Surprise Comet Streaks Into Solar System

National Geographic Society. All rights reserved ^

[djf]

Astronomers have received a holiday bonanza in the form of the arrival of a previously unknown comet that has entered our part of the solar system. The comet was discovered by a Japanese amateur astronomer, Tetuo Kudo, early on the morning of December 14, said Clay Sherrod, an astronomer with the Arkansas Sky laboratory.

"In mid- to late-January the comet will be favorably placed for early risers in the northern hemisphere and will probably be visible to the naked eye, at least toward the end of that month," Sherrod said. "Certainly binoculars will aid in spotting the comet and exposing any tail that it might show."

Named Kudo-Fujikawa (and officially designated C/2002 X5), the comet is moving east-southeast through the constellation Hercules.

Halley's comet orbits the Earth every 76 years, and its next scheduled visitation is in 2061. Astronomers hope that the newly discovered comet, C/2002 X5 Kudo-Fujikawa, will provide an equally impressive show for viewers here on Earth.

Photograph copyright Stocktrek/CORBIS

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"The comet is a swift-moving object and currently is easily visible in the northeastern skies during pre-dawn hours, showing a pretty distinct tail and large coma (head or halo, caused by the emanation of gases and other materials as the comet warms up on its approach to the sun). The tail appears to be slightly less than one-half degree and several spikes in this tail have been recorded (on December 15) by imagers in New Mexico," Sherrod said.

The jury is still out regarding just what kind of show Kudo-Fujikawa would provide Earth-based viewers when it is closest to the sun, but there is a prospect that it would be a "textbook comet," Sherrod said. "However, the visibility during its greatest brilliance…will be greatly hampered because of the comet's angle of approach to the sun and the Earth-sun-comet positioning during that period."

Towards the end of January, the comet will be approaching the sun and swinging behind it from Earth's vantage point, thus getting lower and lower each successive morning into early February.

"In February the comet will be more favorably placed for observers in the southern hemisphere, and there are some estimates that suggest that the comet could attain a brightness equal to the bright planet Venus (a magnitude of less than 4)," Sherrod said.

Magnitude is a measure of brightness used by astronomers. The lower the magnitude value of an object, the brighter that object is.Objects that shine with a magnitude of less than 6 are usually visible with the naked eye. Kudo-Fujikawa is currently being seen at a magnitude of between 7 and 8.

Much of what Earth will be able to see of Kudo-Fujikawa is contingent on the activity that occurs when it is closest to its pass by the sun (perihelion) on January 28, 2003, Sherrod said. At that point it will be only 16 million miles (25 million kilometers) from the sun. The average distance of the Earth from the sun is 93 million miles (150 million kilometers).

"The retrograde orbit (meaning the comet is coming in at an opposite direction in relation to the orbits of the primary planets) of this comet and its close pass from the sun at that time have suggested to many, myself included, that the comet might potentially break up from solar radiation and solar wind. If this does indeed occur, then we might expect more volatile activity from this object than if it passes perihelion totally intact and unscathed.

"Now, if this does happen, then we might expect an incredible comet to be visible as the inner, more volatile and rare gases are exposed to solar radiation," Sherrod said.

For more precise instructions of how to find the comet—and Sherrod's regular updates on its progress—please visit the Arkansas Sky Observatory.

[kayak]

FYI

[Right Wing Professor]

SW Lancaster County, 25 miles from Lincoln. The skies are plenty dark here, except for the orange glow on the northern horizon. I can see 6th magnitude stars and the andromeda galaxy without difficulty with the naked eye.

[ChemistCat]

I'm wondering too. My viewing will be limited to online, as my retinas don't allow me to see much through 'scopes anymore. So I'm hoping someone will be able to post some pictures to this thread by and by.

[LibWhacker]

Wow, thanks for this url, too! :-) Bookmarked it.
Helios 150mm (6"!!!) binocs, magnification up to 200x, $7295. Much less expensive than the Fujinon 25x150 binocs ($16,500). Of course, if one of the world's best comet hunters uses 20 x 120 binocs, we can be sure it's for a darned good reason -- like maximizing the field of view given the magnification. In any event, that new $600 10" dob from Orion is looking better to me all the time! With my old eyes, the more light the better.

