APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Comments and questions about the APOD on the main view screen.
Post Reply
User avatar
APOD Robot
Otto Posterman
Posts: 5590
Joined: Fri Dec 04, 2009 3:27 am
Contact:

APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by APOD Robot » Mon Oct 20, 2014 4:09 am

Image Comet Siding Spring Passes Mars

Explanation: Yesterday, a comet passed very close to Mars. In fact, Comet C/2013 A1 (Siding Spring) passed closer to the red planet than any comet has ever passed to Earth in recorded history. To take advantage of this unique opportunity to study the close interaction of a comet and a planet, humanity currently has five active spacecraft orbiting Mars: NASA's MAVEN, MRO, Mars Odyssey, as well as ESA's Mars Express, and India's Mars Orbiter. Most of these spacecraft have now sent back information that they have not been damaged by small pieces of the passing comet. These spacecraft, as well as the two active rovers on the Martian surface -- NASA's Opportunity and Curiosity -- have taken data and images that will be downloaded to Earth for weeks to come and likely studied for years to come. The featured image taken yesterday, however, was not taken from Mars but from Earth and shows Comet Siding Spring on the lower left as it passed Mars, on the upper right.

<< Previous APOD This Day in APOD Next APOD >>
[/b]

User avatar
Ann
4725 Å
Posts: 13838
Joined: Sat May 29, 2010 5:33 am

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Ann » Mon Oct 20, 2014 4:11 am

Wow, the comet is certainly faint compared with Mars. Well done getting such a good portrait of the comet, in spite of the glare from Mars.

And is that a galaxy to the left of the comet?

Ann
Color Commentator

User avatar
alter-ego
Serendipitous Sleuthhound
Posts: 1123
Joined: Mon Apr 21, 2008 4:51 am
Location: Redmond, WA

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by alter-ego » Mon Oct 20, 2014 4:54 am

Ann wrote:Wow, the comet is certainly faint compared with Mars. Well done getting such a good portrait of the comet, in spite of the glare from Mars.

And is that a galaxy to the left of the comet?

Ann
It's definitely an artifact as it does not show up on the Sloan or STScI sky surveys. It could be related Mars.
A pessimist is nothing more than an experienced optimist

Boomer12k
:---[===] *
Posts: 2691
Joined: Sun Apr 22, 2007 12:07 am

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Boomer12k » Mon Oct 20, 2014 5:18 am

Awesome image...What damage would it have done to Mars on a good direct hit???

Going to add "Collision Prevention" companies to my portfolio....and Comets on my home and auto insurance.... :lol2:
:---[===] *

User avatar
Nitpicker
Inverse Square
Posts: 2692
Joined: Fri Sep 20, 2013 2:39 am
Location: S27 E153

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Nitpicker » Mon Oct 20, 2014 5:38 am

That's a lovely image.

I was busy recording the approach to the near-collision last night, too, albeit in a much less deep and aesthetically pleasing way. (And I've finally figured out how to process the result to my satisfaction, after a few horrible attempts.) Here is slightly more that an hour's worth of approach, showing the paths of Mars and Comet C/2013 A1 against the stars of Ophiuchus, around the same time as this APOD and about eight hours before closest approach. Note that the tail, which points away from the Sun in the APOD, does not show in my image, and is not at all aligned with the direction of the comet's motion, which is very close to northward. (Mars is moving eastward to the left.)
Maximum stack of 13x30s subs, ISO 3200, 6&quot; SCT.
Maximum stack of 13x30s subs, ISO 3200, 6" SCT.

bmesser
Asternaut
Posts: 9
Joined: Wed Sep 12, 2012 12:36 pm

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by bmesser » Mon Oct 20, 2014 7:59 am

Its a shame that you couldn't have created an HDR image, where Mars had a shorter exposure to make it less bright and exposed, and the comet could have received a longer exposure to make it visible, or would that be impossible to do?

User avatar
MargaritaMc
Look to the Evenstar
Posts: 1836
Joined: Wed Jan 09, 2013 10:14 pm
Location: 28°16'7"N 16°36'20"W

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by MargaritaMc » Mon Oct 20, 2014 9:03 am

"In those rare moments of total quiet with a dark sky, I again feel the awe that struck me as a child. The feeling is utterly overwhelming as my mind races out across the stars. I feel peaceful and serene."
&mdash; Dr Debra M. Elmegreen, Fellow of the AAAS

isoparix

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by isoparix » Mon Oct 20, 2014 10:14 am

Has anyone calculated how much this close encounter will alter the comet's trajectory? After all, this is like the 'slingshot' techniques used to accelerate spacecraft...

