Candidates were strapped to a table and their cardio-vascular response measured after they were jerked upright. In other tests, cold water was poured into one ear, 'eyeball pressure' was a.s.sessed, and one foot of bowel was examined using a rectal 'steel eel'. After being poked, prodded and pierced, Collins felt that 'no orifice was inviolate', the medics only giving way in order to allow the psychiatrists to take over. When asked to describe a sheet of white paper, Collins wondered what he should say. 'Perhaps I see a great white moon in it, or a picture of Mother and Dad, with Dad a little larger than Mother. Second-guessing the shrinks is not easy.' Manned s.p.a.ce-flight was still in its infancy, and with scant information on the long-term effects of orbital missions NASA felt obliged to inspect the health of its applicants in great detail. Candidates were strapped to a table and their cardio-vascular response measured after they were jerked upright. In other tests, cold water was poured into one ear, 'eyeball pressure' was a.s.sessed, and one foot of bowel was examined using a rectal 'steel eel'. After being poked, prodded and pierced, Collins felt that 'no orifice was inviolate', the medics only giving way in order to allow the psychiatrists to take over. When asked to describe a sheet of white paper, Collins wondered what he should say. 'Perhaps I see a great white moon in it, or a picture of Mother and Dad, with Dad a little larger than Mother. Second-guessing the shrinks is not easy.'9 He scored highly in the two-month selection process, but his lack of postgraduate study and his limited test-flight experience were deemed insufficient compared to the likes of Armstrong, and ultimately he was rejected. He scored highly in the two-month selection process, but his lack of postgraduate study and his limited test-flight experience were deemed insufficient compared to the likes of Armstrong, and ultimately he was rejected.Just nine men were successful, including Armstrong, despite his late application. This was thanks to the support of d.i.c.k Day, a friend who had already made the move from Edwards to Houston. An expert in flight simulators, Day had been appointed as a.s.sistant director of the Flight Crew Operations Division and in this capacity he acted as secretary to the selection panel. He admitted that

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