November 22, 2014

AstroChallenge: Beta Monocerotis: A True Triple.

Beta Monocerotis: A finder chart. (Created by Author in StarryNight & Paint).

This week, we’d like to turn your attention towards an interesting object in an often overlooked constellation; Monceros. Sandwiched between the flashier constellations of Orion and Canis Major, this rambling constellation sports an interesting multiple star that should be part of your spring repertoire; Beta Monocerotis. [Read more...]

31.10.09:Daylight Saving Time: Is it Really Worth it?

 

Be sure to "fall" back tommorrow! (credit: Art Explosion).

Be sure to "fall" back tomorrow! (credit: Art Explosion).

 

Tomorrow, at 2AM, astronomers throughout North America can rejoice; daylight saving time (DST) ends for most areas that observe it in Canada and the U.S. as we revert back to ye ole’ standard time. This means observers will no longer have to undergo the long nightly process of sleep deprivation to await dark skies. Indeed, from northern tier states, it can be well past 10pm in mid-summer before its considerably dark! Ah….bring on the darkness. But this also brings up the following is issue….do we REALLY need daylight savings time at all? Allow us to approach the virtual soapbox, if you will. Daylight saving was first famously proposed by Benjamin Franklin and established in the US after World War I. Benefits sited at the time were energy conservation, as well as optimizing daylight hours to coincide with peak productivity periods. These days, public safety is also noted. In 2005, the Energy Policy Act was signed into law by president George W. Bush, rolling daylight saving back even further, currently spanning from the 2nd Sunday in March to the 1st Sunday in November. Granted, this may be way down some people’s lists of enduring offenses committed by the Bush administration, but the damage has been done. This year’s shift represents the earliest that we can potentially “fall back,” as November 1st is a Sunday. In agrarian times, this curious system might have made sense; each local hamlet set its own time, and primary reliance was on sunlight for human activities. But in a global, 24 hour civilization, is this idiosyncrasy for the past really required? Claims of energy savings are dubious; how about smarter night-time lighting policies? Some states, such as Arizona and parts of Indiana have done away with DST all together, and the Apocalypse has yet to rain down on them. In northern areas such as our native Maine and Alaska, DST is sort of a moot point, as the gathering winter darkness always ultimately wins. Let’s say “Down with DST,” in an effort to bring back sanity and our dark skies. Let’s step forward into the 21st century! Anyway, that’s our 2 cents…we here at Astroguyz would do away with all time-zones as well, but that’s another post…see you in Standard Time-land!

 

Review: The Sun Kings by Stuart Clark

 

We here at Astroguyz love a good read about the “secret history” of astronomy… sure, everybody knows the exploits of Galileo and Copernicus, but how many have heard of the trials of 18th century British astronomer Richard Carrington? The Sun KingsThe Unexpected Tragedy of Richard Carrington and the Tale of How Modern Astronomy Began, by Stuart Clark  and out now by Princeton University Press is the fascinating tale of how the science of astrophysics and space weather truly began, and of how astronomers went from passively observing to truly analyzing data gleened from the universe around us. A truly rare and engaging breed of science history book, we were almost sad to finish it. It stands probably as the best read we’ve had since The Search for Planet Vulcan, and tells how these old-time astronomers operated.

The tale opens with the now infamous Halloween flares of 2003, some of the most powerful of the previous solar cycle. This represented the first time that some of our most cherished solar watch dogs, such as SOHO and the GONG  network were on hand to witness the full fury of the Sun. The shock was even felt by our vanguards elsewhere is the solar system, such as the Ulysses, Voyager 2, and Mars Odyssey spacecraft, even burning out the radiation detectors on the latter!

But as with much in science, our interpretation and understanding took a long and torturous road. The book then whisks the reader back to late 18th century England, a time when William Herschel proposed an astonishing idea; that the observed 11 year sunspot cycle was linked to Earthly agriculture and commerce. Specifically, he noted that the price of wheat tended to fluctuate in a corresponding period, with prices at their highest and supplies at their scarcest during the solar minimum and the opposite occurring at the solar max. Of course, this was seen as the delusion of an aging astronomer and roundly dismissed by his peers. Herschel had discovered Uranus and the infrared part of the spectrum, but this third contribution was largely overlooked.

Enter Richard Carrington. He stands as the kind of guy you’d always root for, an astronomer of ambition and insight whose personal life was marred by tragedy. He’s is now remembered mostly for being on hand and having the prescience to accurately record what he saw, but also made the right connections to what was going on around the environs of the Earth in late 1859.  It was interesting to note that during the height of the electromagnetic turbulence, a telegraph operator in Portland, Maine noted that his transmission system worked better utilizing solely the charge on the line, with the batteries disconnected!

Carrington’s prime ambition was to observe the Sun through the span of one complete solar cycle, but like many of us, his plan to pursue astronomy was continuously be-deviled by the pursuit of funding and that whole “personal life” thing.  Perhaps he needed a blog…

First, the death of his father left him running the family brewery. Not that the title of “Gentleman/ Brewer/ Astronomer” is a bad byline… but his romantic exploits turned sour as well, when his marriage to an under class woman turned into a love triangle that pulls him into trial and scandal. The whole affair reads like a bad Jane Austin novel… unfortunately,  the innocent Carrington took his life by overdose of chloral of hydrate mixed with alcohol shortly after the death of his wife Rosa.