User avatar
Nitpicker
Inverse Square
Posts: 2692
Joined: Fri Sep 20, 2013 2:39 am
Location: S27 E153

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Nitpicker » Mon Oct 20, 2014 11:21 am

bmesser wrote:Its a shame that you couldn't have created an HDR image, where Mars had a shorter exposure to make it less bright and exposed, and the comet could have received a longer exposure to make it visible, or would that be impossible to do?
Mars is several thousand times brighter than the comet and neither are resolved into discs, so both are point sources of light, just like all the stars. If Mars were shown at its true angular size in the APOD, it would be smaller just bigger than a pixel (by my rough calculation, please check for yourself). Personally, I think Mr Peach has made the glare look rather pretty; he may have even exaggerated it. I don't have much experience with HDR techniques, but I'd be surprised if they could make a significant or even desirable impact in an extreme case like this. As it is, I suspect that the image has been contrast-stretched to enhance the detail in the tail and other dusty bits, which are much dimmer than the comet nucleus.

User avatar
Chris Peterson
Abominable Snowman
Posts: 18596
Joined: Wed Jan 31, 2007 11:13 pm
Location: Guffey, Colorado, USA
Contact:

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Chris Peterson » Mon Oct 20, 2014 2:27 pm

Nitpicker wrote:If Mars were shown at its true angular size in the APOD, it would be smaller just bigger than a pixel (by my rough calculation, please check for yourself).
The angular size of Mars in this image (the full image you get when you click on the home page image) is 2.2 pixels. While that's visually very close to unresolved, the optics of an extended disc like that are very different than for stars.
I don't have much experience with HDR techniques, but I'd be surprised if they could make a significant or even desirable impact in an extreme case like this. As it is, I suspect that the image has been contrast-stretched to enhance the detail in the tail and other dusty bits, which are much dimmer than the comet nucleus.
It would certainly be possible to composite images (in an HDR fashion) so that Mars wasn't overexposed. Not real easy, though. And of questionable value. Sure, we'd (barely) see the size of Mars in comparison with the comet, and the color of Mars would be a little more accurate. But I think the image is better as it is, giving a much better indication of the true difference in intensity between the two objects.
Chris

*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com

User avatar
Psnarf
Science Officer
Posts: 325
Joined: Fri Feb 26, 2010 6:19 pm

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Psnarf » Mon Oct 20, 2014 4:57 pm

Judging by the inbound trajectory, if the orbit is changed at all, it would be slightly closer to the Sun on the way out. Looking at the Mars-Earth-Sun plane, Sliding Spring comes in from above left and will return below left. It might be slightly closer to 1 Mars Astronomic Unit, but the change would be insignificant. Since Earth is farther around the plane, less than 90-degrees Mars-Sun-Earth, I don't think it will be visible from Earth with unaided eyes. We rely on these expert photographers with their telescopes to see it at all. Waiting with anticipation for the images from the four nearby cameras (two in orbit, two landers), I remain Yours Truly, Amazed.

User avatar
Chris Peterson
Abominable Snowman
Posts: 18596
Joined: Wed Jan 31, 2007 11:13 pm
Location: Guffey, Colorado, USA
Contact:

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Chris Peterson » Mon Oct 20, 2014 5:12 pm

isoparix wrote:Has anyone calculated how much this close encounter will alter the comet's trajectory? After all, this is like the 'slingshot' techniques used to accelerate spacecraft...
The orbit was significantly altered by the pass. That's because just about any perturbation of a hyperbolic orbit is significant. While I know that the path has been estimated by numerical modeling, the easiest thing will be to compare the past elements from future ones (these are determined by observation).

In practice, "significant" doesn't mean much with this sort of comet. The deviation of its path through the inner system is very small, and we're not going to see this comet again (or at least, not for millions of years if perturbations close the orbit).
Chris

*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com

User avatar
Nitpicker
Inverse Square
Posts: 2692
Joined: Fri Sep 20, 2013 2:39 am
Location: S27 E153

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Nitpicker » Mon Oct 20, 2014 10:32 pm

Chris Peterson wrote:
Nitpicker wrote:If Mars were shown at its true angular size in the APOD, it would be smaller just bigger than a pixel (by my rough calculation, please check for yourself).
The angular size of Mars in this image (the full image you get when you click on the home page image) is 2.2 pixels. While that's visually very close to unresolved, the optics of an extended disc like that are very different than for stars.
Interesting, thanks Chris. If you record an extended object at its true angular size (obviously more than a pixel), is that sufficient to say it has been resolved? I'd always just assumed before now that you'd need a few more pixels to span across the true size. How do the optics of a just-resolved extended object differ from a point source?

