• Mystery meteor shower disappoints skywatchers, but wait till next year

    Thomas Ashcraft via Vimeo

    New Mexico skywatcher Thomas Ashcraft captured this view of what appears to be a Gamma Delphinid fireball. Click on the image to watch the video on Vimeo, or watch the embedded version below.

    By Alan Boyle, Science Editor, NBC News

    Skywatchers were hoping for a fireworks show from the Gamma Delphinid meteor shower early Tuesday, but what they got were merely a few snaps, crackles and pops. That's not totally surprising, because some experts said in advance they weren't sure whether the meteor shower actually existed.

    "I think it exists," Bill Cooke of NASA's Meteoroid Environment Office told NBC News, "but there was certainly no outburst last night."

    Cooke, who's based at NASA's Marshall Space Flight Center in Alabama, said "a few people" in Colorado reported sightings of meteors apparently emanating from the double star Gamma Delphini. That assessment was seconded by Robert Lunsford of the American Meteor Society, who said the typical observation "mentioned none or perhaps one Gamma Delphinid being seen" along with several other random meteors.

    One observer in New Mexico, Thomas Ashcraft, captured an impressive video of what he said was a probable Gamma Delphinid fireball. Other skywatchers posted their pictures to the Meteorobs discussion forum. But the display was nothing like the outburst reported on June 11, 1930. Astronomers had hoped that something similar would be seen late Monday and early Tuesday, because Earth was traveling through what should have been the same field of cosmic debris.

    "It was a very minor shower — but that's why we look, right?" Cooke said.

    The next significant event on the shooting-star schedule is the always-reliable Perseid meteor shower, which peaks on the night of Aug. 11-12. But the biggest meteoric mystery surrounds what will happen on May 23-24, 2014. That's when Earth is due to make its first orbital trip through the stuff left behind by Comet 209P/LINEAR (2004 CB).

    "We've never seen meteors from this one before," Cooke said. The apparent point of origin for the meteor streaks, known as the radiant, will be in the northern constellation Camelopardalis.

    The peak time is expected to come somewhere between 2 and 5 a.m. ET on May 24, and some experts are speculating that the meteor count could range upwards of 400 flashes an hour. Astronomers Peter Jenniskens and Esko Lyytinen, who sounded the alert about the Gamma Delphinids, say there's a chance that next May's shower could turn into an honest-to-goodness meteor storm. They're calling for more observations of Comet 209P to determine whether multiple streams of debris will come together in 2014.

    Will there be fireworks from the 209P-ids, or the Camelids, or whatever this new meteor shower ends up being called? Or will it turn out to be another disappointment? Wait till next year!

    Probable Gamma Delphinid Fireball June 11, 2013 from Thomas Ashcraft on Vimeo.

    More about meteors:

    Alan Boyle is NBCNews.com's science editor. Connect with the Cosmic Log community by "liking" the log's Facebook page, following @b0yle on Twitter and adding the Cosmic Log page to your Google+ presence. To keep up with Cosmic Log as well as NBCNews.com's other stories about science and space, sign up for the Tech & Science newsletter, delivered to your email in-box every weekday. You can also check out "The Case for Pluto," my book about the controversial dwarf planet and the search for new worlds.

  • Watch for the comeback of Gamma Delphinid meteors after 83 years

    NASA via NBC News

    A meteor crackles in the night sky. Will the Gamma Delphinids produce sights like this?

    By Alan Boyle, Science Editor, NBC News


    The Gamma Delphinid meteor shower hasn't made a splash since 1930 — but astronomers say this just might be another big year for the outburst, due to Earth's changing orbital path.

    If the outburst comes, it's expected to last for about a half-hour starting at 4:28 a.m. ET Tuesday, according to Peter Jenniskens and Esko Lyytinen, who specialize in comets and meteor tracking. That would be prime viewing time for observers in the Americas and points as far west as Hawaii. But don't get your hopes up too high.

    "No one knows the strength of this display, or whether it will occur at all," Robert Lunsford of the American Meteor Society says in his preview.

    On the evening of June 11, 1930, observers reported seeing a flurry of meteor activity even amid the glare of the full moon — but there's not been a repeat of the display since. That led some experts to question whether the original reports were authentic. Jenniskens and Lyytinen think that they were, and they have determined that our planet should be going through the same region of its orbit on Tuesday. If a long-period comet left behind the type of cosmic grit that sparks shooting stars in the upper atmosphere, we should be seeing a similar display this June 11.

    The meteors would appear to radiate from the double-star gamma Delphini, which will be high in the southern sky for East Coast observers around 4:30 a.m. Lunsford advises beginning your night's watch a couple of hours before that, just in case the outburst comes early.

    "This is not something one can stand outside and try to witness," he says. "Serious observers should be comfortable in a lounge chair and watch for at least an hour. I would not expect strong rates such as that occurred with the Leonid outburst near 2000. Rather, these meteors are more likely to appear a minute or two apart."

    NASA

    This chart indicates the area of visibility for Gamma Delphini, the double star that is considered the radiant for a meteor shower that may or may not occur on June 11. The green and yellow colors indicate how high the radiant will be in the sky at the expected time of maximum meteors, around 4:30 a.m. ET (08:30 GMT).

