Category: Observing

Greetings, fellow SkyWatchers… Are you enjoying the typical “change of seasons” weather in your area? If skies should clear for you this weekend, we have some very nice lunar challenges along with some very interesting stars! Why not spend a little time contemplating lunacy and gathering a few photons? When ever you are ready, I’ll see you in the back yard…

May 21, 2010 – Today we’d like to wish a happy birthday to Nils Christofer Duner. Born in 1839, this classical astronomer studied the rotational period of the Sun. Duner was an outstanding observer and made 2,679 measurements of 445 double and multiple stars. He also specialized in observing the spectra of red stars, and later made a series of measurements of the Doppler shift caused by solar rotation. As you know, one of our own Sun’s main ingredients is helium. If you would like to see a helium-rich star, look no further tonight than Alpha Virginis See Spica— Spica . As the 16th brightest star in the sky, this brilliant blue-white ‘‘youngster’’ appears to be about 275 light-years away and is about 2,300 times brighter than our own Sun. Although we cannot see it visually, Spica is a double star. Its spectroscopic companion is roughly half its size and is also helium rich.

Now, let’s have a look at the Moon! Tonight’s challenges are craters Cassini and Cassini A, which come into view just south of the black slash of the Alpine Valley.

The major crater spans 57 kilometers and reaches a floor depth of 1,240 meters. Your assignment, should you decide to accept it, is to spot the central crater A. It only spans 17 kilometers, yet drops down another 2,830 meters below the primary crater’s floor!

May 22, 2010 – Let’s begin the day by honoring the 1920 birth on this date of Thomas Gold, an astronomer known for
proposing the ‘‘steady-state’’ theory of the universe; for explaining pulsars; and for giving the magnetosphere its name. Gold was also an auditory research genius. In his interview with D.T. Kemp he stated: ‘‘I’m a compulsive thinker, I never turn my brain off, I’ve never in my life complained of being bored because I’m constantly thinking about some problem, mostly physics I suppose. A problem is always on my mind—evidently even in my sleep because I often wake up with a solution clearly spread out.’’

Tonight let’s take a long Moonwalk together and do some major crater exploration. Try using mid-range magnification in your telescope and see how many of the features you can identify:

(1) Sinus Asperitatis, (2) Theophilus, (3) Cyrillus, (4) Catharina, (5) Rupes Altai, (6) Piccolomini, (7) Sacrobosco, (8) Abulfeda, (9) Almanon, (10) Taylor, (11) Abenezra, (12) Apianus, (13) Playfair, (14) Aliacensis, (15) Werner, (16) Blanchinus, (17) Lacaille, (18) Walter, (19) Regiomontanus, (20) Purbach, (21) Thebit, (22) Arzachel, (23) Alphonsus, (24) Ptolemaeus, and (25) Albategnius.

May 23, 2010 – If you like to venture to the lunar surface tonight, we can enjoy a strange, thin feature that’s a nice challenge! Look toward the lunar south, where you will note the prominent rings of craters Ptolemaeus, Alphonsus, Arzachel, Purbach, and Walter descending from north to south. Just west of them, you’ll see the emerging Mare Nubium.

Between Purbach and Walter, you will see the small, bright ring of Thebit, with a crater caught on its edge. Look further west to spot a long, thin, dark feature cutting across the mare. Its name? Rupes Recta , better known as the ‘‘Straight Wall,’’ or sometimes Rima Birt. The Straight Wall is one of the steepest known lunar slopes, rising around 366 meters from the surface at a 41 degree angle. Be sure to mark your lunar challenge notes and visit this feature again!

If you’d like to take a look at a ‘‘habitable zone,’’ look no further than AX Microscopii (RA21 17 15 Dec – 38 52 02). AX is a dwarf red flare star, which resides only 12.9 light-years from us. Although it might not seem that important, it is the target of interferometric studies searching for planets that may have formed in habitable zones around stars similar to our own. Even though AX is slightly smaller than Sol, this cool main sequence star might in fact be inhospitable, due to its daily flare activity.

