by Nitpicker » Mon Nov 03, 2014 2:10 am
Chris Peterson wrote:Nitpicker wrote:The dark, wintry, North Pole of Mars would have been one of the (geometrically) better places to observe the closest approach of C/2013 A1. An observer there in clear skies could have seen the comet for at least 4 hours before and more than 4 hours after closest approach. In that 8 hour time interval, the comet would have brightened from about magnitude -2 to a peak of about -6 and dimmed back down to -2. A magnitude of -6 is about as bright as one ever sees the ISS from Earth.
But the magnitude of an extended object doesn't translate in an obvious way to apparent visual brightness. Consider Andromeda galaxy, with a magnitude of 3.4, but which most people have trouble seeing (while you need to be nearly blind to miss a star of the same magnitude).
I assume the brightness comes mainly from the nucleus of a comet. This comet nucleus was too small to be considered an extended object at closest approach, at least to our imaginary human observer with unaided eyes at the North Pole of Mars. But if the quoted magnitudes of comets routinely cover any extended area of tail, then yes, that might make my comparison less useful (which I only made to indicate that I thought the comet wasn't fantastically bright, anyway). Given how variable comet tails can be, it would surprise me to learn that estimates of comet magnitude typically include the extended tail area.
[quote="Chris Peterson"][quote="Nitpicker"]The dark, wintry, North Pole of Mars would have been one of the (geometrically) better places to observe the closest approach of C/2013 A1. An observer there in clear skies could have seen the comet for at least 4 hours before and more than 4 hours after closest approach. In that 8 hour time interval, the comet would have brightened from about magnitude -2 to a peak of about -6 and dimmed back down to -2. A magnitude of -6 is about as bright as one ever sees the ISS from Earth.[/quote]
But the magnitude of an extended object doesn't translate in an obvious way to apparent visual brightness. Consider Andromeda galaxy, with a magnitude of 3.4, but which most people have trouble seeing (while you need to be nearly blind to miss a star of the same magnitude).[/quote]
I assume the brightness comes mainly from the nucleus of a comet. This comet nucleus was too small to be considered an extended object at closest approach, at least to our imaginary human observer with unaided eyes at the North Pole of Mars. But if the quoted magnitudes of comets routinely cover any extended area of tail, then yes, that might make my comparison less useful (which I only made to indicate that I thought the comet wasn't fantastically bright, anyway). Given how variable comet tails can be, it would surprise me to learn that estimates of comet magnitude typically include the extended tail area.