Of a Fire on the Moon (9780553390629) (54 page)

BOOK: Of a Fire on the Moon (9780553390629)
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Did his foot tingle in the heavy lunar overshoe? “I’m going to step off the Lem now.”

Did something in him shudder at the touch of the new ground? Or did he draw a sweet strength from the balls of his feet? Nobody was necessarily ever going to know.

“That’s one small step for a man,” said Armstrong, “one giant leap for mankind.” He had joined the ranks of the forever quoted. Patrick Henry, Henry Stanley and Admiral Dewey moved over for him.

V

Now he was out there, one foot on the moon, then the other foot on the moon, the powder like velvet underfoot. With one hand still on the ladder, he comments, “The surface is fine and powdery. I can … I can pick it up loosely with my toe.” And as he releases his catch, the grains fall back slowly to the soil, a fan of feathers gliding to the floor. “It does adhere in fine layers like powdered charcoal to the sole and sides of my boots. I only go in a small fraction of an inch. Maybe an eighth of an inch. But I can see the footprints of my boots and the treads in the fine sand particles.”

Capcom: “Neil, this is Houston. We’re copying.”

Yes, they would copy. He was like a man who goes into a wrecked building to defuse a new kind of bomb. He talks into a microphone as he works, for if a mistake is made, and the bomb goes off, it will be easier for the next man if every detail of his activities
has been mentioned as he performed them. Now, he released his grip on the ladder and pushed off for a few steps on the moon, odd loping steps, almost thrust into motion like a horse trotting up a steep slope. It could have been a moment equivalent to the first steps he took as an infant for there was nothing to hold onto and he did not dare to fall—the ground was too hot, the rocks might tear his suit. Yet if he stumbled, he could easily go over for he could not raise his arms above his head nor reach to his knees, his arms in the pressure bladder stood out before him like sausages; so, if he tottered, the weight of the pack could twist him around, or drop him. They had tried to shape up simulations of lunar gravity while weighted in scuba suits at the bottom of a pool, but water was not a vacuum through which to move; so they had also flown in planes carrying two hundred pounds of equipment on their backs. The pilot would take the plane through a parabolic trajectory. There would be a period of twenty-two seconds at the top of the curve when a simulation of one-sixth gravity would be present, and the two hundred pounds of equipment would weigh no more than on the moon, no more than thirty-plus pounds, and one could take loping steps down the aisle of the plane, staggering through unforeseen wobbles or turbulence. Then the parabolic trajectory was done, the plane was diving, and it would have to pull out of the dive. That created the reverse of one-sixth gravity—it multiplied gravity by two and a half times. The two hundred pounds of equipment now weighed five hundred pounds and the astronauts had to be supported by other men straining to help them bear the weight. So simulations gave them time for hardly more than a clue before heavy punishment was upon them. But now he was out in the open endless lunar gravity, his body and the reflexes of his life obliged to adopt a new rhythm and schedule of effort, a new disclosure of grace.

Still, he seemed pleased after the first few steps. “There seems to be no difficulty in moving around as we suspected. It’s even perhaps easier than the simulations …” He would run a few steps and stop, run a few steps and stop. Perhaps it was not unlike directing
the Lem when it hovered over the ground. One moved faster than on earth and with less effort, but it was harder to stop—one had to pick the place to halt from several yards ahead. Yes, it was easier once moving, but awkward at the beginning and the end because of the obdurate plastic bendings of the suit. And once standing at rest, the sense of the vertical was sly. One could be leaning further forward than one knew. Or leaning backward. Like a needle on a dial one would have to oscillate from side to side of the vertical to find position. Conceivably the sensation was not unlike skiing with a child on one’s back.

It was time for Aldrin to descend the ladder from the Lem to the ground, and Armstrong’s turn to give directions: “The shoes are about to come over the sill. Okay, now drop your PLSS down. There you go. You’re clear.… About an inch clearance on top of your PLSS.”

