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[August 1, 1964] On Target (The Successful Flight of Ranger 7)

With the recent American lunar triumph, it is appropriate to take a look back at the long road that winds from Sputnik and ends in Oceanus Procellarum…


by Gideon Marcus

Shooting the Moon

It all began with a dream.

The Moon has captured our imaginations since we were first definably human.  Some two thousand years ago, the Greeks learned that the Moon was our closest celestial companion; it took another 1800 years for Galileo to determine that it was a spherical body, not unlike the Earth. 

It is no surprise that this discovery spawned some of our earliest science fiction stories: Godwins's The Man in the Moone, Verne's From the Earth to the Moon, Wells' recently cinemized The First Men in the Moon

With the launch of Sputnik, the heavens were broken open, and science fiction could be made fact.  Indeed, just after the Soviets launched their first satellite, the engineers at Ramo-Wooldrige's (now TRW) Space Technology Laboratories, made plans to build their own Moon rocket out of boosters already in existence, mating the Thor missile they had developed with the Vanguard rocket's second and third stages.  With luck, they would have probe around the Moon less than a year after the inauguration of the Space Age.

It was an ambitious plan.  Too ambitious.  The first of the so-called Pioneers blew up on the launch pad.  The next, Pioneer 1, made it halfway to the Moon before, like Icarus, falling back to Earth.  Pioneer 2 barely limped out of the Earth's atmosphere before burning up.

So ended the first American Moon program.  Enter Jet Propulsion Laboratory (JPL).

Situated across the San Fernando Valley from its rival, JPL was working with Von Braun's Jupiter rocket, the same one that had launched America's first satellite, Explorer 1.  Unfortunately, JPL's first attempt, Pioneer 3, also faltered on the way. 

And then came the Soviets' turn.

Red Moon

1959 began with a Dream, a Russian Dream.  On January 3, Mechta ("dream") sailed off toward and past the Moon, the first human-made object to become a satellite of the Sun.  The American success of Pioneer 4, two months later, was subsequently eclipsed when the second Mechta impacted the Moon in September, depositing Soviet medals upon Earth's companion — the first interplanetary delivery. 

Capping off this lunar tour de force was the Soviet follow-up, called Luna 3, Lunik 3, and Mechta 3.  Not only did this probe sail around the Moon, but it took pictures.  These missions were not just engineering and prestige shots, they were returning valuable information about the Moon.  It had no magnetic field, for instance.  The never-before seen Far Side was curiously devoid of the "seas" that mottle its Earth-facing surface.

We had to know more.

Local Space Race

With JPL batting .500 with its Pioneers, STL decided it needed to do better than its .000 average (though, to be fair, the flight of Pioneer 1 was a triumph for its time).  Mating the Vanguard stages of its prior Pioneer rocket to the beefy Atlas ICBM, the boys from Redondo Beach were sure they could launch the first bonafide lunar observatory into orbit around the Moon.

It didn't work.  1959-60 saw four failed attempts, all botched because the bleeding-edge Atlas wasn't yet up to the task (and how reassuring that must have been to the Mercury astronauts who had to ride the thing in a couple of years!)

One team's failure is another's opportunity.  While the second STL lunar endeavor was ending in tears, JPL was already hard at work on its own second-generation Moon project: Ranger.

Ranger was actually two programs in one.  This reflected the tension between the engineers, who wanted a craft that could make it the Moon and return information about its surface (of immediate use to a crewed lunar program), and the scientists, who wanted not only to learn about the Moon, but the space between it and the Earth.

The first two Rangers weren't even built to go to the Moon.  Planned to be launched into high orbits on a combination of the Atlas and a powerful second stage called the Vega (this civilian stage later substituted with the military's Agena), Rangers 1 and 2 would measure magnetic fields and the solar wind.

Would, but never did.  Ranger 1 and Ranger 2 both were stranded in useless low orbits due to booster malfunctions (plus ça change).  On the other hand, the satellites themselves were sound, and a modified Block 1 Ranger became the highly successful Venus probe, Mariner 2, in 1962.

Never mind them.  Rangers 3-5 were the real lunar probes, even including giant balsawood pimples on the end, which housed seismometers that could survive impact with the Moon.  It was more important than ever that we know what the lunar surface was like now that President Kennedy had announced that we would, as a nation, put a man on the Moon and bring him safely back to Earth before the decade was out.

Easier said than done.  Ranger 3, launched in January 1962, missed the Moon.  Moreover, it sailed past while facing the wrong way.  The probe took no useful pictures, and a failure of the onboard computer prevented the acquisition of sky science data.