Until next week? Ask for the Moon… But keep on reaching for the stars!

This week’s awesome images (in order of appearance) are: Cassini – courtesy of Wes Higgins, Thomas Gold (archival image), Lunar Photo courtesy of Greg Konkel – Annotations by Tammy Plotner, Rupes Recta courtesy of Damien Peach and AX Microscopi was done by Palomar Observatory, courtesy of Caltech. We thank you so much!

Greetings, fellow SkyWatchers! It is just amazing how much the night sky can change when you’re out of commission for a few weeks. Where did Orion go? If you’ve been missing your own “starry nights”, then why not celebrate the weekend with some of the finest objects this time of year has to offer? It’s a great time to get into the “Queen’s Hair”, get a “Blackeye” and rustle up a pair of very impressive gobular clusters! Whenever you’re ready, I’ll see you in the back yard….

May 14, 2010 – On this date in 1973, the United States launched its first manned space station and largest payload up to that time, Skylab 1. The orbiting laboratory housed crews of astronauts, performed experiments, and taught us much before its fiery return to Earth in July 1979.

Tonight we’ll start with an object you can view unaided from a dark location, and which is splendid in binoculars. As a matter of fact, it’s so outstanding it has even been viewed and photographed from the International Space Station (ISS)! Just northeast of Beta Leonis, look for a hazy patch of stars known as Melotte 111. Often called the ‘‘ Queen’s Hair,’’ this 5-degree span of 5–10th magnitude stars is wonderfully rich and colorful.

As legend has it, Queen Berenice offered her beautiful long tresses to the gods for the king’s safe return from battle. Touched by her love, the gods took Berenice’s sacrifice and immortalized it in the stars. The cluster is best in binoculars because of its sheer size, but you’ll find other things of interest there as well. Residing about 260 light-years away, this collection is one of the nearest of all star clusters, including the Pleiades and the Ursa Major moving group. Although Melotte 111 is more than 400 million years old and contains no giant stars, its brightest members have just begun their evolution. Unlike the Pleiades, the Queen’s Hair has no red dwarf stars and a low stellar concentration which leads astronomers to believe it is slowly dispersing. Like many clusters, it contains double stars, most of which are spectroscopic. With binoculars, it is possible to split star 17, but it will require very steady hands.

May 15, 2010 – Today we celebrate the 1857 birth on this date of Williamina Paton Stevens Fleming, who pioneered in the classification of stellar spectra and discovered the stars we now call white dwarfs. Now get this: she began by working as a maid for Harvard Observatory’s Edward Pickering, who then took her to the observatory to do clerical work. Fleming ended up cataloging over 10,000 stars for Harvard in a period 9 years. You go, girl!

Tonight let’s head out into space where we might get a ‘‘blackeye.’’ You’ll find it located just 1 degree east-northeast of 35 Comae Berenices, and it is most often called M64 (RA 12 56 43 Dec +21 41 00).

Discovered by Bode about a year before Messier cataloged it, M64 is about 25 million light years away and holds the distinction of being one of the more massive and luminous spiral galaxies. It has a very unusual structure and is classified as an ‘‘Sa’’ spiral in some catalogs and as an ‘‘Sb’’ in others. Overall, its arms are very smooth and show no real resolution to any scope, yet its bright nucleus has an incredible dark dust lane that consumes the northern and eastern regions around its core, giving rise to its nickname—the Blackeye Galaxy.

In binoculars, you can perceive this 8.5-magnitude galaxy as a small oval with a slightly brighter center. Small telescope users will pick out the nucleus more easily, but it will require both magnification and careful attention to dark adaptation to catch the dust lane. In larger telescopes, the structure is easily apparent, and you may catch the outer wisps of arms on nights of exceptional seeing. No matter what you use to view it, this is one compact and bright little galaxy!

May 16, 2010 – Today we’d like to wish Roy Kerr a happy birthday! Born on this date in 1934, Kerr solved Einstein’s field equations of general relativity to describe rotating black holes, or the space/time around them. The solution, called now a Kerr black hole, shows a vortex-like region outside the event horizon known as the ergo-region. In this region, space and time are dragged around with the rotating parent black hole.