    While you're waiting, you can click into an online chat with Bill Cooke of NASA's Meteoroid Environment Office at Marshall Space Flight Center from 11 p.m. to 3 a.m. ET. The chat page will also feature streaming video from a telescope monitoring the skies over Huntsville, Ala., in Marshall's neck of the woods.

    If you snap a picture of the Gamma Delphinids, please share it with us via NBC News' FirstPerson photo upload page — and be sure to tell the American Meteor Society, too. You can use the AMS online report form or send a note to lunro.imo.usa@cox.net. "Even reports with no activity will help," Lunsford says.

    More about meteors:

    Alan Boyle is NBCNews.com's science editor. Connect with the Cosmic Log community by "liking" the log's Facebook page, following @b0yle on Twitter and adding the Cosmic Log page to your Google+ presence. To keep up with Cosmic Log as well as NBCNews.com's other stories about science and space, sign up for the Tech & Science newsletter, delivered to your email in-box every weekday. You can also check out "The Case for Pluto," my book about the controversial dwarf planet and the search for new worlds.

  • Memorial Day planet parade: See Jupiter, Mercury and Venus

    The bright triangle of light formed by Venus, Mercury and Jupiter will brighten the sky this weekend. NBC's Ann Curry reports.

    By Joe Rao, SPACE.com

    A trio of bright planets is shining together in the sunset sky, a must-see night sky sight for stargazers this Memorial Day weekend.

    Three planets — Jupiter, Venus and Mercury — can be now be seen in the western sky at dusk, weather permitting, in a rare and beautiful gathering that changes from night to night. Astronomers call a meeting of objects in the night sky a conjunction, but this planet parade is better described as a "Grand Conjunction."

    The brightest of the three planets is dazzling Venus, of course. Jupiter and fainter Mercury will also be very close by. All the action is taking place low in the west-northwest sky about 45 minutes to an hour after sunset where, over a span of a week, the three planets will seem to perform slow acrobatics; some might go so far as to call it a celestial pas de trios (French for a ballet of three), low in the evening sky. All three planets will be readily visible to the naked eye, but binoculars will certainly enhance the view. [Amazing Night Sky Photos of May 2013 (Gallery)]

    Planets on parade
    From Friday to Tuesday, Jupiter, Mercury and Venus will fit within a 5-degree circle — small enough to fit inside the bowl of the Big Dipper — an unusual configuration called a "trio."  The planets will appear closest together on May 26, when they are separated by less than 2.5 degrees. For comparison, your closed fist held out at arm's length covers about 10 degrees of the night sky.

    Here is a chance to see for oneself that nearby solar system objects generally seem to move faster than more distant ones. Friday night, after darkness falls, we'll have a planet configuration in Taurus the Bull consisting of Mercury (109.5 million miles), Venus (153.3 million miles), and Jupiter (563.4 million). The motions of Mercury and Venus can be detected with the naked eye from one night to the next, but Jupiter's travel against the background stars is not very noticeable in even a week. [Jupiter, Venus & Mercury Get Together (Video)]

    Also during the next few weeks we'll be treated to an exceptionally favorable elongation of Mercury for Northern Hemisphere observers. The planet's angular distance from the sun will reach a maximum of 24 degrees on June 12, about 4 degrees less than the greatest possible. 

    Plan your planet conjunction watch
    Here are some key local dates of events for skywatchers viewing at dusk in North America. You can see a video of the three planets' path here as they move across the night sky.

    May 24: Mercury appears 1.4 degrees above Venus; Jupiter sits 4 degrees to their upper left.

    May 26: This is the evening that the planet trio is tightest together — all three fit within a circle less than 2.5 degrees wide. They form a triangle with Mercury at the top, Jupiter at the lower left corner and Venus at the lower right. The Venus-Jupiter and Venus-Mercury gaps are both almost exactly 2 degrees. And Mercury is in conjunction with Jupiter, the pair separated by 2.4 degrees.

    May 28: The two brightest planets, Venus and Jupiter are closest together, separated by just one degree (equal to the apparent width of two full moons). In the days leading up to now, Jupiter closes in on Venus from the upper left. This evening, Jupiter appears below and to the left of Venus and in the evenings that follow, then heads on down toward the glow of sunset. Jupiter's brightness easily rivals Sirius, the brightest star in the night sky, yet shines only one-sixth as bright as Venus. Even though Jupiter is on the far side of the sun and about as small as it ever appears, in a telescope it still shows the largest disk of any planet. Meanwhile, Mercury shines more than 3.5 degrees above Jupiter.      

    May 31: The three planets are now separating and going their separate ways; Jupiter sinking lower while Venus and Mercury edge higher up. All three are now stretched out and equally spaced in a diagonal line from upper left to lower right, spanning 8 degrees. Mercury is the highest, Venus is in the middle and Jupiter is down at the lower right.

    Sky & Telescope

    Mercury, Jupiter and Venus appear close together in the sky, May 24-26, 2013.

