Comets Easy to find, but only if you know what to look for - Dark location Patience Methodical
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Transcript of Comets Easy to find, but only if you know what to look for - Dark location Patience Methodical
CometsEasy to find, but only if you know what to look for -
•Dark location
•Patience
•Methodical
•CarefulIf you think you’ve found a comet, you should first
Check a good atlas (galaxy, nebula, etc.)
Check list of currently visible or other newly discovered comets (Websites)
Check it out again the next evening - note any motion (position change)
If it passes all these tests, then send it in to the IAU Central Bureau for confirmation.•your name •your address and contact details (e-mail address) •date and UT time of observation •observation method (e.g., naked eye, visual telescopic observation, photographic, or telescopic CCD) •specific details on instrumentation (aperture size, f/-ratio, etc.) and exposures (type of film or CCD, length of exposure, etc.) •observation site (name of location, giving either city/town and state/province/country, or some other geographical name nearby); longitude and latitude and elevation above sea level can be useful
If all goes well and they confirm it, you’ll become Immortal!
Comet names
Still use the old discoverer naming system - but when too many are discovered by the same person (or project), this is too confusing
First part of the name
P/ - comet with period < 200 years
C/ - comet with period > 200 years
D/ - comet that disappeared
A/ - oops, an asteroid
Year of discovery, followed by 1/2 month of discovery code and order of discoveryJanuary = A, B July=N,OFebruary = C, D August=P,QMarch = E, F September=R,SApril = G, H October=T,UMay = J,K November=V,WJune=L,M December=X,Y
On occasion some look asteroidal, and get a bit of an asteroid name added in. C/2001 HT50 (LINEAR-NEAT) C/2001 Q4 (NEAT) C/2002 O7 (LINEAR) C/2002 T7 (LINEAR) 2P/Encke 29P/Schwassmann-Wachmann 143P/Wolf-Harrington 65P/Gunn157P/Tritton
Brightness of a comet
How do you measure it?
One method - defocus the telescope/binoculars
How bright should it be?
Depends on -
Distance from Sun
Distance from Earth
Towards/away from the Sun
Size/age of the comet
How close to the Sun in the sky
Comet brightness estimate
V = H + 2.5 n log (r) + 5 log
V=integrated magnitude
H = magnitude if 1 A.U. from the Sun, 1 A.U from Earth, also considered the “absolute magnitude”
n = typically 4
r = Sun-comet distance (A.U.)
= Earth-comet distance (A.U)
Orbital elements for comets – for orbit prediction/trackinge = eccentricity (0-1) i = inclination (degrees)T = date of Perihelion q = perihelion distance (AU)= longitude of the ascending node (degrees)= argument of the perihelion (degrees)
Why study comets?
• Primordial• Two populations• Influence of solar winds• Source of meteor showers• See break-ups• Unpredictable – potential impacts• They’re just cool
Comet McNaught C/2006 P1
17/P Comet Holmes
Asteroids
+160,000 observed
+14,500 named
And how are asteroids named?
Old names - Names of gods, goddesses, people (real)
New names - Year, 1/2 Month designation (same as comets) and order of discovery (also a letter, no I)
2008NA, 2008NB, 2008NC,....2008NZ,
2008NA1, 2008NB1,....2008NZ1
2008NA2, 2008NB2,................
Why study asteroids?
Can determine radius/size using occultation events - very precise timing, location dependent.
Brightness variations - composition, rotation, size
Asteroids found by using before-after comparisons of a region.
Asteroids tend to be found in the ecliptic.
But some vehicles are tougher
Meteorites - fragments of comets or asteroids
Most common Stony
Macrometeorites - big ones, look for burned features, crusts, unusual location, color, metal detectors can help
Micrometeorites - small ones, rain down continually
Iron - Nickel Meteorites
Martian Meteorites
Micrometeorites
Collecting micrometeorites
•Magnets
•Collecting Dish/Surface
•Dishes/Containers
•Snow
Use microscope to distinguish micrometeorites from crap