User avatar
Chris Peterson
Abominable Snowman
Posts: 18596
Joined: Wed Jan 31, 2007 11:13 pm
Location: Guffey, Colorado, USA
Contact:

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Chris Peterson » Mon Oct 20, 2014 11:36 pm

Nitpicker wrote:If you record an extended object at its true angular size (obviously more than a pixel), is that sufficient to say it has been resolved?
That's a surprisingly tricky question, given that there are multiple criteria for "resolved". Most actually depend on the ability to distinguish a close pair of point objects from a single point object. But on a purely theoretical level (from information theory) we might reasonably say an object is resolved if the Nyquist criterion, which would be the case if the image width is greater than two pixels. Of course, this assumes that the seeing and optics are good enough that a point source is smaller than that, which doesn't seem to be the case here- I measure the FWHM of stars at around 2.5 pixels.

How do the optics of a just-resolved extended object differ from a point source?
They have different diffraction structure.
Chris

*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com

User avatar
Nitpicker
Inverse Square
Posts: 2692
Joined: Fri Sep 20, 2013 2:39 am
Location: S27 E153

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Nitpicker » Tue Oct 21, 2014 2:30 am

Thanks Chris.
Chris Peterson wrote:I measure the FWHM of stars at around 2.5 pixels.
I assume that's more complicated than counting the pixels on the smallest recognisable stars? Edit: nevermind, I found the answer is yes.

User avatar
Nitpicker
Inverse Square
Posts: 2692
Joined: Fri Sep 20, 2013 2:39 am
Location: S27 E153

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Nitpicker » Tue Oct 21, 2014 4:44 am

Nitpicker wrote:
Chris Peterson wrote:I measure the FWHM of stars at around 2.5 pixels.
I assume that's more complicated than counting the pixels on the smallest recognisable stars? Edit: nevermind, I found the answer is yes.
Having just noticed that the stacking software I typically use (Deep Sky Stacker) calculates the FWHM for me in pixels, I did a quick comparison between my reduced image and the APOD (which I assume has also been reduced) and was surprised that they both had similar FWHM values just under 7 arcsec. And if I check my full resolution images at 0.6 arcsec/pixel, raw and stacked/stretched, things improve (as I expected, though not linearly) to between 4 to 5 arcsec. But I'm struggling to relate these values with the FWHM values typically quoted for astronomical seeing, where 3 arcsec is rather average and anything above that is worse. I considered the seeing to be better than average on the 19th when I took my images. Might the discrepancy in the numbers be mainly due to tracking errors, or something else I haven't considered? Edit: perhaps the low elevation angles too.

User avatar
Chris Peterson
Abominable Snowman
Posts: 18596
Joined: Wed Jan 31, 2007 11:13 pm
Location: Guffey, Colorado, USA
Contact:

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Chris Peterson » Tue Oct 21, 2014 2:02 pm

Nitpicker wrote:Having just noticed that the stacking software I typically use (Deep Sky Stacker) calculates the FWHM for me in pixels, I did a quick comparison between my reduced image and the APOD (which I assume has also been reduced) and was surprised that they both had similar FWHM values just under 7 arcsec. And if I check my full resolution images at 0.6 arcsec/pixel, raw and stacked/stretched, things improve (as I expected, though not linearly) to between 4 to 5 arcsec. But I'm struggling to relate these values with the FWHM values typically quoted for astronomical seeing, where 3 arcsec is rather average and anything above that is worse. I considered the seeing to be better than average on the 19th when I took my images. Might the discrepancy in the numbers be mainly due to tracking errors, or something else I haven't considered? Edit: perhaps the low elevation angles too.
And you're using a DSLR, right? So you're going to see a loss of resolution from the color sensor. And depending on the model, there may be internal processing (Nikon cameras, for instance, aren't great for astroimaging). And the raw images from a DSLR typically don't have the same dynamic range as from a good astronomical camera, which can mess up FWHM measurements somewhat. And different FWHM algorithms give different results, especially if the data isn't linear, which is often the case with DSLRs. I'd say there's a good chance that a measured value of 4 arcsec in a DSLR raw equates to what I'd call 3 arcsec seeing.

