Tag Archives: vanguard 3

[June 30, 1961] Reaping the Harvest (June 1961 space science results)

June was a busy month for space travel buffs, especially those who live in the Free World.  Here's an omnibus edition covering all of the missions I caught wind of in the papers or the magazines:

Little lost probe

The Goddess of Love gets to keep her secrets…for now.  The first probe aimed at another planet, the Soviet "Venera," flew past Venus on May 19.  Unfortunately, the spacecraft developed laryngitis soon after launch and even the Big Ear at Jodrell Bank, England, was unable to clearly hear its signal.

The next favorable launch opportunity (which depends on the relative positions of Earth and Venus) will occur next summer.  Expect both American and Soviet probes to launch then.

X Marks the Spot

Just as planes use fixed radio beacons to determine their position, soon submarines (and people!) will be able to calculate where they are by listening to the doppler whines of whizzing satellites.  Transit 4A, launched by the Navy, joined the still-functioning Transit 2 on June 29 (#3 conked out March 30, and #1's been off the air since last July). 

This Transit has an all-new power source.  Instead of batteries or solar panels, it gets its juice from little nuclear reactors.  These aren't aren't like the big fission plants you see being established all over the country.  Rather, they are powered by the heat of radioactive decay.  These energy packs are small and much simpler than solar panels.  Expect to see them used quite a bit on military satellites.

The Navy gets extra points for making their rocket do triple-duty: Also boosted into orbit were Injun 1 and Solrad 3.  The first is another University of Iowa particle experiment from the folks who discovered the Van Allen Belt; the latter a solar x-ray observatory.

Along a dusty trail

Contrary to popular belief, outer space is not empty.  There are energetic particles, clouds of dust, and little chunks of high-speed matter called micrometeorites.  All of them pose hazards to orbital travel.  Moreover, they offer clues as to the make-up and workings of the solar system. 

Prior satellites have tried to measure just how much dirt swirls around in orbit, but the results have been vague.  For instance, Explorer 8 ran into high-speed clouds of micrometeorites zooming near the Earth late last year corresponding with the annual Leonids meteor shower.  Vanguard 3 encountered the same cloud in '59, around the same time.  But neither could tell you precisely how many rocks they ran into; nor could previous probes.

NASA's new "S(atellite)-55" is the first probe dedicated to the investigation of micrometeorites.  It carries five different experiments — a grid of wires to detect when rocks caused short circuits, a battery of gas cells that would depressurize when impacted, acoustic sounding boards…the whole megillah.  It is one of those missions whose purpose is completely clear, accessible to the layman, unarguably useful.

Sadly, the first S-55, launched today from Wallops island, failed to achieve orbit when the third stage of its Scout rocket failed to ignite. 

It's a shame, but not a particularly noteworthy one.  The Scout is a brand new rocket.  We can expect teething troubles.  Every failure is instructive, and I'll put good money on the next S-55, scheduled for launch in August.

Worth the Wait

Speaking of Explorer 8, Aviation Week and Space Technology just reported the latest findings from that satellite.  Now, you may be wondering how a probe that went off the air last December could still generate scientific results.  You have to understand that a satellite starts returning data almost immediately, but analysis can take years. 

I'd argue that the papers that get published after a mission are far more exciting than the fiery blast of a rocket.  Your mileage may vary.  In any event, here's what the eighth Explorer has taught us thus far (and NASA says it'll be another six months until we process all the information it's sent!):

1) The ionized clouds that surround a metal satellite as it zooms through orbit effectively double the electrical size of the vehicle.  This makes satellites bigger radar targets (and presumably increases drag).

2) We now know what causes radio blackouts: it is sunspot influence on the lower ionosphere. Solar storms create turbulence that can cut reception.

3) The most common charged element in the ionosphere is oxygen.

4) The temperature of the electrons Explorer ran into was about the same as uncharged ionospheric gas – a whopping 1800 degrees Kelvin.

This may all seem like pretty arcane information, but it tells us not just about conditions above the Earth, but the fundamental behavior of magnetic fields and charged particles on a large scale.  Orbiting a satellite is like renting the biggest laboratory in the universe, creating the opportunity to dramatically expand our knowledge of science.

Air Force discovers Pacific Ocean

The 25th Discoverer satellite, a two-part vehicle designed to return a 300 pound capsule from orbit, was successfully launched June 16.  Its payload was fished from the Pacific Ocean two days later, the recovery plane having failed to catch it in mid-descent.  I recently got to see one of those odd-tailed Fairchild C-119 aircraft that fly those recovery missions; they're bizarre little planes, for sure. 

As for the contents of the space capsules, it's generally assumed that they carry snapshots of the Soviet Union taken from orbit.  This time around, however, the flyboys included some interesting experiments: three geiger tubes, some micrometeroid detectors, and a myriad of rare and common metals (presumably to see the effects of radiation upon them). 

You may be wondering what happened to Discoverers 23 and 24 (the last Discoverer on which I've reported was numbered 22).  The former, launched on April 8, never dropped its capsule; the latter failed to reach orbit on June 8.  Unlike NASA, the Air Force gives numbers to its failed missions.

Next Mercury shots planned

Virgil I. "Gus" Grissom is set to be the next Mercury astronaut in late July.  His flight will be a duplicate of Alan Shepard's 15 minute jaunt last month.  If all goes well, astronaut John Glenn will fly a similar mission in September.

I don't think the Atlas is going to be ready in time this year for an orbital shot.  That means there will be several tense months during which the Soviets could upstage us with yet another spectacle. 