Tonight let’s use our binoculars and telescopes to hunt down one of the best globular clusters for the Northern Hemisphere— M3 (RA 13 42 11 Dec+28 22 31). You will discover this ancient beauty about halfway between the pair of Arcturus and Cor Caroli, just east of Beta Comae. The more aperture you use, the more stars you will resolve.

Discovered by Charles Messier on May 3, 1764, this ball of approximately a half-million stars is one of the oldest formations in our galaxy. At around 40,000 light years away, the awesome M3 globular cluster spans about 220 light-years and is believed to be as much as 10 billion years old. To get a grasp on this concept, our own Sun is less than half that age! M3 is 40,000 years away, traveling at the speed of light; yet we can still see this great globular cluster.

Now let’s locate M53 (RA 13 12 55 Dec +18 10 09), near Alpha Comae. Aim your binoculars or telescopes there and you will find M53 about a degree northeast. This very rich, magnitude 8.7 globular cluster is almost identical to M3, but look at what a difference an additional 25,000 light-years can make as to how we see it!

Binoculars can pick up a small, round, fuzzy patch, while larger telescopes will enjoy the compact bright core as well as resolution at the cluster’s outer edges. As a bonus for scopes, look 1 degree to the southeast for the peculiar round cluster, NGC 5053. Classed as a very loose globular, this magnitude 10.5 grouping is one of the least luminous objects of its type, due to its small stellar population and the wide separation between members, yet its distance is almost the same as that of M3!

Until next week, enjoy your observations and keep on looking at the stars!

This week’s awesome images are: Skylab 1 courtesy of NASA, Melotte 111 courtesy of Astronaut Don Petit (NASA), Williamina Paton Stevens Fleming (historical image), M64, M3 and M53 are Palomar Observatory, courtesy of Caltech)

Greetings, fellow SkyWatchers! Have you been out enjoying the Sun? You better be, because the Sun has been enjoying you and putting on quite a show! Once it sets, be sure to look for both Venus and Mercury decorating the western skyline. With the Moon gone off the early evening scene, it’s also time to take on a couple of new galactic open cluster studies to tease your eye with photons! Whenever you’re ready, I’ll see you in the dark…

April 2, 2010 – On this date in 1889, the Harvard Observatory’s 13″ refractor arrived at Mt. Wilson. Just one month later, it went into astronomical service at Lick Observatory, located at Mt. Hamilton. It was here that the largest telescopes in the world resided from 1908 to 1948 – the 60″ for the first decade, then the 100″. This latter mirror is still the largest solid piece ever cast in plate glass, and weighed 4.5 tons. Would you believe it’s just 13″ thick?

This date in 1845, the first photograph of the Sun was taken. Although solar photography and observing is the domain of properly filtered telescopes, no special equipment is necessary to see some effects of the Sun, only the correct conditions. Right now Earth’s magnetosphere and magnetopause (the point of contact) are positioned correctly to interact with the Sun’s influencing interplanetary magnetic field (IMF), and the plasma stream that flows past us as the solar wind. During the time around equinox, this leaves the door wide open for one of the most awesome signs of spring – aurora! Visit the Geophysical Institute to sign up for aurora alerts, and use their tools to help locate the position of Earth’s auroral oval.

So is the Sun active right now? You betcha’. According to Spaceweather.com: “Amateur astronomers around the world are monitoring a huge prominence rising over the Sun’s northeastern limb. Magnetic fields underpinning this magnificent structure are in a state of fairly rapid motion, pulling the plasma to and fro, offering a different profile to every observer. The whole thing could become unstable and collapse.”

After you’ve enjoyed today’s Sun, be sure to watch as it sets for the brilliant appearance of Venus. Look closely to the northwest and you’ll see another planet, too. Mercury has come round from behind the Sun and is visible for a short time. If you don’t spot it at twilight, don’t despair. By week’s end, the two planets will be just 3 degrees apart!