The identical Ranger 4 was both more and less successful.  From a launch and trajectory perspective, it was perfect: On April 26, 1962, Ranger 4 became the first American probe to hit the Moon.  Unfortunately, it was an inert frame of metal by that time; NASA might as well have shot a cannonball.  In fact, the probe never worked, the first Ranger not to function at all in space. 

Still, the mission was heralded (rightfully) as a partial success.  Surely Ranger 5, last in the Block 2 series, would be a win.

No dice.  Ranger 5, launched in October 1962, lost internal power shortly after take-off and sailed silently past the Moon two days later.

Sharper Focus

For those keeping count, the Americans were now 1 for 14 in the Moon Race, a record even worse than that of last year's San Francisco 49ers.  As 1962 drew to a close, JPL undertook an internal audit and came to the following conclusions:

  • JPL's management structure was unsuited to big, complicated projects like Ranger
  • Ranger was too complicated, too dependent on every system working perfectly
  • The general scientific objectives conflicted with the specific, Apollo-supporting objectives

The result was a beefed up management staff that would focus primarily on Ranger until the probe worked.  And a newer, leaner Ranger.

Ranger, Block 3, had one job.  It would crash into the Moon, taking TV pictures all the way down.  No other science experiments.  Up came the hue and cry from scientists, but the decision was made.  As it was, it would take at least another year to develop and launch Ranger 6.  It had to work.

It didn't.

Ranger 6 had a textbook launch on January 30, 1964.  Shortly after the probe reached space, its TV system inexplicably turned itself on and off, but otherwise, all was well.  Indeed, Ranger 6 cruised through its mid-flight course correction burn like a dream, pointed straight and true for the Moon's Sea of Tranquility.  JPL Director William Pickering felt confident enough to declare, "I am cautiously optimistic."

But when it came time for Ranger 6 to do its job, to take TV pictures of the Moon, it stubbornly refused.  The probe impacted the lunar surface without returning a single shot.

Uproar.  Six failures in a row.  There was serious Congressional talk of shutting down the Ranger program altogether.  On the other hand, the mission had been almost entirely successful.  There was every reason to believe (or at least hope) that improved check-out procedures on the next, already built, Ranger 7, would lead to a completely successful mission.  After a NASA investigation and a Congressional inquiry, JPL was given one more chance.

Dream into Reality

Opportunities for lunar missions come once a month, when the Moon is situated such that the least energy is required for a rocket from Earth to reach it.  The latest such apparition started on July 27, the opening of the lunar "window."  Ranger 7's powerful Atlas-Agena rocket, now the most reliable part of the mission infrastructure, stood ready on the launchpad.  The countdown was steady, until, just 51 minutes before the scheduled launch, a faulty telemetry battery had to be replaced.  It was, and the countdown resumed…but the a fatal flaw in a ground guidance component meant that the launch had to be scrubbed. 

But only for a day.  On July 28, the countdown proceeded smoothly, and at 9:50am PDT, Ranger 7 was sent into orbit.  The onboard TV system appeared to be working normally, and half an hour later, the Agena engine fired once more, propelling the spacecraft toward the Moon.

So accurate was this burn that Ranger 7 didn't need a mid-course correction to hit the Moon.  However, the path it was to take would carry it to the lunar Far Side, which would make the transmission of TV pictures impossible.  A day after launch, a short engine burn aimed the probe directly for its destination: The Sea of Clouds.

In the early morning on July 31, 1964, reporters and cameramen once again filed into JPL's von Karman Auditorium for Ranger 7's final descent.  Just six months ago, Ranger 6 had been so disappointing that Walter Downhower, the Chief of the System Design Section who had been the voice over the auditorium speakers that day, refused to ever do that job again.

This time, JPL's George Nichols was the voice of Ranger as it zoomed toward the Moon at 5000 miles per hour.  At 3:07am PDT (yes, I stayed up, too), Nichols was able to announce that Ranger's television system and its six cameras were working properly.  Three minutes later, the first images taken from the vicinity of the Moon began to pour in as a stream of ones and zeroes on a telemetry stream.  Five minutes went by.  Still going.  Ten minutes.  Then, at 6:25 PDT, the hum of Ranger's telemetry abruptly cut off.

But this was a planned cessation — Ranger had hit the Moon!