As sad a fate as Carrington’s life was, his insight sparked a vigilant monitoring of the Sun. In fact, in the late 19th century, the riddle of the Sun was the topic in astronomy, as scientists turned a battery of new toys on our nearest star, such as the spectroheliograph and that new fangled device, the camera.

Hereto unknown elements such as helium  were first discovered in the atmosphere of the Sun. But the source of its enormous energy output had to remain and mystery until Einstein revealed the miracle of fusion in the early 20th century.

Enter Edward Walter Maunder, in many ways the intellectual predecessor to Carrington. From his early childhood, Maunder had been transfixed by the Sun, spying a naked eye sunspot as a boy through a low heavy fog. It must have been an astonishing sight to the young Carrington, who went on to lead an expedition to India in 1898 to photograph the elusive solar corona.

Images taken by his wife Annie, an expert astronomer in her own right,  later confirmed the connection between the tenuous streamers seen and sunspot activity. Here finally lay the mechanism by which the Sun could reach out and touch the Earth.

But its for another fascinating theory that Maunder is now known. He noted during his historical research that large spans of spotless periods corresponded with eras of dramatic global climatic cooling; a famous stretch from 1645 to 1715 now bears his name as the Maunder Minimum. During this period, the Thames river froze annually, harvests were meager, and several “years without a summer” were recorded. At first, even Maunder himself was skeptical; he believed the apparent lack of sunspots could easily be explained away by the gaps in the chronological record. However, Maunder’s research was revived by Dr. Jack Eddy in the 1970′s, who also combed through Chinese records of naked eye sunspot observations. Today, the existence of the Maunder Minimum remains hotly contested, as does the Sun’s role and measure of effect in climate change.

Of course, today it is tempting and sometimes even fashionable to link the solar cycle to everything from fluctuations in the stock market to  the cycle of global conflict over resources to the prevalence of bikinis on your local beach, and the list of dubious links could provide headlines for your favorite search engine for years to come. But Hershel was in fact finally vindicated; in 2003, Israeli scientists proved that the link between wheat prices and the solar cycle in the 17th century was real. Similar assertions for top vintage wine years beg for a similar study. Wherever you stand on the global warming issue, few can deny that the shenanigans of our Sun  are tied up in the cosmic riddle.

The author ends on an interesting coda; in 2004, large gamma-ray burst tore through our solar system two days after Christmas.  This was powerful enough to effect our upper atmosphere for several hours, and was even recorded reflecting off of our own Moon! The source; a magnetar, a bizarre sort of pulsar just recently identified, about 50,000 light years distant. This event shows the emerging realization that not only are we at the mercy of our local Sun’s whim, but that there are much meaner beasties out there that can and do reach out and touch us. We owe the beginnings of this understanding to Carrington and his ilk, who proved, often amid controversy, that we are not immune or aloof from our cosmic environs. Read The Sun Kings and marvel at this largely unknown but fascinating chapter in astronomical history!

 

Remembering the Super Flare of 1859.

Massive Sunspots in 2003 similar to the one that produced the Carrington Event. (Phot by Author).

Massive sunspots in 2003 similar to the one that produced the Carrington Event. (Photo by Author).

This coming Tuesday marks the 150th anniversary of a unique astronomical event that has repercussions even today. On the morning of September 1st, 1859, Astronomer Richard Carrington found his routine of carefully drawing and recording the transit times of sunspot groups disrupted by an odd phenomenon emerging on the face of the Sun. The day dawned unusually sunny over his private observatory in Redhill, England, and 33 year old Carrington had taken to his usual daily task of sketching sunspot groups projected onto a screen in a darkened room. The scope used was a 2-meter long brass refractor, (scopes were often measured by focal length instead of aperture in those days) and it yielded an 11-inch diameter projected image of the Sun. the Sun itself had been extremely active most of the year, and there was plenty to draw. [Read more...]

27.07.9: What Ails Jupiter?

The "Black Spot" in Infrared! (Credit: NASA/JPL/Infrared Telescope Facility).

The "Black Spot" in Infrared! (Credit: NASA/JPL/Infrared Telescope Facility).

Something has slapped the largest planet in our solar system as of late. A large black spot has emerged in Jupiter’s southern polar region, reminiscent of the Shoemaker-Levy 9 collision of 15 years ago. Initially discovered by Anthony Wesley of Australia utilizing a 14.5” reflector early last week, the discovery was backed up mid-week by NASA’s Infrared Telescope Facility in Mauna Kea, Hawaii. Looking similar to a Galilean satellite shadow, it has all the hallmarks of an impact. Will it evolve and develop over the coming weeks and months? By the time this goes to (word)press, we hope to get a glimpse of it here at Florida Astroguyz HQ. [Read more...]

The Contributions of Amateur Astronomers to Modern Science

graph.

The trend for comet discoveries. (Graph by Author).

(Author’s note; the essay below was a paper submitted recently by yours truly as part of my quest for a bachelors degree in science teaching. I’ve posted it here pretty much intact. Some explanations on the graphs have been expanded; I thought it was a shame for all of my research on the subject to go to waste. The bibliography is also included.)

Today, the modern science of astronomy is growing like never before. New technologies are opening up unseen vistas scarcely imagined just twenty years ago. [Read more...]