[Dec. 12, 1959] Beeping its last (The end of Vanguard 3)

Two days ago, there were three active satellites—two Vanguards and one Explorer.

Yesterday, there were two: Vanguard 3 has gasped its last beep.

For 84 days, the last of the Vanguards circled the Earth, returning data from its solar X-Ray detectors, its magnetometer, and its micrometeoroid sensors from an orbit higher than that of its dumber, smaller older brother, Vanguard 1.

Did you know that the Sun emits X-Rays?  That's what happens when you heat gasses to millions of degrees Kelvin; such temperatures are common in the solar corona, the bright fringe of gas surrounding the sun's disk that one can see during a solar eclipse.  The atmosphere absorbs most extraterrestrial X-Rays, so a satellite is needed to gather comprehensive data.  Sadly, all of the energetic particles trapped in the Earth's Van Allen Belts swamped Vanguard 3's detectors, and no useful data were obtained. 

On the other hand, Vanguard 3's magnetometer did a heck of a job, returning more than 4000 signals, nearly 3000 of which were of high quality.  We have never had such a comprehensive map of our planet's magnetic fields, and it is likely that scientists will be studying these results for years to come, learning how these fields interact with the solar wind to cause phenomena from radio storms to aurorae.

Speaking of radio, if you've ever listened to your shortwave, you might have heard "Whistlers"–those enigmatic sound that calls to mind a skyrocket flying overhead or birds chirping or even a flying saucer.  Such signals have been heard since radios were invented, and it is now known that they are emitted by lightning and propagated in the ionosphere.  Vanguard 3 was able to "tune in" to Whistler emissions with its magnetometer, which allowed scientists to make some estimates of the density of electrons in the ionosphere.  Two for one is a good deal!

No micrometeoroids pierced Vanguard 3's hull for the duration of its mission, but that doesn't mean the satellite didn't run into its share of space junk.  The first preliminary estimates from returned data suggest that 10,000 tons of space dust crash into the Earth's atmosphere every day.  That sounds like a lot, but considering that it is spread out over the entire surface area of the planet, it's a negligible concern to a small satellite.

With the silence of Vanguard 3, the Vanguard program has come to a virtual end (though Vanguard 1 still keeps beeping away).  Three successful launches out of eleven seems like a pretty lousy record.  Consider this legacy, however: the bonanza of returned data, the comparative inexpensiveness of the program, the first stage being turned into the Vega second stage booster for other rockets, the second and third stages being used on the Atlas Able and the Thor Able rockets, the Vanguard worldwide signal receiving station pioneering space communications.  Vanguard surely must count as a raging success.  Moreover, Vanguard set an important precedent by showing that rockets can be used for purely civilian purposes as well as for sending weapons of mass destruction across the globe.

If my epitaph is half as laudatory, I shall be a very happy corpse.

Up next—The Twilight Zone and then… Astounding!

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P.S. Galactic Journey is now a proud member of a constellation of interesting columns.  While you're waiting for me to publish my next article, why not give one of them a read!



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[Sep. 19, 1959] Anchors Aweigh! (The Navy's Transit and Vanguard launches)

A bit of a stop press on the Space Race as I wade through this months Astounding, which I unwisely saved for last.  You should never eat dessert first…

Have you ever noticed how a train’s whistle seems to rise in pitch as the locomotive approaches and then the pitch lowers as the train departs?  This is caused by the compression of sound waves as they whistle heads toward your ears followed by a decompression as it heads away.  It’s called the Doppler Effect (after the 19th century Austrian scientist, Christian Doppler).

This concept will be used by satellites to provide accurate navigation aids for American military craft and, someday, civilians as well.  The idea is that the satellites, called Transit, will broadcast at a fixed frequency.  A receiver on the ground can tell from the quality of the Doppler frequency shifts, knowing the satellite’s orbit, where it is to within a small degree of error.  Very simple in concept.

Sadly, Transit 1 failed to orbit the day-before-yesterday when its Thor Able booster malfunctioned after liftoff.  On the other hand, the Navy (the service that developed the satellite) did get some useful data from the sub-orbital flight, I’m told.

Speaking of the Navy, the final flight of the Navy/civilian Vanguard program ended in success yesterday with the orbiting of Vanguard 3.  It is another x-ray, magnetosphere, and micrometeoroid detecting probe along the lines of the Explorers.  Its long-lasting orbit and conical shape will also allow the satellite to be used to determine the density of the upper atmosphere for decades to come.

I’ll publish more on the scientific findings of this probe as I hear them.  We are beyond the days where just getting the things up is the whole story.

And with that, the Vanguard program comes to an end with three successful flights out of 11.  This may sound like a poor record, particularly given the rather vicious coverage given the program by both domestic and foreign media (remember “Flopnik”?)

But Vanguard has enabled the reaping of a tremendous harvest.  As a booster, it was remarkably efficient and cheap.  The reliable second and third stages have been adopted as supplemental stages on other rockets, and it looks like the first stage will be turned into NASA’s new Vega second-stage system.  Thanks to Vanguard, there will be American property in space for the next several hundred years. 

Most importantly, Vanguard paved the way for a truly civilian space program.  Though it was derived from a Navy proposal, and spin-off technology from the program is being used by the military, the idea of a purely scientific and non-military space endeavor is a powerful and important one.  Our new space agency, NASA, owes much to it.

P.S. Galactic Journey is now a proud member of a constellation of interesting columns.  While you're waiting for me to publish my next article, why not give one of them a read!

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