Tag Archives: solrad 4

[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!




[February 1, 1962] Silver Lining (January Space Race round-up!)


by Gideon Marcus

January has been a frustrating month in the Space Race.  We are no closer to matching the Soviets in the manned competition, much less beating them, and our unmanned shots have been a disappointment, too.  That said, it's not all bad news in January's round-up: stick to it through the end, and you'll see cause for cheer!

Quintuplets fail to deliver

The Air Force has been playing around with combined launches for a while now.  After all, if you're going to spend millions of dollars to throw a booster away, you might as well get multiple bangs for your buck.  Sadly, the latest attempt, a Thor Ablestar launch on January 24 dubbed "Composite 1," failed when the top stage tumbled in orbit and failed to separate from its payloads.

What we lost: SolRad 4, for measuring solar X-rays (only visible above the curtain of the atmosphere); Lofti 2, which would have examined the effects of Earth's ionosphere on Very Low Frequency radio transmissions; Surcal, a strictly military probe designed to calibrate the navy's communications net in orbit; the wholly civilian Injun 2, which would help map the Van Allen belts (see below); and Secor, a big balloon that would have helped the Army with their ranging equipment.

Copies of these probes will end up at some point, either launched together on a big rocket or separately on little ones.

Moon Miss-ion

It's been a bad run of luck for NASA's latest moon program, Project Ranger.  After the failure of the first two Ranger missions, designed to test the probe's engineering and return sky science, there were high hopes for the lunar flight, launched January 26. 

Things went badly from the beginning.  Ranger 3 was pushed into a bad trajectory by a faulty guidance system.  Not only did it rush past the moon, failing both to hit the target or end up in orbit, but it was pointed the wrong way the entire length of the journey.  No useful data or pictures were obtained.  That nifty seismometer that makes up Ranger's Rudolph nose went completely unused. 

Ranger 4, a carbon copy of #3, should launch in the next few months.  Hopefully, they'll have the kinks worked out by then.  This is one of those clear places where the Communists are ahead in the space race, having pioneered both lunar orbit and the moon's surface several years ago.

A rain check for Mercury

The third time turned out also not to be the charm for Major John Glenn.  His orbital Mercury mission has now been postponed three times.  It's a good thing the Marine is so good-natured; I know I'd be frustrated.

The first delay happened on January 22 when there was a failure in the spacecraft's oxygen system.  Definitely something I'd like working on a five hour flight!  On the 27th, cloud cover prevented the launch, and just today, there was a problem with the temperamental Atlas booster.  The next opportunity to launch won't come until February 13.

So much is riding on this flight.  The Soviets have already launched two of theirs into orbit while we flutter futilely on the ground.  Newspapers and talking heads are already opining that we'll have a Red-staffed space station and a Red-dominated moon before long if we don't hurry to catch up. 

Explorer 12: Reaping the harvest

Here's the good news: I've said before that the most exciting thing about a satellite is not its fiery launch but the heap of data it returns.  That's where the taxpayer gets one's money's worth and where the scientist sees the payoff.  Explorer 12 was the latest in the series of probes (starting with America's first, Explorer 1) sent into orbit to probe the hellish fields of charged particles that circle the Earth.  The spacecraft is still up there, though it went silent in December.  However, in its four months of life, it learned a great deal about the furthest reaches of our planet's influence.

For one, Explorer 12 found that the outer of the two "Van Allen" belts around our planet is made mostly of protons rather than electrons (though there are still plenty of the latter — enough to make hanging around a dangerous proposition for astronauts).  Those protons, particularly the less energetic ones, have been linked to solar magnetic storms, which result in spectacular auroras on Earth.

Perhaps even more interesting is that the probe found the edge of the Earth's magnetosphere.  "What's that?" you ask.  Well, our planet is a giant magnet, probably the result of a dense iron core that spins deep inside the Earth.  These magnetic lines of force extend far beyond the Earth's crust and 70,000 kilometers into space where they trap the wind of high energy particles from our sun.  This keeps them from scouring away our atmosphere. 

Where our magnetic field meets the field carried on the solar wind, called the magnetopause, there is an area of turbulence and disorganized magnetism. It is now believed that the sun's wind smashes against the Earth's field, creating a bow shock – the kind you'd see when a blunt body is smacked by a supersonic gas.  Moreover, the Outer Van Belt "breathes" inward and outward, responding to waves in the solar wind.

And speaking of magnetic fields, NASA scientists just released findings from the intentionally short-lived Explorer 10 found a magnetic "shadow" behind the Earth.  Specifically, the solar wind seems to hit our planet's magnetosphere and deflect around the Earth, but the magnetic field acts as kind of an umbrella, shielding a large portion of near-Earth space. 

The general contours of Earth's magnetic environment have thus been mapped.  Neat stuff, eh?