Tag Archives: tiros 1

[June 30, 1960] On a roll! (Space Race Wrap-up)

Something very exciting happened this week: Spaceflight became routine.

Remember just a couple of years ago?  The press was full of flopniks, grapefruit-sized spacecraft, and about a launch every other month.  Every mission was an adventure, and space was the great unknown.

All that has changed.  Not only are we launching more, and more advanced scientific satellites, but we are launching satellite systems.  Only two months ago, the Navy launched the first of the Transit satellites.  These satellites allow a ground-based observer to determine one's location to a fair degree of accuracy.  But since there's no guarantee any one satellite will be overhead at a given time, you need a constellation of Transits.

Number two was launched last week on June 22.  The age of reliable space utilization has dawned.

The news gets even more exciting: The launch of Transit also marked the first piggyback mission.  A little scientific probe called Solrad hitched a ride along with the navigation satellite.  How's that for efficiency?

Solrad is actually quite a neat little device.  For a while, scientists have been trying to study the Sun in the X-Ray spectrum, but the devices carried by Explorer 7 and Vanguard 3 were swamped by the charged particles swirling around the Earth in the so-called Van Allen Belts; thus no useful data was obtained. 

Navy scientists solved this problem in two ways.  First, they put the probe in a lower orbit, avoiding the worst of the Belt radiation.  Second, they employed the simple expedient of placing a large magnet on the front of the detector.  This swept out the unwanted electrons leaving the satellite's sensors clear for observing the Sun.

Solrad doesn't take pictures, mind you.  It just measures the raw value of solar X-ray flux.  But already, the probe has contributed significantly to science–in a rather unexpected field. 

Long distance communications on Earth are largely conducted via radio.  Sometimes, signals will fade out for no (hitherto) discernible reason.  Solrad has found out why–the level of solar X-ray emissions directly affects the radio-reflective properties of the Earth's ionosphere, that upper atmospheric layer of charged particles that causes radio waves to bounce across the planet rather than simply flying off into space.  Thanks to Solrad, and probes like it, I can imagine a time in the near future when we'll not only have a daily weather report, but also a radio reception report.

Speaking of communications, the Air Force reports that, in about a month, it will be launching a real communications satellite (unlike SCORE which just broadcast a prerecorded message).

It's not all good news on the Space Front, however.  I present to you the Galactic Journey obituaries for the month of June:

The Air Force has lost yet another Discoverer satellite: Discoverer 12 never made it to orbit; its booster suffered a second stage failure and crashed into the Atlantic.  Better luck next time.

Transit 1 went offline the day before Transit 2 launched.  I don't know if that was intentional or coincidental.

TIROS 1, the world's first weather satellite, threw in the towel on June 18, 1960.  It is my understanding that the probe did not perform as reliably as had been hoped, but we should see a TIROS 2 in the near future.

Pioneer 5, the first deep space probe, appears to have passed beyond the range of radio reception.  My sources inform me that the last telemetry was received on June 27.  STL engineers will continue to try to resume contact, however.

Services will be held next Sunday at 12:00 PM.  In attendance will be the currently functioning satellites: Vanguard 1, Explorer 7, Transit 2, and Solrad 1. 

[April 19, 1960] Where we are (Space News Round-up)

Remember the years before Sputnik when space news comprised semi-annual rocket launch reports, annual Willy Ley books, and the occasional Bonestell/Von Braun coffee table book?

Even after Sputnik, weeks would go by without a noteworthy event.  But, slowly but surely, the pace of space launches has increased.  Just this last week, I caught wind of four exciting pieces of news.  I can imagine a day in the not too distant future when I have to pick and choose from a myriad of stories rather than reporting on every mission.

So what happened this week?  First off, on April 13, 1960, the Navy launched, on an Air Force Thor Able-Star rocket, Transit 1B (somehow, I missed the failed launch of its earlier brother, Transit 1A, last September).  It is a brand new kind of satellite, using the simplest of concepts. 

Have you ever noticed how a train's whistle rises in pitch as the locomotive approaches, and then the pitch lowers as the train moves away?  This is because the sound waves from the whistle are compressed by the train's motion as it nears; conversely, the waves stretch out as the train departs.  The wavelength determines the whistle's pitch, so a moving train's whistle will never play entirely true—unless you happen to be riding the train and, thus, going the same velocity.

Now, if one knows the true pitch of the whistle, one can mathematically figure out how fast the train is going with respect to the listener just by comparing the true pitch to the heard pitch.  Imagine a satellite equipped with a whistle (a radio transmitter, actually; sound doesn't travel through the vacuum of space).  Since the satellite is always moving with respect to the ground observer, if that observer knows the true wavelength of the satellite's signal, then s/he can figure out how fast the satellite is going from the wavelength of the observed signal.  Knowing the orbital path of the satellite, it is then easy to determine exactly where one must be at any given time to hear the satellite's signal at the received pitch.