    Planets compared
    Consider some of the interesting contrasts between these three worlds:

    Mercury is the smallest and closest planet to the sun; a rocky world with a surface very similar in appearance to that of the Moon, showing extensive basaltic-like plains and heavy cratering, indicating that it probably has been geologically inactive for billions of years.

    Venus has often been referred to as our "sister" planet in terms of size, but is so shrouded in a thick atmosphere of carbon dioxide that its brilliance in our sky is largely due to its high reflectivity (about 76 percent). Thanks to that thick cloud blanket Venus is also the hottest planet, with temperatures of up to 872 degrees F (467 degrees C).

    Jupiter is an entirely different kind of planet. It is the largest in our solar system and enveloped in a thick dense atmosphere composed chiefly of hydrogen and helium, and is icy cold (minus 234 degrees F or minus 145 degrees C). Ordinarily it appears second only to Venus in brightness, its remoteness being compensated by its great size. Its surface area is about 130 times that of Venus. It makes one wonder just how the ancient Romans decided to name Jupiter after the chief of the gods, although they knew nothing concerning the planet’s physical characteristics.

    After the planets depart
    As we transition from May into June, Mercury will be fading steadily, experiencing an 11-fold decrease in brightness in less than a month. As a consequence, this so-called "elusive planet" will be far easier to spot during this upcoming week when it will be brighter as well as setting about 1.5 hours after the sun as seen from mid-northern latitudes.

    Friday, May 31, may very well be the last evening Jupiter will be readily visible for most observers. In the days that follow, the combination of low altitude and the bright evening twilight will team up to effectively hide it from our view until it reappears in the morning sky early in July.

    As for Venus, it will slowly become easier to see in the western evening sky, but the operative word is slowly." Not until early September will Venus set until after the end of twilight and it’s saving it best showing for late November and early December when it will be more than twice as bright as it is now and will be setting three hours after the sun.      

    Editor's note: If you snap an amazing picture of the three planets or any other night sky view that you'd like to share for a possible story or image gallery, send photos, comments and your name and location to Managing Editor Tariq Malik at spacephotos@space.com.

    Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York. Follow us on Twitter, Facebook and Google+. Original article on SPACE.com.

    Copyright 2013 SPACE.com, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

  • See this celestial show now or wait a decade

    Sky & Telescope

    Mercury, Jupiter and Venus appear close together in the sky from Thursday to Sunday.

    By Mike Wall
    Space.com

    Three planets are coming together in the evening sky at the moment, putting on a celestial show that won't be seen again for more than a decade.

     

    Jupiter, Venus and Mercury are gathering low in the west-northwest evening sky, and next week they'll form the tightest grouping of three naked-eye planets that skywatchers will see until 2026, experts say.

    "Here’s a beautiful chance to see three planets all together," Alan MacRobert, a senior editor at Sky & Telescope magazine, said in a statement. "Add the Earth under your feet, and you’re seeing half of the solar system’s planets at once. They’ll be a lovely part of the spring twilight." [Skywatching Events for May 2013]

     

    "The view should be best about 30 to 45 minutes after sunset," MacRobert added. "And think photo opportunity. Set up a camera on a tripod, zoom to the max, and try different time exposures."

    Venus and Jupiter are the two brightest planets in the solar system. They've been approaching each other in the evening sky for weeks, and faint Mercury is now joining them, appearing below and to the right of Venus.

    By Friday, all three planets will fit into a circle 5 degrees wide, Sky & Telescope officials said. (Your clenched fist held at arm's length measures about 10 degrees.)

    Star Date Magazine

    The two brightest planets, Venus and Jupiter, will help you find a fainter one, Mercury, as all three shine together in the western twilight about half an hour after sunset Saturday and for a few days after.

    But the trio will draw closer still. By Sunday, they'll all fit inside a 2.5-degree circle — meaning your thumb held at arm's length will nearly blot them all out.

    Jupiter and Venus will sit side-by-side Monday evening, and then the solar system's largest planet will start sliding lower and lower in the sky, disappearing completely in early June.

    Meanwhile, Venus will shine brightly as the "Evening Star" for the rest of the year. But as Jupiter falls, Mercury soars, climbing higher and higher above Venus in its best evening apparition of 2013, according to Sky & Telescope. Mercury's rise peaks on June 7, after which it will start sinking back toward the horizon, fading all the while.

    Mercury is the solar system's innermost planet. Because of its proximity to the sun, Mercury is rarely in view for more than an hour after sunset or an hour before dawn. The tiny planet can be tough to see, but its current grouping with celestial landmarks Venus and Jupiter should help skywatchers out. 

    While the three planets appear tightly grouped in our night sky, in reality they're very far away from each other. During the last week of May, Mercury, Venus and Jupiter will be about 105 million miles (169 million kilometers), 150 million miles (241 million km) and 565 million miles (909 million km) away from Earth, respectively, Sky & Telescope officials said.  

    Late May also offers up another skywatching treat. On Saturday, viewers with clear skies across much of the Americas and Africa will see a penumbral lunar eclipse, in which the moon darkens as it passes through the outer part of Earth's shadow (known as the penumbra). 