Where we Stand

In all, some 4,316 pictures were taken of the Moon, all of higher resolution than is possible from Earthbound telescopes.  JPL identified dozens of new craters, never before seen.  One cluster was probably made by rocks thrown into the sky when the giant impact crater, Copernicus, was formed ages ago, two hundred miles away from where Ranger 7 crashed.  More importantly, NASA has gotten its first close-up look of the lunar surface; JPL scientists have identified favorable and treacherous landscapes for the upcoming Apollo missions to land on.

There will be at least two more Block III Ranger flights aimed at other parts of the Moon.  Plans to continue the series through to #14 are in doubt given that the upcoming Lunar Orbiter project (managed by Langley Research Center in Virginia) may already be flying by the time the later Rangers are ready.

And what about the Soviets?  What happened to the madcap competitive days of 1958-9?

As it turns, out, the USSR has had just one lunar probe since then: Luna 4.  Launched during the gloomiest days of Ranger, on April 2, 1963, it was highly touted by Soviet news services.  Three days later, as the craft approached the Moon, TASS and Izvestia reported that a bonanza of science would be forthcoming.

Then…nothing.  The probe sailed past the Moon with hardly any coverage.  A couple of conferences scheduled for the discussion of Luna 4's results were quietly canceled.  Per the British astronomer, Sir Bernard Lovell, the craft actually failed in its mission to enter lunar orbit.

This brings up the interesting possibility that the Soviets have launched other Moon missions and that none of them have been successful enough to be publicly announced.  That would explain some of the Kosmos flights about which the Russians have been so terse in their reporting.  It may well be that the Soviet Union is finding the Moon as tough a target as the Americans were.

The bottom line, then, is this: After five years of diligent effort (presumably by both of the planet's Superpowers), the Americans have emerged the victors in this second stage of the Moon race.

Who will win the third?


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[February 5, 1964] That was the Month that Was (January's Space Roundup)


by Gideon Marcus

Another Lunar Black Eye

NASA's Project Ranger, which is basically a projectile aimed at the moon, has logged failure after failure since it started back in 1961.  The first ones in the series, Rangers 1 and 2, were just Earth-orbiting satellites designed to test the engineering and return scientific data.  Both of their missions were busts due to fault Agena second stages on their Atlas-Agena boosters.

Rangers 3 to 5 were bona-fide moon missions with giant pimples on their noses to do a bit of lunar geology (or selenology).  None of them completed their missions: Ranger 3 missed its target and was pointed the wrong way to boot, Ranger 4 hit the moon but was brain-dead from orbit onward, and Ranger 5 both missed and stopped working long before it got near the moon.

With five cracked eggs' experience to draw from, NASA tried again in January 30, 1964, with the first of the TV-armed Rangers, #6.  Aside from an odd voltage spike early on, Ranger 6 seemed to be working fine.  The spacecraft made a textbook-perfect flight all the way to its target, Mare Tranquillitas, impacting on schedule. 

But its TV camera never turned on.

I've been told that the fellow who announced the flight in real-time to the press has resigned from this duty, unable to go through such a harrowing experience again.  Who can blame him?  This is the sixth Ranger and the tenth failed (counting Pioneer Atlas Able) moon mission in a row.  On the other hand, and this is probably weak comfort at best, Ranger 6 did perform perfectly all the way until the end.  I'm sure Our American Cousin was a fine play, too.

There are three more third edition Rangers left to launch.  Let's hope at least one of them will be successful.  Right now, this program is making Project Vanguard look like an unalloyed success.

Stillborn Quintuplets

Speaking of Vanguard, on January 24, 1964, the Air Force launched another of its multi-satellite missions, attempting to orbit an unprecedented five spacecraft at once.  "Composite 1" comprised LOFTI 2, which was to study the ionosphere, Secor and Surcal, which would have helped the Army and Navy (respectively) calibrate their tracking radars, and Injun 2, a radiation satellite made by the University of Iowa (the same folks who discovered the Van Allen Belts.

Composite 1 also included SOLRAD (Solar Radiation) 4, and this is the Vanguard tie-in.  You see, the spottily successful Vanguard, which was America's first space project, was originally designed to study the sun's output of X-rays and ultraviolet light.  Unfortunately, the last of the Vanguards, number 3, was swamped with radiation from the Van Allen Belts, and its sun-pointed experiments were made useless.  End of story, right?

Well, SOLRAD 1, launched in 1960, was essentially Vanguard 4.  It was made by the same folks (the Naval Research Laboratory), used the same design, and carried the same experiments as Vanguard 3.  The only difference was purpose: the Navy wanted to know if there was a relation between solar flares and radio fade-outs (turns out yes). 

