A Cosmic Voyager, and a Space Pioneer

Today’s space history segment combines the recent past and the long past.

In the recent past, 35 years ago today — September 5, 1977 — the Voyager 1 space probe launched from Cape Canaveral aboard a Titan IIIE-Centaur rocket.


(Conceptual drawing of the region of space around our solar system, with the two Voyager spacecraft. NASA image.)

Like its sister ship, Voyager 2 (launched about 2 weeks prior), Voyager 1 was designed to study Jupiter and Saturn. Voyager 1’s trajectory was such that it reached both planets before Voyager 2. After its Saturn encounter in 1980, Voyager 1 began making its way toward the edge of the solar system.

Voyager 1 is speeding away from the Sun at a velocity of about 3.50 AU/year toward a point in the sky of RA= 262 degrees, Dec=+12 degrees (35.55 degrees ecliptic latitude, 260.78 degrees ecliptic longitude). Late on 17 February 1998, Voyager 1 became the most distant man-made object from the Sun, surpassing the distance of Pioneer 10.

According to this June 14, 2012, NASA news release,

Data from NASA’s Voyager 1 spacecraft indicate that the venerable deep-space explorer has encountered a region in space where the intensity of charged particles from beyond our solar system has markedly increased. Voyager scientists looking at this rapid rise draw closer to an inevitable but historic conclusion – that humanity’s first emissary to interstellar space is on the edge of our solar system.

“The laws of physics say that someday Voyager will become the first human-made object to enter interstellar space, but we still do not know exactly when that someday will be,” said Ed Stone, Voyager project scientist at the California Institute of Technology in Pasadena. “The latest data indicate that we are clearly in a new region where things are changing more quickly. It is very exciting. We are approaching the solar system’s frontier.”

Very cool.

In the long past, on September 5, 1857 — Old Style, that is; it would actually be September 17 on the New Style calendar — Konstantin E. Tsiolkovskiy was born in Russia. The greatest early theorist of space travel, in 1903 he published an article in Nauchnoye Obozreniye (Science Review) that he originally submitted in 1898. Entitled “Investigating Space With Rocket Devices,” the paper “presented years of calculations and laid out many of the principles of modern spaceflight.”

In the 1920s and 1930s, Tsiolkovskiy proved especially productive, publishing ten major works clarifying the nature of bodies in orbit, developing scientific principles behind reaction vehicles, designing orbital space stations, and promoting interplanetary travel. He also expanded the scope of studies on many principles commonly used in rockets today: specific impulse to gauge engine performance, multistage boosters, fuel mixtures such as liquid hydrogen and liquid oxygen, the problems and possibilities inherent in microgravity, the promise of solar power, and spacesuits for extravehicular activity. Significantly, he never had the resources—perhaps not even the inclination—to experiment with rockets himself.

Even though the coincidence of dates is pure artifice — the product of changes to the world’s calendars — it seems a fitting coincidence. After all, the Voyager mission itself was presaged by Tsiolkovskiy’s original work.

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An Interplanetary Mariner Sets Sail

Fifty years ago today — August 27, 1962 — an Atlas Agena launched from Cape Canaveral, carrying the Mariner 2 spacecraft toward a rendezvous with the planet Venus.


(Mariner 2. NASA image.)

Mariner 2 passed Venus on December 14, 1962, becoming the first spacecraft to successfully perform a planetary flyby.

Mariner 2 was a backup for the Mariner 1 mission which failed shortly after launch to Venus. The objective of the Mariner 2 mission was to fly by Venus and return data on the planet’s atmosphere, magnetic field, charged particle environment, and mass. It also made measurements of the interplanetary medium during its cruise to Venus and after the flyby.

In other space history, on this date 35 years ago, the Italian communications and scientific satellite Sirio A was launched from Cape Canaveral by Delta rocket.

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Farewell, Neil Armstrong

Neil Armstrong, first human to walk on the moon, has taken his final small step, his final giant leap into the great unknown.

Other people with deeper insight will pen better tributes than I. All I can contribute is a measure of how much of an inspiration Armstrong and his astronaut colleagues have been to me: in my decision to join the Air Force and to work specifically in space and missiles, and in my desire to explore space in my imagination and my stories.

Thank you, Neil Armstrong, and Godspeed.

___

Previous Armstrong-related space history posts:
Apollo 11’s 40th Anniversary
Happy Birthday, Neil Armstrong

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An ACE in the Halo — the Advanced Composition Explorer

Fifteen years ago today — August 25, 1997 — the Advanced Composition Explorer was launched from Cape Canaveral by a Delta II rocket.


(ACE. NASA image.)

The ACE spacecraft carried “six high resolution spectrometers, each designed to provide the optimum charge, mass, or charge-state resolution in its particular energy range,” in order to collect data on energetic particles from the Sun and other sources.

ACE is in a halo orbit around the L1 Lagrange point, between Earth and the Sun. According to the CalTech ACE mission site, the spacecraft “has a prime view of the solar wind, interplanetary magnetic field and higher energy particles accelerated by the Sun, as well as particles accelerated in the heliosphere and the galactic regions beyond,” and has enough fuel to maintain that orbit until 2024.

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First Successful Launch from SLC-6

Fifteen years ago today — August 22, 1997 (local time) — the Lewis spacecraft launched from Vandenberg Air Force Base aboard a Lockheed Martin Launch Vehicle.


(An LMLV on the pad at Vandenberg. NASA image.)

Lewis was a small satellite built under NASA’s Small Spacecraft Technology Initiative and part of the “Mission to Planet Earth.” a long-term research program designed to study the Earth’s land, oceans, air, and life as a total system.