    Editor's note: If you snap an amazing picture of the three planets or any other night sky view that you'd like to share for a possible story or image gallery, send photos, comments and your name and location to Managing Editor Tariq Malik at spacephotos@space.com.

    Follow Mike Wall on Twitter @michaeldwall and Google+. Follow us @Spacedotcom, Facebook or Google+. Originally published on Space.com.

    Copyright 2013 Spacecom, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

  • How to see Jupiter shine near the moon Sunday

    Starry Night Software

    This sky map shows the location of Jupiter and the moon in the night sky on Sunday, April 14, at 10 p.m. local time to observers at mid-northern latitudes.

    By Joe Rao, SPACE.com

    If the weather is clear on Sunday night, you can catch a potentially amazing sight: the planet Jupiter snuggling close to a thin crescent moon.

    The celestial encounter will be visible in the western sky around mid-twilight, about an hour after sunset. At that time, the moon will be shining about one-third of the way up from the western horizon. It should be an eye-catching sight, with a slender sliver of a crescent moon shining right next to a bright star-like object — the bright planet Jupiter. 

    Jupiter will appear to be about 3 degrees from the crescent moon. To understand how far apart they will appear in the sky, recall that your clenched fist held out at arm's length will measure 10 of those degrees. So you can use your fist to make a reasonable estimate of degrees either horizontally or vertically. 

    In this case, Jupiter and the moon will appear rather close together; just one third of a fist apart. And partly because they will be the two brightest objects in the sky and partly because of their relatively close proximity to each other, both the moon and Jupiter will likely attract the attention of even those who aren’t consciously looking up at the sky. [Amazing April Night Sky Photos by Stargazers]

    As the evening progresses, Jupiter and the moon will appear to descend down the sky, finally disappearing beyond the west-northwest horizon soon after 11:30 p.m. your local time.

    Jupiter is still the brightest starlike object in the evening and the first to come out each night at dusk. It outshines the brightest true stars. In fact, it even rivals the brightest of all the stars, Sirius, which in early evening sparkles low in the southwest sky. When you are observing Jupiter, note how the planet shines with serene steadiness while Sirius, twinkles vigorously, as if struggling to match Jupiter's glory.

    During April, Jupiter will slowly slip farther down into the glow of evening twilight in the west-northwest. And in about another month Jupiter will be setting right around the time evening twilight ends.  

    This month, Jupiter is falling far behind Earth in the never-ending planetary race around the sun and it continues to move slowly eastward among the stars. Currently it can be found between the horns of the constellation Taurus the Bull. 

    Because Jupiter takes nearly 12 years to orbit the sun, it spends about a year in each of the 12 zodiacal constellations. Jupiter moved into Taurus in mid-May of 2012 and will exit Taurus and move into Gemini the Twins late in June.

    Editor's note: If you have an amazing picture of Jupiter and the moon or any other night sky view that you'd like to share for a possible story or image gallery, send photos, comments and your name and location to managing editor Tariq Malik at spacephotos@space.com.

    Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York. Follow us @Spacedotcom, Facebookand Google+. Original article on SPACE.com.

    Copyright 2013 SPACE.com, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

  • Ring in some great views of Saturn

    NASA

    NASA's Cassini mission has captured many views of the ringed gas giant Saturn -- you can too with a modest-sized telescope.

    By Mark Thompson
    Discovery News

    We have enjoyed some incredible views of Jupiter over the last few months, and many people have been amazed at the giant planet's detail that can be seen through a modest telescope.

    Well, now it's time to turn your sights to the second-largest planet in the solar system: Saturn. It is most famous for its incredibly beautiful ring system, but there is plenty more to see if you know what to look for.

    A good place to start is to know where to look! Saturn rises in the east about 2.5 hours after sunset at the start of April but rises just before sunrise by the end of the month.

    It's quite easy to spot, too -- it can be seen to the southeast of the bright star Spica in Virgo by around 15 degrees (just over the width of your fist held at arm's length). Along with Spica, it forms a triangle to the north east with Arcturus, the bright orange star in the constellation of Bootes.

    Analysis: Hidden moons lurk in Saturn's rings

    Once you have found Saturn you will notice that it has a distinctly pale yellow color, which is due to the presence of high quantities of ammonia in its atmosphere. A magnification of at least 20x is needed to be able to show the rings distinctly, so even a bird-watching telescope should give great views.

    The ring system of Saturn is not unique in our solar system since Jupiter, Uranus and Neptune all have them. All planetary ring systems are made up from countless trillions of pieces of dust, ice and rock in orbit around the planet.

    By increasing your telescope's magnification, and assuming the sky conditions are good, you can pick out gaps in the rings like the famous Cassini Division discovered by Jean-Domenique Cassini in 1675. The gaps in the rings are plentiful although only a few are visible from Earth, but are all the result of the presence of small moons keeping the gaps free from ring debris.

    Cassini's Christmas gift: In the shadow of Saturn

    Along with the lumps of rock in the rings, Saturn has some 60 moons in orbit around it and, depending on your telescope, six are within the range of amateur instruments.

    By far the easiest to spot is the largest moon Titan shining at magnitude 8 but Rhea, Tethys and Dione are all worthy targets for small telescopes.