Aldrin spoke for future astronauts: “Okay, you need a little bit of arching of the back to come down …”

When he reached the ground, Aldrin took a big and exuberant leap up the ladder again, as if to taste the pleasures of one-sixth gravity all at once. “Beautiful, beautiful,” he exclaimed.

ARMSTRONG:
Isn’t that something. Magnificent sight out here
.

ALDRIN:
Magnificent desolation
.

They were looking at a terrain which lived in a clarity of focus unlike anything they had ever seen on earth. There was no air, of course, and so no wind, nor clouds, nor dust, nor even the finest scattering of light from the smallest dispersal of microscopic particles on a clear day on earth, no, nothing visible or invisible moved in the vacuum before them. All light was pure. No haze was present, not even the invisible haze of the finest day—therefore objects did not go out of focus as they receded into the distance. If one’s eyes were good enough, an object at a hundred yards was as distinct as a rock at a few feet. And their eyes were good enough. Just as one could not determine one’s altitude above the moon, not from
fifty miles up nor five, so now along the ground before them no distance was real, for all distances had the faculty to appear equally near if one peered at them through blinders and could not see the intervening details. Again the sense of being on a stage or on the lighted floor of a room so large one could not see where the dark ceiling began must have come upon them, for there were no hints of gathering evanescence in ridge beyond ridge; rather each outline was as severe as the one in front of it, and since the ground was filled with small craters of every size, from antholes to potholes to empty pools, and the horizon was near, four times nearer than on earth and sharp as the line drawn by a pencil, the moon ground seemed to slope and drop in all directions “like swimming in an ocean with six-foot or eight-foot swells and waves,” Armstrong said later. “In that condition, you never can see very far away from where you are.” But what they could see, they could see entirely—to the depth of their field of view at any instant their focus was complete. And as they swayed from side to side, so a sense of the vertical kept eluding them, the slopes of the craters about them seeming to tilt a few degrees to one side of the horizontal, then the other. On earth, one had only to incline one’s body an inch or two and a sense of the vertical was gone, but on the moon they could lean over, then further over, lean considerably further over without beginning to fall. So verticals slid and oscillated. Rolling from side to side, they could as well have been on water, indeed their sense of the vertical was probably equal to the subtle uncertainty of the body when a ship is rolling on a quiet sea. “I say,” said Aldrin, “the rocks are rather slippery.”

They were discovering the powder of the moon soil was curious indeed, comparable in firmness and traction to some matter between sand and snow. While the Lem looked light as a kite, for its pads hardly rested on the ground and it appeared ready to lift off and blow away, yet their own feet sometimes sank for two or three inches into the soft powder on the slope of very small craters, and their soles would slip as the powder gave way under their boots. In other places the ground was firm and harder than sand, yet all of
these variations were to be found in an area not a hundred feet out from the legs of the Lem. As he explored his footing, Aldrin sent back comments to Mission Control, reporting in the rapt professional tones of a coach instructing his team on the conditions of the turf in a new plastic football field.

Meanwhile Armstrong was transporting the television camera away from the Lem to a position where it could cover most of their activities. Once properly installed, he revolved it through a full panorama of their view in order that audiences on earth might have a clue to what he saw. But in fact the transmission was too rudimentary to give any sense of what was about them, that desert sea of rocks, rubble, small boulders, and crater lips.

Aldrin was now working to set up the solar wind experiment, a sheet of aluminum foil hung on a stand. For the next hour and a half, the foil would be exposed to the solar wind, an invisible, unfelt, but high-velocity flow of noble gases from the sun like argon, krypton, neon and helium. For the astronauts, it was the simplest of procedures, no more difficult than setting up a piece of sheet music on a music stand. At the end of the EVA, however, the aluminum foil would be rolled up, inserted in the rock box, and delivered eventually to a laboratory in Switzerland uniquely equipped for the purpose. There any noble gases which had been trapped in the atomic lattice of the aluminum would be baked out in virtuoso procedures of quantitative analysis, and a closer knowledge of the components of the solar wind would be gained. Since the solar wind, it may be recalled, was diverted by the magnetosphere away from the earth it had not hitherto been available for casual study.