April 3, 2010 – Tonight let’s try for a scattered open cluster, NGC 2281 (RA 06 48 18 Dec +41 05 00) toward the west in Auriga. At magnitude 5.4, NGC 2281 should be visible as a nebulous mist in binoculars on a dark night, but you’ll need a scope and high power to darken the sky enough to see the bright members found near its core.

NGC 2281 is around 1,500 light-years distant and 50 million years old. It can best be found by extending a line from Capella to Beta Aurigae an equal distance east to a pair of 5th magnitude stars separated by a finger-width. NGC 2281 lies less than a degree southeast of the eastern member of this pair (58 Aurigae). When studied photometrically, NGC 2281’s binary stars were found to congregate more toward the center of the cluster, and with more intensity than for single stars alone. With a population of no more than 60 stars, the binaries far outnumber their counterparts!

April 4, 2010 – Today we celebrate the 1809 birth on this date of astronomer Benjamin Peirce. Peirce was a professor of astronomy and mathematics for nearly 40 years and contributed greatly to the discovery of Neptune.

If you like challenging planetary nebulae studies, here’s a good one to try tonight – NGC 2610 (RA 08 33 23 Dec –16 08 58) near the Hydra/Puppis/Pyxis border.

At 13th magnitude, it’s not for the beginner, but a worthy study for seasoned veterans. Its position near two 7th magnitude stars will help reveal its location at low power. Magnify to catch a slightly elliptical shell, a stellar point on its northeast edge, and a wink of a central star. Note NGC 2610 is also cataloged as Herschel IV 65 – another to add to your ‘‘Herschel Hit List!’’

Have a terrific holiday weekend!

This week’s awesome images are: Hooker Telescope courtesy of NASA, latest H-Alpha image courtesy of SOHO, NGC 2281 and NGC 2610 from Palomar Observatory, courtesy of Caltech. We thank you so much!

Greetings, fellow SkyWatchers! Are you ready to commit a little lunacy? Then don’t forget to turn off your lights to celebrate Earth Hour and let’s take a much closer look at what’s really lighting up the skies – the Moon. Before you think that lunar observing is boring, or carries a little less weight than deep sky studies, then try your hand at truly identifying some of this weekend’s studies! Some features can be identified with just your eyes.. and if you can do the larger ones with binoculars? You’re good. But why not test out your optics and your skills with some real lunar challenges? Then hit the switch and I’ll see you after dark…

March 26, 2010 – Today, think about a French amateur astronomer who was watching around black spot transit the Sun today in 1859. His name was Lescarbault, and he was sure he’d witnessed a new planet, which he christened ‘‘Vulcan.’’ Nathaniel Bowditch was also born this date in 1773. He also devised the ‘‘Bowditch Curve,’’ which applies in both physics and astronomy. Bowditch’s mathematical and astronomical work during his lifetime earned him many accolades – including election to the American Academy of Arts and Sciences. While his life took him down many career paths, including celestial navigation, one of his fortes was an article on his observations of the Moon which was published in 1804. Now, 206 years later, let’s step outside and look up…

We start our observing evening with the beautiful Moon as we return first to the ancient and graceful landmark crater Gassendi standing at the north edge of Mare Humorum. The mare itself is around the size of the state of Arkansas and is one of the oldest of the circular maria on the visible surface. As you view the bright ring of Gassendi, look for evidence of the massive impact which may have formed Humorum. It is believed the original crater may have been in excess of 462 kilometers in diameter, indenting the lunar surface almost twice over. Over time, similar smaller strikes formed the many craters around its edges and lava flow gradually gave the area the ridge- and rille-covered floor we see tonight. Its name is the “Sea of Moisture,” but look for its frozen waves in the long dry landscape.