    Owners of large telescopes might also be able to spot Iapetus, Enceladus and theoretically Mimas and Hyperion might just be possible. I think I did once glimpse Mimas but it was through a large telescope in exceptional conditions, but frankly I couldn't be too sure.

    Color filters can really enhance the view you have of the planets and in the case of Saturn, you can use violet filters to bring out a little more detail in the ring system and orange or red to enhance features in the atmosphere.

    Before you start observing make sure that your telescope has cooled down properly and that there is no dew forming on your optics. Different telescopes suffer from this in different ways so have a cheap hairdryer handy to blow air onto them to remove the dew. Wait for the rare nights that are clear and really still to get the best views of the planets; often I find the hours after midnight are by far the best as the air has cooled and the atmosphere settled down a little.

    If you can stay up until the small hours you can get some stunning still skies that are ideal for hunting down fine planetary detail. Good luck!

    Copyright 2013 Discovery Channel

  • Predicting comet brightness: Why some of them don't exactly pan out

    Victor C. Rogus

    Astrophotographer Victor C. Rogus sent in a photo of Comet Pan-STARRS taken March 20, 2013, in Jadwin, Mo. He writes: "As I look over my collection of images starting with March 11 until now, I see nightly changes in the comet. The direction of the tail comes to mind first, always away from the sun. Changes in color, at times, and also changes in the size of the coma."

    By Joe Rao
    Space.com

    The newfound Comet ISON has the potential to be one of the brightest ever seen when it streaks through the inner solar system this November, but whether it will live up to the hype is anybody's guess.

    Astronomers have a tough time forecasting the brightness of incoming comets. Ballyhooed "comet of the century" candidates sometimes fizzle out, as Kohoutek did in 1973, while some icy wanderers put on a surprisingly good show for skywatchers.

    Why is it so difficult to predict comet behavior? For starters, comets are like snowflakes — no two are alike.

    Dirty snowballs
    While comets have been called "dirty snowballs," recent observations by unmanned space probes suggest that they may not be too different from asteroids on the outside. Comets appear to have rocky surfaces that in most cases are probably not much more than several miles across. [Amazing Comet Photos of 2013]

    What makes them much different from asteroids, however, is that frozen reservoirs icy material are hidden beneath the crust or contained in fissures and craters that pockmark the surface. 

    Such comet "snow" is composed of ordinary water ice plus frozen ammonia and some other more exotic compounds, with dust grains of different sizes and compositions mixed in. These pools of volatile materials are called "active regions." 

    Comets spend most of their time far out in space, billions of miles from the sun. Out there, the nucleus is completely stable because it’s in a state of deep freeze where temperatures barely hover above absolute zero (minus 460 degrees Fahrenheit, or minus 273 degrees Celsius).  

    But when a comet nears the sun, its frozen gases react to the increasing heat by vaporizing and expanding into a huge tenuous cloud around the nucleus called the coma. The nucleus and the coma make up the head of the comet, which may swell to more than 100,000 miles across.

    It is sunlight that causes the comet's head to shine, in much the same manner that luminous paint reacts to ultraviolet light. The comet’s tail is produced by the solar wind — a thin supersonic breeze of atomic particles blowing from the sun — and the pressure of sunlight, which pushes the gas and dust out ahead of the coma.

    Old versus new
    One clue about how a comet will ultimately perform is whether it’s a "new" comet, making its very first approach to the sun, or whether it’s an "old" one that has zoomed close to our star before. 

    New comets might be covered with a load of very light, volatile material such as frozen nitrogen, carbon monoxide and carbon dioxide. Such ices can vaporize far from the sun, giving a distant comet a short-lived surge in brightness that can raise unrealistic expectations. This happened with ultimately disappointing comets such as Cunningham in 1940, Kohoutek 1973 and Austin in 1990.

    But some new comets live up to the hype. In January 2007, for instance, Comet McNaught became the brightest comet in more than 40 years, eventually becoming luminous enough to be visible in broad daylight.

    Unpredictable!
    Some small, faint comets have suddenly and unexpectedly become incredibly bright literally overnight. In October 2007, Comet Holmes brightened by a factor of 500,000 in less than two days, going from an object visible only with very large telescopes to becoming easily visible to the naked eye. 

    Its sudden flare may have been caused by a buildup of gas inside the comet's nucleus that eventually broke through its surface, astronomers say. Incredibly, this all took place far out in space when the comet was nearly 230 million miles (370 million kilometers) from the sun. Who knew?

    Even the most recent skywatching sight, Comet Pan-STARRS, had some surprises in store. When the comet was discovered in June 2011, forecasts indicated it might get as bright as first or even zero magnitude — in other words, as bright as the brightest stars. 

    Then, it was surmised that the comet was "new" and might possibly lag behind the original optimistic predictions. Until recently, that seemed to be the case; PanSTARRS was running about one-quarter as bright. Some suggested it might not get much brighter than third magnitude, which would be less than half as bright as Polaris, the North Star. 

    Then without fanfare, in late February, it made a surprising comeback, reaching first magnitude as it rounded the sun on March 10.