[LibWhacker]

Lucky! I can't even see Andromeda with my 11x80 binoculars I paid a relative fortune for ages ago. We're totally washed out here in Sacramento County.

[Right Wing Professor]

We're totally washed out here in Sacramento County.

On the other hand, it isn't 15 F at 6 a.m. when you shuffle out in your bathrobe and slippers to look for comets. Took me two hours and about a gallon of coffee to warm up.

[Right Wing Professor]

You ought to look into something with a CCD and LCD screen. My wife (bless her heart) gave me a Nikon Coolpix 4500 for Christmas. I simply set it on the picnic table pointing it at the sky, set the exposure for 8 seconds and f3.0, and got a picture of Orion with stars down to mag. 6, right on my laptop (OK, I played a little with the image to boost detection of faint stars). I've been playing with a spotting scope, and can get virtually instant pictures of the Galilean satellites. It's staggering how good even comparatively cheap digital cameras are these days.

[steveo]

nice rack

[LibWhacker]

It's staggering how good even comparatively cheap digital cameras are these days.

Indeed it is. I saw a picture the other day that was taken with a digital camera, and I couldn't believe how good it was. Not too many years ago, they were overpriced and hardly worth considering.

[MHGinTN]

Robert M. Schoch, Ph.D. He's the geophysicist from Boston University who dated the weathering of the Sphinx to 10,000 years ago. Uh, dated to at least 10,000 years ago. The last time copious amounts of rain water fell on the giza palteau would have been approaching the end of the last ice age, and thus further back than the end. The position of constellation Leo on the pre-dawn horizon in front of/the direction of gaze for the sphinx (because of precession) is one of the more telling clues presented by John A. West, Schoch, and Bauval. I'm betting the sphinx was originally carved more than 10,000 years ago, then recarved by the Pharoah who's face/head appears on it now. West feels that the original head would have been a lion.

[PoorMuttly]

Well, it happened again, and I know I promised. I just can't get used to these "socially responsible" trigger locks. I was hoping nobody's notice, but you guys don't miss much...except for...oops...forget I said that.

Where's "DELETE"...oh..here it is

[blam]

"West feels that the original head would have been a lion."

Yup. I saw all this on a one hour documentary.

[lneisone]

I have been collecting comets as well. Your post about the 70's reminds me of Kahoutek (sp) which i saw from Negril Jamaica. I also saw Halleys from Machu Pichu.

I use my homemade 8" reflector for some of the lessor comets, but binoculrs are usually the best.

[LibWhacker]

. . . 7 or 10 power binoculars. Plenty of power and light-gathering ability; perfect for comet finding.

Are you sure, RW? I can't remember the last time I heard of someone discovering a comet with 7 power binocs. A lot more people are doing it, nowadays. So by the time you could pick it up with smaller binoculars like those, chances are someone else with better optics would've already found it.

[RightWhale]

How about this version?

Each lens of the 20X120 binoculars is almost 5 inches in diameter for good light-gathering. 20 power also means the field of view is somewhat limited compared to 7X50 binoculars, but still greater than most telescopes. Compared to ordinary 7 or 10 power binoculars [7X50 or 10X50,] the 20X120 binoculars have plenty of power and light-gathering ability; perfect for comet finding.

[LibWhacker]

Oh, lol, sorry. I misread it. BTW, go to google and search on 'comet hunting binoculars.' There is a whole bunch of stuff there on what the "pros" use (many do seem to use 25 x 150 binoculars to give them a leg up on their competition), when, where and how they go about hunting for comets, etc. One Japanese guy said he expects to make a discovery about once every ten years. A nice leisurely hobby.

[Axenolith]

That book was GREAT!

[plsvn]

His larger observatory, of course, cost a reasonably substantial amount.

Dan,
Leslie's larger observatory (which now no longer stands having long decayed from neglect) was donated to him from Miami University of Ohio when one of his sons was attending there. The instrument was a fine 12" Clark refractor. When Leslie died in 1980, the story goes, one of his sons removed the 12" objective lens, and that's the last anyone's heard of it. If this is incorrect, I'm sure a certain lurker here will correct me!

[Joe Hadenuf]

Way cool.....