Caught on the northwestern rim of Mare Humorum, look for crater Mersenius. It is a typical Nectarian geological formation, spanning approximately 51 miles in diameter in all directions. Power up in a telescope to look for fine features such as steep slopes supporting newer impact crater Mersenius P and tiny interior craterlet chains. Can you spot white formations and crevices along its terraced walls? How about Rimae Mersenius? Further south you’ll spy tiny Liebig helping to support Mersenius D’s older structure, along with its own small set of mountains known as the Rupes Liebig. Continue to follow the edge of Mare Humorum around the wall known as Rimae Doppelmayer until you reach the shallow old crater Doppelmayer. As you can see, the whole floor fractured crater has been filled with lava flow from Mare Humorum’s formation, pointing to an age older than Humorum itself. Look for a shallow mountain peak in its center – there’s a very good chance this peak is actually higher than the crater walls. Did this crater begin to upwell as it filled? Or did it experience some volcanic activity of its own? Take a closer look at the floor if the lighting is right to spy a small lava dome and evidence of dark pyroclastic deposits – it’s a testament to what once was!

March 27, 2010 – Enjoy your day and think about the importance of the birth of John Pierce in 1910. Pierce undertook the visionary work of communications satellites. Although people scoffed at his ideas, in 1960 he convinced a U.S. agency called NASA to convert a balloon-borne experiment called ‘‘Echo’’ into a radio wave reflector. Thanks to his brilliant work, the next step was the development of Telstar, a satellite that ushered in the modern age of television! Of course, you could always just skip TV tonight and do the Moon instead!

Tonight the great Grimaldi, found in the central region of the Moon near the terminator is the best lunar feature for binoculars. This huge, old basin on the western limb comes from the pre-Nectarian geological period and is definitely at least 4 billion years old. Spanning about 134 miles in diameter and filled with low albedo lava, Grimaldi – like Plato – is a landmark feature that’s easily noticed even without optical aid, but holds wonderful details for study. Using a telescope, take a look at the inner walls of Grimaldi, where you’ll see they have been heavily eroded and worn away by impacts and time. All that’s left now is a series of low hills and ridges – there’s no sharp crater walls to distinguish it. Beyond the basin, an outer wall still remains. If the lighting is right at your time of observation, you’ll notice it appears more strong to the north and west, as opposed to the southeast Rimae Grimaldi. Take a close look at the floor region, too. It’s home to a mascon, too… As well as lunar transient phenomena. Can you spot Lohrmann crater to its north or Riccioli crater to the southeast?

If you would like to see how well you have mastered your telescopic skills, then let’s crater hop. About one Grimaldi length south, you’ll see a narrow black ellipse with a bright rim. This is Rocca. Go the same distance again (and a bit east) to spot a small, shallow crater with a dark floor. This is Cruger, and its lava-filled interior is very similar to another study – Billy. Now look between them. Can you see a couple of tiny dark markings? Believe it or not, this is called Mare Aestatis. It’s not even large enough to be considered a medium-sized crater, but is a mare! Now, hop east and you will see two craters nearly identical in size and depth. The southern crater is Billy – one of the darkest floored areas on the Moon. Inside Billy’s bright rim, you will notice an interior as featureless as a mare. North of Billy is Hansteen, whose interior is much brighter and shows complex details. Comparing the two will show Billy was once filled with smooth lava, while Hansteen avoided that fate and shows its native scarred interior.

For larger telescopes, let’s try a challenging study worthy of your observing skills. Due west of Hansteen you will find a small crater known as Sirsalis near the terminator. It will appear as a small, dark ellipse with a bright west wall along with its twin, Sirsalis B. The feature you will be looking for is the Sirsalis Rille – the longest lunar “wrinkle” presently known. Stretching northeast of Sirsalis and extending 459 kilometers south to the bright rays of Byrgius, this major “crack” in the lunar surface shows several branchings – like a long dry river bed. Geologically forming in the Imbrian period, chances are the Sirsalis Rille is lunar graben. Thanks to Lunar Orbiter images, the evidence points to shifting tectonic plates as the source of this incredible feature.