    Be careful!
    While you might have gotten the idea by now that comets are notoriously bad actors and do not always follow their scripts, I should stress that many of them are well-behaved and do what is expected in a broad sense. Still, caution is advised when reading any predictions of their brightness.

    That brings us back to Comet ISON, which is expected to sweep less than three-quarters of a million miles above the sun’s surface on Thanksgiving Day,  Nov. 28. Already there have been a plethora of articles promoting ISON as the “Comet of the Century.”

    For an interesting analogy, baseball scouts like to catalog the talents of players by looking at five general areas of performance in which one may define potential talent. Great ballplayers can hit for average, hit with power, field, run and throw. [Photos of Comet ISON in Night Sky]

    Similarly, astronomers who catalog potential great comets look at four general areas of performance: comets that closely approach the sun, closely approach Earth, have a favorable projection angle for viewing the tail and high intrinsic brightness. 

    From these criteria, Comet ISON certainly appears to be a "can't miss" prospect, though it is a new comet, which makes it more of a wild card.

    But then again, like countless numbers of young ballplayers who had unlimited potential but failed to make the big leagues, ISON too could falter. 

    It could unexpectedly exhaust all of its volatile material, leaving just a small, dark solid lump to ultimately swing around the sun — meaning we may not see it all. Or perhaps upon passing through the sun’s outer atmosphere and being subjected to a temperature of around 1 million degrees Fahrenheit (555,000 degrees Celsius) or more, the comet nucleus might shatter or disintegrate. 

    The saga of ISON is not yet fully written, and it could still go either way. We’ll keep track of its progress in the weeks and months to come.

    In the meantime, it might be worth ending with an oft-quoted axiom by the legendary comet expert Fred Whipple: “If you must bet, bet on a horse, not a comet!”  

    Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York. Follow us @SpacedotcomFacebook or Google+. Originally published on SPACE.com.

    Copyright 2013 SPACE.com, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

     

  • Comet Pan-STARRS is closest to Sun today: See it at sunset

    Luis Argerich/Nightscape Photography

    Astrophotographer Luis Argerich of Buenos Aires, Argentina, took this photo of Comet Pan-STARRS taken on March 2, 2013. He writes: "Comet Pan-STARRS was visible from about 8:15 pm to 9 pm above the western horizon."

    By Tariq Malik, Space.com

    A comet sailing through the inner solar system make its closest approach to the sun and will be at its brightest at sunset tonight, but the glare of twilight may make it tricky to see, NASA says.

    The Comet Pan-STARRS will be 28 million miles (45 million kilometers) from the surface of the sun when it swings around the star today, and should be bright enough to see without the aid of telescopes or binoculars, weather permitting. But the comet is also appearing low on the western horizon at sunset so some planning is needed to spot the celestial wanderer with the naked eye tonight.

    "Look too early and the sky will be too bright," said Rachel Stevenson, a NASA Postdoctoral Fellow at the agency's Jet Propulsion Laboratory in Pasadena, Calif. "Look too late, the comet will be too low and obstructed by the horizon. This comet has a relatively small window."

    Science@NASA

    The progression of comet Pan-STARRS across the night sky in March 2013 is shown in this NASA graphic.

    A good time to look is about 40 minutes after sunset. The comet may appear as a sort of exclamation point in the evening sky, with the point being the comet itself and its diffuse tail stretching nearly straight up from the horizon, JPL officials added. [How to see the comet]

    Comet Pan-STARRS, officially known as comet C/2011 L4 Pan-STARRS, was discovered in June 2011 by astronomers using the Panoramic Survey Telescope and Rapid Response System (or PAN-STARRS), a telescope atop the Haleakala volcano in Hawaii. The comet takes more than 100 million years to orbit the sun and appears to come from the Oort cloud, a vast halo of comets and icy objects at the outer edge of the solar system.

    While the comet is making its closest pass by the sun tonight, the best views of the object are still to come. NASA scientists said the comet's proximity to the sun may make it too difficult to spot tonight, but that will change over the next few days.

    "As it continues its nightly trek across the sky, the comet may get lost in the sun's glare but should return and be visible to the naked eye by March 12," JPL officials explained. "As time marches on in the month of March, the comet will begin to fade away slowly, becoming difficult to view (even with binoculars or small telescopes) by month's end."

    Astronomy Education Services / Gingin Observatory

    Close-up of comet C/2011 L4 PANSTARRS as seen from Mount Dale, Western Australia.

    And there is another reason to look for comet Pan-STARRS later this week. On Tuesday (March 12), the moon rises into the cosmic display.

    "The comet will be joined in the western sky after dark by the slender crescent moon on March 12, 13, and 14," the editors of StarDate Magazine, a stargazing publication of the McDonald Observatory at the University of Texas. "Good naked-eye views of the comet should continue for several nights, with the comet remaining visible through binoculars into April."

    Comet Pan-STARRS is one of three comets capturing the attention of stargazers this year. The Comet Lemmon C/2012 F6 is currently visible to observers in the Southern Hemisphere and at times was in the night sky at the same time, allowing stargazers to capture rare photos of two comets in the sky together.