This launch (on August 23, by GMT) was the first success for the LMLV, also known as an Athena rocket, and also the first successful launch from SLC-6 — Space Launch Complex Six — at Vandenberg.

Unfortunately, Lewis encountered attitude control problems: “telemetry received early August 26 indicated that the spacecraft was spinning at approximately two revolutions per minute. The spinning resulted in the spacecraft shutting down after its solar panels could not capture enough sunlight to properly recharge onboard batteries.” The satellite burned up in the atmosphere on September 28.

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Honorable Mention No. 8

In today’s news, the results of the 2nd Quarter of the Writers of the Future contest are out, and I earned my eighth Honorable Mention.


(Image from the Writers of the Future web site.)

You can see all the results here. I recognized several names from the Codex Writers Group, and noted a sizable representation from here in North Carolina.

According to the contest rules, and as verified to me by the contest director, my forthcoming publications in Analog and Asimov’s will render me ineligible to enter the contest any more. But because the issue dates on the magazines are October and November, if I get a story submitted by September I’ll have one more shot. So guess what I’ve been working on the last week or so?

One last thing, while we’re here …

In space history, 40 years ago today — August 21, 1972 — Orbiting Astronomical Observatory 3 (OAO-3) was launched by an Atlas-Centaur from Cape Canaveral. It was the “second successful spacecraft to observe the celestial sphere from above the earth’s atmosphere,” and operated until February 1981.

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Voyager 2's Epic Journey Begins

Thirty-five years ago today — August 20, 1977 — the Voyager 2 space probe launched from Cape Canaveral aboard a Titan-IIIE-Centaur rocket.


(Voyager 2. NASA image.)

Voyager 2 was actually the first of the Voyager spacecraft to be launched. Voyager 1 would be launched a little over two weeks later.

The Voyager mission had at first been named “Mariner Jupiter/Saturn,” and was itself a less ambitious mission than originally planned:

Originally planned as a Grand Tour of the outer planets, including dual launches to Jupiter, Saturn, and Pluto in 1976-77 and dual launches to Jupiter, Uranus, and Neptune in 1979, budgetary constraints caused a dramatic rescoping of the project to two spacecraft, each of which would go to only Jupiter and Saturn.

The mission succeeded beyond all expectations, however:

Voyager 2’s launch date had preserved one part of the original Grand Tour design, i.e. the possibility of an extended mission to Uranus and Neptune. Despite the difficulties encountered, scientists and engineers had been able to make Voyager enormously successful. As a result, approval was granted to extend the mission, first to Uranus, then to Neptune and later to continue observations well past Neptune.

The extended mission required controllers to upload new software to take into account the communication lag times and the lower light levels in the outer solar system, but Voyager 2’s systems continued to work superbly. Our space history series has already noted Voyager 2’s successful visits to Jupiter, Saturn, Uranus, and Neptune.

Now known as the Voyager Interstellar Mission, Voyager 2 is currently over 99.35 astronomical units from the sun … and still going.

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Measuring Some of the Hazards of Spaceflight

Forty years ago today — August 13, 1972 — Explorer 46 launched from Wallops Island, Virginia, atop a Scout rocket.


(Refurbished backup Meteoroid Technology Satellite. National Air & Space Musuem image.)

Also known as the Meteoroid Technology Satellite, the spacecraft was built to measure meteoroid velocity, distribution, and penetration in target panels that extended from the body of the vehicle. According to this National Air & Space Musuem archival page, the satellite recorded twenty meteoroid and over two thousand micrometeoroid impacts through December 1972.

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Pioneering High-Energy Astronomy

Thirty-five years ago today — August 12– High-Energy Astronomy Observatory 1 (HEAO 1) was launched by an Atlas Centaur from Cape Canaveral.


(X-ray source catalog from HEAO-1’s all-sky survey. NASA image.)

HEAO 1 was the first satellite in a series of three to study X-ray and gamma-ray sources. HEAO 1, in particular,

was specifically designed to map and survey the celestial sphere for X-ray and gamma-ray sources in the energy range of 150 eV to 10 MeV, to establish the size and precise location of X-ray sources to determine the contribution of discrete sources to the X-ray background, and to measure time variations of X-ray sources.

The HEAO 1 observatory was capable of scanning the entire celestial sphere in 6 months, but failure of some of the detector components meant the complete survey took longer than planned. In addition, the instruments had to be turned off when passing through the inner Van Allen radiation belt to protect itself from damage. The mission lasted until January 9, 1979, during which HEAO 1 compiled a comprehensive catalog of X-ray sources, classified several hundred X-ray source with their visible-light companions, and discovered the first X-ray eclipse in a low-mass binary star.

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First Dual-Spacecraft Flight, 50 Years Ago

Fifty years ago today — August 11, 1962 — the USSR launched Vostok 3 from the Baikonur Cosmodrome. The very next day, they launched Vostok 4, marking the first time two crewed space vehicles were in orbit at the same time.

Vostok 3 carried cosmonaut Andrian G. Nikolayev, and Vostok 4 carried cosmonaut Pavel R. Popovich. The closest approach between their two spacecraft was about 5 km. Both spacecraft de-orbited on August 15th.

The best online images of the Vostok 3 & 4 mission seem to be held closely by the web site owners, but: playing off the “Vostok” theme, and since we’ve been captivated by the Curiosity rover’s recent landing on Mars, the image below shows the track of one of Curiosity’s predecessor’s near Vostok Crater.


(Mars Rover Opportunity’s track near Vostok crater. NASA image.)

A 360-degree view extending from the above image can be seen in this panoramic view.

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