In other words, using just a satellite, a transmitter, a receiver, and a computerized calculator, one can determine one's position to within one-half of a kilometer.  Now, this isn't good enough to help you navigate your car to work or a weekend party, but it is quite sufficient to help ships find their way at sea.  In particular, America's submarines will use Transit for high-accuracy navigation.  But someday, I can imagine Transit's descendants providing pinpoint accuracy to civilians.  Imagine a suitcase sized machine that could tell you where you are to the resolution of just a few meters!  Yet another way satellites are returning on their investment.  Soon, we'll wonder how we ever did without them.

It may be a while before we say that about the Air Force's Discoverer program.  Designed (ostensibly) to carry biological samples to and from orbit, the series has not yet been successful.  Sometimes the rocket malfunctions.  Sometimes the capsule gets lots on reentry.  And sometimes, the capsule stays forever in space.  That's what happened this time, to Discoverer 11.  The rocket launch on April 15 was successful, but it looks like the reentry capsule suffered separation anxiety after detaching from its mothership.  Both are still in orbit, and it looks like they will remain there, close to each other, until friction with the atmosphere causes them to become artificial meteors.

Speaking of spy satellites (ahem), the first weather satellite, continues to send beautiful pictures of Earth's weather.  Interestingly, NASA goes out of its way to deny that TIROS is being used for espionage (whereas the Air Force has been conspicuously quiet regarding Discoverer's true role).  I believe NASA—TIROS' cameras aren't nearly good enough to return surveillance data, though there is no doubt the military could benefit from accurate weather reports.

Finally, Pioneer 5, the world's first deep space probe, has passed the 5 million mile mark (20 times the distance to the Moon) and is still going strong!  So far, the probe has returned 100 hours of usable data on the "space weather" beyond the Earth's influence.  I can't wait to read the papers resulting from their analysis! 

And for the non-eggheads amongst my readers, while the scientific papers may not be of exceptional interest, the inventions they inspire likely will be.

See you soon!

[April 2, 1960] Aeolus Chained (TIROS 1)

"Everybody complains about the weather, but nobody does anything about it."  Mark Twain

That sage 19th century observation may not hold much longer if NASA has anything to say about it.

Last year, Vanguard 2 was touted as the first weather satellite because it had a pair of photocells designed to measure the amount of sunlight hitting the Earth.  This way, scientists could quantify the sun's effects on our climate.  No useful data was obtained, however, since the probe quickly became a whirling dervish.  Explorer 7 has a sophisticated radiometer experiment, which is more successfully accomplishing the same mission.

But it was not until yesterday that humanity had an honest-to-goodness weather shutterbug in orbit snapping pictures of clouds from hundreds of miles above them. 

The spacecraft is called TIROS: Television InfraRed Observation Satellite.  Every 90 minutes, TIROS makes a complete circuit of the Earth, with most of the inhabited surface visible to its twin TV cameras.  TIROS' photos are facsimiled to NASA headquarters (normally—I understand that the very first photos were conveyed via helicopter from the tracking station at Fort Monmouth, New Jersey).  They can then be distributed to scientists, weathermen, reporters, the general public.


TIROS' first picture—compare it to the "photo" returned by Explorer 6!

TIROS is going to usher in a new era of meteorology.  Weathermen will make accurate predictions days in advance.  Hurricane courses will be mapped, saving lives and property.  The President won't be rained out on golfing days. 

Perhaps more importantly, TIROS proves once and for all the practical value of satellites.  This isn't some eggheaded application too esoteric for the public to understand.  Nor is it just jingoistic one-upsmanship.  When someone asks you why we bother sending craft into space, you can point to TIROS' picture, the likes of which will soon replace the crude line drawings we currently find in our newspapers.

On a side note, TIROS marks the first homegrown NASA probe.  All of the previous Pioneers and Explorers were made by outside contractors (like Space Technology Laboratories) or absorbed facilities (like the Jet Propulsion Laboratory).  TIROS was made by NASA's Goddard Space Center in Maryland, which first started operation in June 1959.  I'd say they've earned an "A" right out of the gate!

Speaking of reports, we're at a science fiction convention in Los Angeles this weekend.  I'll try to have a wrap-up soon after the photos are developed.  During the con's down-time, should there be any, I plan to finish Edmond Hamilton's recently released The Haunted Stars while lounging in a chair by the hotel pool.  It's anyone's guess whether the convention or the book will get an article first…




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