    Meanwhile, the Comet ISON is making its way into the inner solar system and could put on a spectacular cosmic display later this year. Officially designated C/2012 S1 (ISON), Comet ISON was discovered in September 2012 by Russian amateur astronomers Vitali Nevski and Artyom Novichonok using a remotely operated International Scientific Optical Network (ISON) telescope.

    Some astronomers have billed Comet ISON as a potential "comet of the century" since it could be brighter than the full moon in daylight when it makes its closest approach to the sun on Nov. 28. At that time, Comet ISON will be much closer to the sun than Comet Pan-STARRS is now. ISON will approach within 800,000 miles (1.2 million km) of the star, making it a true sungrazing comet.

    StarDate Magazine

    The location of Comet Pan-STARRS low in the western horizon in March 2013 is shown in this sky map released by StarDate Magazine, a publication of the McDonald Observatory at the University of Texas.

    Editor's note: If you snap an amazing photo of Comet Pan-STARRS, or any other celestial object, and you'd like to share it for a possible story or image gallery, please send images and comments, including location information, to managing editor Tariq Malik at spacephotos@space.com.

    Email Tariq Malik at tmalik@space.com or follow him @tariqjmalik and Google+. Follow us @Spacedotcom, Facebook and Google+. Original article on SPACE.com.

    Copyright 2013 SPACE.com, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

  • It's time to howl at the Full Wolf Moon

    Slideshow: 50 years of moon shots

    NASA

    Up-close exploration of the moon, Earth's only natural satellite, began in 1959 and hasn't stopped. Take a look at scenes from 50 years of moon exploration.

    Launch slideshow

    By Joe Rao, Space.com

    The first full moon of 2013 will light up the night sky on Saturday night, but did you know it's a full moon of many names?

    Full moon names date back to the Native American tribes of a few hundred years ago, who lived in what is now the northern and eastern United States. Those tribes kept track of the seasons by giving distinctive names to each recurring full moon. Their names were applied to the entire month in which each occurred.

    There were some variations in the moon names, but in general, the same ones were used throughout the Algonquin tribes from New England on west to Lake Superior. European settlers followed their own customs and created some of their own names. Since the lunar (or "synodic") month is roughly 29.5 days in length on average, the dates of the full moon shift from year to year.

    Here is a listing of all of the full moon names, as well as the dates and times for 2013. Unless otherwise noted, all times are for the Eastern time zone:

    Jan. 26, 11:38 p.m. ET —Full Wolf Moon: Amid the zero cold and deep snows of midwinter, the wolf packs howled hungrily outside Indian villages.  It was also known as the Old Moon or the Moon after Yule.  In some tribes this was the Full Snow Moon; most applied that name to the next moon. [Full Moon: Why Does It Happen? (Video)]

    Feb. 25, 3:26 p.m. ET —Full Snow Moon: Usually the heaviest snows fall in this month. Hunting becomes very difficult, and hence, to some tribes this was the Full Hunger Moon. 

    March 27, 5:27 a.m. ET —Full Worm Moon: In this month the ground softens and the earthworm casts reappear, inviting the return of the robins. The more northern tribes knew this as the Full Crow Moon, when the cawing of crows signals the end of winter, or the Full Crust Moon, because the snow cover becomes crusted from thawing by day and freezing at night. The Full Sap Moon, marking the time of tapping maple trees, is another variation. [Phases of the Moon in 2013: A Lunar Calendar]

    In 2013, this is also the Paschal Full Moon  the first full moon of the spring season. The first Sunday following the paschal moon is Easter Sunday, which indeed will be observed four days later on Sunday, March 31.

    April 25, 3:57 p.m. ET — Full Pink Moon: The grass pink or wild phlox is one of the earliest widespread flowers of the spring. Other names were the Full Sprouting Grass Moon, the Egg Moon and — among coastal tribes — the Full Fish Moon, when the shad come upstream to spawn. The moon will also undergo a very slight partial lunar eclipse, which will be visible from the Eastern Hemisphere, but not from North America. At its peak, less than 1.5 percent of the moon's diameter will be immersed in Earth’s umbral shadow; a very underwhelming event, to say the least.

    May 25, 12:25 a.m. ET — Full Flower Moon: Flowers are now abundant everywhere. It was also known as the Full Corn Planting Moon or the Milk Moon. The moon will also undergo a penumbral lunar eclipse, but the passage of the moon's disk into Earth's shadow will result in one of the slightest eclipses of all, administering a mere touch of penumbral shadow at the northernmost part of the lunar limb.

    June 23, 7:32 a.m. ET — Full Strawberry Moon: Strawberry-picking season peaks during this month.  Europeans called this the Rose Moon. The moon will also arrive at perigee only 32 minutes earlier, at 7 a.m. ET at a distance of 221,824 miles (356,991 kilometers) from Earth. So this is the biggest full moon of 2013. Very high ocean tides can be expected during the next two or three days, thanks to the coincidence of perigee with the full moon. 

    July 22, 2:16 p.m. ET— Full Buck Moon: Named for when the new antlers of buck deer push out from their foreheads in coatings of velvety fur. It was also often called the Full Thunder Moon, thunderstorms now being most frequent. Sometimes it's also called the Full Hay Moon.