SOLRAD 2 was a dud thanks to a bad rocket, but SOLRAD 3 and Injun 1 returned good data.  The failure of SOLRAD 4 gives the program a .500 average — still pretty good to my mind.  I understand the Air Force will be trying again in a few months.

Five for five

How about some good news for a change?  For the fifth time in three years, the world's largest rocket took to the skies above Florida, January 29, 1964.  The Saturn I rocket, a precursor to the Saturn V behemoth that will take humans to Moon before this decade is out, has completed its run of test flights with a 100% success rate. 

I want that to sink in.  As far as I know, no rocket program has ever been 100% successful.  One would think that a booster as big as the Saturn should be more accident-prone than any other.  And yet, the trim cylindrical stack lifted off from Cape Kennedy, with both stages fueled for the first time, and placed its entire top half into orbit.  This gave Americans another first: world's largest satellite, weighing nearly ten tons!

The timing could not be better.  Apollo's future has been threatened a bit lately, with many in Congress seeking to reduce NASA's funding.  Some question whether there is even value in winning the race to the moon.  The outstanding success of the Saturn I will hopefully be a shot in the program's arm — and maybe for the related Project Ranger.

Now that testing of the rocket is complete, the Saturn I will go on to operational missions, flying full-scale examples of the Apollo spacecraft.  This will be the closest this first Saturn ever gets to the moon, however.  Huge as it is, it is not strong enough to launch Apollo to Earth's nearest neighbor.  It's not even strong enough to loft a fully-fueled Apollo!  But it's bigger brother, the Saturn IB, will be.  Expect its first flights in 1966 or so.

Can you hear me?

Last year, COMSAT corporation started selling publicly traded shares.  COMSAT was President Kennedy's compromise between a public and private satellite communications entity.  COMSAT has not yet developed any comsats, but that hasn't other entities are continuing to build experimental satellites toward the day when COMSAT birds begin to fly.

Relay 2

On January 21, 1964, the RCA-built Relay 2 joined its sister Relay 1, Ma-Bell-made Telstar 2, and the fixed-in-the-sky Syncom 2 in orbit.  With four active comsats in orbit (the kind that can retransmit broadcasts), we'll likely soon see transmissions bounce all over the globe.  The most exciting programming on the schedule?  This summer's Olympic games, live from Tokyo, Japan!

Echo 2

Just four days after the launch of Relay 2, NASA shot up Echo 2, a balloon-type passive reflector satellite — essentially a big mirror in space for bouncing signals.  It's larger than Echo 1, which is still in orbit, and should be visible from the ground when it zooms overhead.  I'm not sure why NASA bothered with this satellite given the sophistication of the active-repeater comsats.  I suspect there won't be many more.

Gavarit pa Ruskii?

Meanwhile, our Communist friends have not been entirely idle.  In addition to their increasing constellation of little Kosmos satellites, which may or may not be civilian in nature (probably not), the Soviets have created the twin "Elektron" orbiting laboratories.  The first two were launched on January 30 into separate orbits, their mission to explore the Van Allen Belts from both below and above!

It's the first time the Soviets have launched multiple satellites on a single rocket (we've been doing it since SOLRAD 1) and the first time since Sputnik 3 that a Russian mission has been verifiably civilian in nature. 

It's about time!

Space for Two

I'll wrap things up with a couple of pieces of news on the Gemini two-seat spacecraft, sort of a bridge between Projects Mercury and Apollo.  Firstly, it looks like the first uncrewed flight will happen as early as March, testing both the capsule and the Titan II rocket.  If this goes well, the first crewed flights may blast off as early as the end of this year.

Fingers crossed!




[August 29, 1963] Why we fly (August Space Round-up)


by Gideon Marcus

We've become a bit spoiled of late, what with space spectaculars occurring on a fairly regular basis.  So, I was not too surprised when a friend buttonholed me the other day and exclaimed, "When is the Space Race gonna get interesting again?"  After all, it's been a whole two months since the Vostok missions, three since the last Mercury mission, and even satellite launches have been few lately.

Oh ye of little faith.  The real work doesn't happen when the rockets go up, but after their payloads are aloft.  A lot happened in the arena of space this month — you just have to dig a little to learn about it.  Here are the exciting tidbits I gleaned (and the journos missed) in NASA's recent bulletins and broadcasts:

Bridging the Continents

Communication satellites continue to make our world a smaller place.  Syncom, built by Hughes and launched by NASA late last month, is the first comsat to have a 24-hour orbit.  From our perspective on the Earth's surface, it appears to do figure eights around one spot in the sky rather than circling the Earth.  This means Syncom can be a permanent relay station between the hemispheres.