March 28, 2010 – Tonight the Moon will look nearly full and it is a good time to spot yet another lunar asterism, “The Rabbit in the Moon.” Since the dawn of mankind, we have been gazing at the Moon and seeing fanciful shapes in large lunar features. Tonight, as the Moon rises, is your chance to catch a lunar challenge – “The Rabbit in the Moon.” The “Rabbit” is a compilation of all the dark maria. The Oceanus Procellarum forms the “ear” while Mare Humorum makes the “nose.” The “body” is Mare Imbrium and the “front legs” appear to be Mare Nubium. Mare Serenitatis is the “backside” and the picture is complete where Mare Tranquillitatis and Mare Fecunditatis shape the “hind legs” with Crisium as the “tail.” See the Moon with an imaginative mind and new eyes — and find the “Rabbit.” It’s already out of the hat and in the heavens..

Return to landmark crater Grimaldi and we’ll continue our journey of lunar evolution as we have a look at another walled plain just to the south – Darwin. Named for English naturalist Charles Darwin, this equally old feature bears the scars of the impact the created the Orientale Basin. Look carefully at the slopes in the northeast, for this may very well be material that was thrown there and left to slide back down to the crater floor. Spanning around 130 kilometers in diameter, Darwin’s actual size is only diminished by the fact that we view it on a curve. Its northern and southern shores have almost completely eroded, yet evidence remains of its eastern margin broken by the Rima Darwin which stretches for 280 kilometers. Was there lava here as well? Yes. Evidence still exists in the form of a dome along Darwin’s battered western edge. If the lighting is right, look at the western edge of Darwin for the Montes Cordillera. This is the external mountainous ring of Mare Orientale, and they could range as long as 545 miles in length, 182 miles in width and 18,200 feet in height. Many of the summits reach as much as 5000 feet! Talk about joining the mile high club…

Let’s continue our studies by using an unmistakable landmark feature to help guide us to interesting points on the lunar surface. Even small binoculars will reveal the outstanding presence of crater Tycho with its bright ejecta pattern splashing across the surface. Look closely at one of the brightest of the rays, for it passes over Mare Nubium—the Sea of Clouds. This exceptionally dark, irregular plain stretches out over 563 by 464 kilometers and has many areas worth exploring – but power up on Tycho.

Named for Danish astronomer, Tycho Brahe, this fantastic impact crater is very impressive in even the most modest of optical aids. Spanning 85 km, this lunar feature will be very prominent and unmistakable in the southern hemisphere of the Moon. Tycho’s highly conspicuous ray system supports its origin as an impact crater. The rays span hundreds of kilometers across the lunar surface. Tycho is also one of the youngest of the major features at an astounding age of only 50,000,000 years old! On January 9, 1968 Surveyor 7 – the last lunar robot of its kind – landed quietly at lunar sunrise on Tycho’s slopes. Because previous Surveyor missions provided the Apollo program with all data necessary for manned missions, Surveyor 7’s presence was scientific only. Two weeks later, when the Sun set on the landing site, Surveyor 7 had provided over 21,000 photographs, determined physical and chemical properties associated with the Southern Highland area, and detected laser beams aimed at it from two separate Earth observatories.

Look closely at the bright ray of material thrown across its dark floor from the impact that caused Tycho. It is easy to see that it is laid “over” the surface of the lava flow and this is an important clue to the age of lunar features. One of these rays crosses the Apollo 17 landing site 2000 kilometers from Tycho itself and may have caused a landslide from the mountains where the astronauts sampled. This suggests that Tycho is about 100 million years old. While this might seem like a great age, the Sea Of Clouds could be between 3 to 4 billion years old. Once upon a time, an impact formed its basin as well. Thanks to the Moon’s lack of atmosphere, the lava flow quietly filled the basin and left it as we see it tonight.

Until next week? “Lunatic fringe… We know you’re out there.”

This week’s awesome images are (in order of appearance): Nathaniel Bowditch (historical image), 11 Day Moon courtesy of Peter Lloyd, Mersenius courtesy of Damien Peach, John Pierce (historical image), Grimaldi from the Lunar Orbiter courtesy of NASA, Hansteen and Sirsalis Rille courtesy of Damien Peach, Thirteen Day Moon courtesy of Peter Lloyd, Darwin and Tycho courtesy of Damien Peach and Tycho Rays courtesy of Roger Warner. We thank you so much for sharing!