    Aug. 20, 9:45 p.m. ET — Full Sturgeon Moon: This large fish of the Great Lakes and other major bodies of water like Lake Champlain is most readily caught at this time. A few tribes knew it as the Full Red Moon, because when the moon rises it looks reddish through a sultry haze. It was also known as the Green Corn Moon or Grain Moon.

    Sept. 19, 7:13 a.m. ET — Full Harvest Moon: Traditionally, this designation goes to the full moon that occurs closest to the autumnal (fall) equinox. The Harvest Moon usually comes in September, but (on average) once or twice a decade it will fall in early October.  At the peak of the harvest, farmers can work into the night by the light of this moon. 

    Usually the moon rises an average of 50 minutes later each night, but for the few nights around the Harvest Moon, the moon seems to rise at nearly the same time each night: just 25 to 30 minutes later across the U.S., and only 10 to 20 minutes later for much of Canada and Europe. Corn, pumpkins, squash, beans and wild rice — the chief Indian staples — are now ready for gathering.

    Oct. 18, 7:38 p.m. ET — Full Hunters' Moon: With the leaves falling and the deer fattened, it's now time to hunt.  Since the fields have been reaped, hunters can ride over the stubble, and can more easily see the fox, as well as other animals, which can be caught for a Thanksgiving banquet after the harvest. 

    A penumbral lunar eclipse will also take place. Perhaps for some minutes centered on the time of greatest eclipse (7:50 p.m. ET) the penumbra might be marginally detectable over the moon’s southernmost limb, for at that moment the penumbral magnitude will reach 76.5 percent.  Those living across the eastern half of North America might see some evidence of this faint penumbral shading soon after local moonrise.

    Nov. 17, 10:16 a.m. ET —Full Beaver Moon: At this point of the year, it's time to set beaver traps before the swamps freeze to ensure a supply of warm winter furs. Another interpretation suggests that the name Beaver Full Moon came from the fact that the beavers are now active in their preparation for winter. It's also called the Frosty Moon.

    Dec. 17, 4:28 a.m. ET — Full Cold Moon: On occasion, this moon was also called the Moon Before Yule. December is also the month the winter cold fastens its grip. Sometimes this moon is referred to as the Full Long Nights Moon, and the term "Long Night" Moon is a very appropriate name because the nights are now indeed long and the moon is above the horizon a long time. This particular full moon makes its highest arc across the night sky because it's diametrically opposite to the low sun. 

    Space.com skywatching columnist Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York. 

    © 2013 Space.com. All rights reserved. More from Space.com.

  • See Saturn in cosmic triangle early Sunday

    Starry Night Software

    This sky map shows the location of Saturn and the moon in the night sky at 3 a.m. local time on Sunday, Jan. 6, 2013, for observers at mid-northern latitudes.

    By Joe Rao, SPACE.com

    Skywatchers who are out and about after 3 a.m. local time Sunday, Jan. 6 will have an interesting celestial array to admire. Three heavenly bodies will come together to form a stretched-out and inverted triangle low in the east-southeast sky. 

    The planet Saturn will shine sedately with a yellowish-white glow well to the left of the moon, which will be a waning crescent about 36 percent illuminated. Hovering well above and to the right of the moon will be the bright bluish star Spica, in the zodiacal constellation of Virgo. 

    The moon appears to pass Spica every month, but over the past couple of years Saturn has been relatively nearby too. So we have been calling this monthly assemblage tin the night sky the "Saturn Triangle."

    This weekend, the Saturn Triangle will be isosceles — that is, possessing two sides of equal length. The moon will be 10 degrees away from both Saturn and Spica in the sky. (Your clenched fist held at arm's length measures roughly 10 degrees.)

    The side of the triangle from Saturn to Spica (the base) will measure a much longer 18 degrees. The moon will mark the vertex angle.

    By around 5:30 a.m. Sunday, just as dawn is about to break, the trio will have moved to a point about one-third up in the sky toward the south-southeast.  But the appearance of this celestial triangle will also have changed.  

    Saturn is currently 935 million miles from Earth and will not change its position noticeably relative to the background stars during the course of a single night.

    But the moon is only 229,800 miles away and as a result will shift its position to the east during the course of the night. In fact, the moon appears to move east against the background stars at roughly its own apparent width (0.5 degrees) per hour. 

    So, only 2.5 hours after the triangle’s first appearance, the moon will have appeared to move about 1.25 degrees farther away from Spica, placing it noticeably closer to Saturn.

    If you have a telescope, check out Saturn's rings. Back in the late summer of 2009, Saturn’s rings were all but invisible to us because they were turned nearly edge-on toward Earth.  Now, however, they are tilted 19 degrees toward us and are readily seen with magnifications of 30 power and up.

    Editor's note: If you snap an amazing photo of Saturn and the moon, or any other night sky view, and would like to share it with SPACE.com, send images and comments, including name, location and equipment used to managing editor Tariq Malik at spacephotos@space.com.

    Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for TheNew YorkTimesand other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York.Follow SPACE.com on Twitter @Spacedotcom. We're also on Facebook & Google+.

    © 2012 Space.com. All rights reserved. More from Space.com.