That was the simplest experiment to set up; the other two would be deployed about an hour later. One was a passive seismometer to measure erratic disturbances and any periodic vibrations, as well as moonquakes, and the impact of meteors in the weeks and months to follow; it was equipped to radio this information to earth, the energy for transmission derived from solar panels which extended out to either side, and thereby gave it the look of one of those spaceships of the future with thin extended
paperlike wings which one sees in science fiction drawings. In any case it was so sensitive that the steps of the astronauts were recorded as they walked by. Finally there was a Laser Ranging Retro-Reflector, an LRRR (or LRQ, for L R-cubed), and that was a mirror whose face was a hundred quartz crystals, black as coal, cut to a precision never obtained before in glass—one-third of an arc/sec. Since each quartz crystal was a corner of a rectangle, any ray of light striking one of the three faces in each crystal would bounce off the other two in such a way that the light would return in exactly the same direction it had been received. A laser beam sent up from earth would therefore reflect back to the place from which it was sent. The time it required to travel this half-million miles from earth to moon round trip, a journey of less than three seconds, could be measured so accurately that physicists might then discern whether the moon was drifting away from the earth a few centimeters a year, or (by using two lasers) whether Europe and America might be drifting apart some comparable distance, or even if the Pacific Ocean were contracting. These measurements could then be entered into the caverns of Einstein’s General Theory of Relativity, and new proof or disproof of the great thesis could be obtained.

We may be certain the equipment was remarkable. Still, its packaging and its ease of deployment had probably done as much to advance its presence on the ship as any clear priority over other scientific equipment; the beauty of these items from the point of view of NASA was that the astronauts could set them up in a few minutes while working in their space suits, even set them up with inflated gloves so insensitive that special silicone pads had to be inserted at the fingertips in order to leave the astronauts not altogether numb-fingered in their manipulations. Yet these marvels of measurement would soon be installed on the moon with less effort than it takes to remove a vacuum cleaner from its carton and get it operating.

It was at this point that patriotism, the corporation, and the national taste all came to occupy the same head of a pin, for the astronauts
next proceeded to set up the flag. But that operation, as always, presented its exquisite problems. There was, we remind ourselves, no atmosphere for the flag to wave in. Any flag made of cloth would droop, indeed it would dangle. Therefore, a species of starched plastic flag had to be employed, a flag which would stand out, there, out to the nonexistent breeze, flat as a slab of plywood. No, that would not do either. The flag was better crinkled and curled. Waves and billows were bent into it, and a full corkscrew of a curl at the end. There it stands for posterity, photographed in the twists of a high gale on the windless moon, curled up tin flag, numb as a pickled pepper.

Aldrin would hardly agree. “Being able to salute that flag was one of the more humble yet proud experiences I’ve ever had. To be able to look at the American flag and know how much so many people had put of themselves and their work into getting it where it was. We sensed—we really did—this almost mystical identification of all the people in the world at that instant.”

Two minutes after the flag was up, the President of the United States put in his phone call. Let us listen one more time:

“Because of what you have done,” said Nixon, “the heavens have become a part of man’s world. And as you talk to us from the Sea of Tranquility, it inspires us to redouble our efforts to bring peace and tranquility to earth …”

“Thank you, Mr. President. It’s a great honor and privilege for us to be here representing not only the United States, but men of peace of all nations …”

In such piety is the schizophrenia of the ages.

Immediately afterward, Aldrin practiced kicking moon dust, but he was somewhat broken up. Either reception was garbled, or Aldrin was temporarily incoherent. “They seem to leave,” he said to the Capcom, referring to the particles, “and most of them have about the same angle of departure and velocity. From where I stand, a large portion of them will impact at a certain distance out. Several—the percentage is, of course, that will impact …”

CAPCOM:
Buzz, this is Houston. You’re cutting out on the end of your transmissions. Can you speak a little more forward into your microphone. Over
.

ALDRIN:
Roger. I’ll try that
.

CAPCOM:
Beautiful
.

ALDRIN:
Now I had that one inside my mouth that time
.

CAPCOM:
It sounded a little wet
.

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