It's already being used.  On August 4 the satellite allowed Nigerian journalists and folks from two U.S. services to exchange news stories as well as pictures of President Kennedy and Nigerian Governor General Dr. Nnamdi Zikiwe.  Five days later, voice and teletype was exchanged between Paso Robles, California and Lagos, Nigeria.  This 7,700 mile conversation represents the longest range real-time communication ever made.

And, on the 23rd, Syncom carried its first live telephone conversation — between President Kennedy and Nigerian Prime Minister Sir Abubaker Tafawa Balewa, as well as several other official conversations.  One has to wonder if the whole scheme wasn't hatched just so Jack could expand his pen pal list to West Africa…

More comsat news: RCA's Relay 1 is still alive and kicking, having been used in 930 wideband experiments, 409 narrowband transmissions, and 95 demos of TV and narrowband broadcasts.  And in a stunning imitation of Lazarus, AT&T's Telstar 2 came back on-line after having been silent since July 16.  I understand there will be an unprecedented experiment next month: NASA is going to use Relay and Syncom to bounce a message from Brazil to Africa.  Expect that kind of satellite ping-pong to become common in the future.

Finally, NASA's passive comsat, Echo 1, continues to be used for tests.  Come winter, it will be joined by Echo 2.  Because if there's anything space needs, it's more balloons.


First pass of Echo 1 satellite over the Goldstone

Predicting the Weather

Mariner 2, the Venus probe that encountered the Planet of Love last December, went silent early this year.  Yet its reams of data are still yielding discoveries.  During the spacecraft's long flight toward the sun, it took continuous measurements of the solar wind — that endless stream of charged particles cast off from the roiling fusion reactor of our nearest star.  These measurements were then compared to readings made on Earth and in orbit.  Scientists have now determined that the sun's radioactive breeze blows in gusts from 500 to 1350 kilometers per second, the bursts correlated with expansions in the solar corona.  When a particularly strong stream of electrons and protons, sizzling at a temperature of 500,000 degrees F., slams into the Earth's magnetic field, it causes disruptions in broadcasts and communications.

Closer to home, Explorer 12 soared far from Earth in its highly eccentric orbit, charting long-lived solar plasma streams in interplanetary space.  The satellite determined that these gouts of plasma caused geophysical disturbances more than twenty days after their creation.

One can imagine a constellation of satellites being deployed to provide solar system-wide space weather reports.  Not only would they help keep astronauts safe as they journeyed from planet to planet, but they'd also let radio operators on Earth know when to expect static in their broadcasts.

And speaking of weather forecasts, Tiros 6 and 7 continue to be our eyes in the sky, tirelessly shooting TV of Earth's weather.  They've already tracked the first hurricane of the season, Arlene.  Who knows how many lives and dollars they will save with their early warnings?

Previews of Coming Attractions

The ill-starred lunar probe, Ranger, has failed in all five of its missions.  In fact, NASA is 0 for 8 when it comes to moon shots since 1959.  Perhaps Ranger 6, set for launch around Thanksgiving, will break this losing streak.  It will be the first of the Block 3 Rangers, lacking the sky science experiments that flew on Rangers 1 and 2, and the big seismic impactors carried on Rangers 3-5.  The new Rangers will just shoot TV pictures of potential Apollo landing sites.  This sacrifice of science in deference to the human mission has not gone without protest, but given the dismal track record of the program, the labcoat crowd will have to take what they can get.

A full year after Ranger (hopefully) reaches the Moon, a pair of Mariners will set sail for Mars.  Unlike last year's Mariner 2, Mariners 3 and 4 will carry cameras to provide our first close-up view of the Red Planet.  Let's just hope neither of these upcoming probes meet the same fate as Russia's Mars 1, which died last March.

At some point in the mid-60s, even bigger Mariners will fly to the planets, carried by the big liquid oxygen "Centaur" second-stage.  The first successful test fire took place on August 17 just down the way from my house — at General Dynamics/Astronautics San Diego

And finally, another 271 space candidates applied to NASA this year.  They have been screened to 30, and out of them, 10-15 will be selected in late October to comprise the third group of astronauts.  None of them are women yet, but perhaps there will be some in time for Group Four.


Pilots Jerrie Cobb and Jane Hart testify before the Subcommittee of the House Committee on Science and Astronautics, July 1962.  That's an Atlas Centaur model next to them.

Who knows?  Maybe you'll be one of them!

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