A good test of the quality of the image is to measure the FWHM of multiple stars. They should all be the same to within a few tenths. If you're seeing more than that, it means there are nonlinearities in the underlying data.
Chris

*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com

User avatar
Nitpicker
Inverse Square
Posts: 2692
Joined: Fri Sep 20, 2013 2:39 am
Location: S27 E153

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by Nitpicker » Tue Oct 21, 2014 9:01 pm

Chris Peterson wrote:
Nitpicker wrote:Having just noticed that the stacking software I typically use (Deep Sky Stacker) calculates the FWHM for me in pixels, I did a quick comparison between my reduced image and the APOD (which I assume has also been reduced) and was surprised that they both had similar FWHM values just under 7 arcsec. And if I check my full resolution images at 0.6 arcsec/pixel, raw and stacked/stretched, things improve (as I expected, though not linearly) to between 4 to 5 arcsec. But I'm struggling to relate these values with the FWHM values typically quoted for astronomical seeing, where 3 arcsec is rather average and anything above that is worse. I considered the seeing to be better than average on the 19th when I took my images. Might the discrepancy in the numbers be mainly due to tracking errors, or something else I haven't considered? Edit: perhaps the low elevation angles too.
And you're using a DSLR, right? So you're going to see a loss of resolution from the color sensor. And depending on the model, there may be internal processing (Nikon cameras, for instance, aren't great for astroimaging). And the raw images from a DSLR typically don't have the same dynamic range as from a good astronomical camera, which can mess up FWHM measurements somewhat. And different FWHM algorithms give different results, especially if the data isn't linear, which is often the case with DSLRs. I'd say there's a good chance that a measured value of 4 arcsec in a DSLR raw equates to what I'd call 3 arcsec seeing.

A good test of the quality of the image is to measure the FWHM of multiple stars. They should all be the same to within a few tenths. If you're seeing more than that, it means there are nonlinearities in the underlying data.
Good advice. I'm using a Nikon D5100. I've read about older Nikon DSLRs which had something of a reputation as "star crunchers" (relating to how the Nikon converted the raw image to its own NEF raw format, I think). That reputation seems difficult to shake, but the newer models have been improved with a better conversion to a 14 bit NEF format, which is not a problem with my not-so-deep astrophotos, anyway. Certainly, the software and controls available for astro imaging with Canon cameras leaves Nikon for dead, but other than that I'm very happy with the D5100. (We had the Nikon before I ever developed an interest in astronomy. I've also bought an inexpensive planetary imaging video camera since, which is a pretty good match for my modest 6" scope.)

moonshiner

Re: APOD: Galaxies in Pegasus (2014 Oct 23)

Post by moonshiner » Thu Oct 23, 2014 11:32 am

In terms of celestial events, the debut of comet Siding Spring 2013 A1 with Mars was a disappointment. With a diameter of nearly 500 meters and a mass of approximately 50 million tons, the comet could have yielded Mars with precious elements in the event of an impact with the planet. Xenon - nearly 5000 tons - could have helped to stabilize the atmosphere; neon - approximately 100000 tons - could have contributed to the hydrodynamic saturation of the atmosphere; olivine and metal crystal - approximately 10 million tons - could have supplied material for future astro labs; and water - approximately 20 million tons - to quench the thirst of martian rodents.
Perhaps future missions should be aimed at nudging comets and asteroids into a friendly orbital decay around a terrestrial planet such that the body gently sheds mass over an extended period of time as it plows through the planet's upper atmosphere. But clearly, this cannot be the domain of rocketry; a more sophisticated propulsion system is needed to engage in celestial construction projects capable of tractoring comets and asteroids on a relatively large scale. There is reason to believe that such technology has always existed - but the relevant question is: what should be the extent of such celestial engineering and what celestial objects should be involved.
Someone once said that if man had sufficient faith he could move mountains. But, can man move asteroids..or comets.
Man may have to wait some time to gain access to such technology. In the meantime, physicists can figure out what it takes, in terms of force and vector, to move a 1 trillion ton asteroid into a decay orbit about Mars.

User avatar
Chris Peterson
Abominable Snowman
Posts: 18596
Joined: Wed Jan 31, 2007 11:13 pm
Location: Guffey, Colorado, USA
Contact:

Re: APOD: Galaxies in Pegasus (2014 Oct 23)

Post by Chris Peterson » Thu Oct 23, 2014 2:05 pm

moonshiner wrote:In terms of celestial events, the debut of comet Siding Spring 2013 A1 with Mars was a disappointment. With a diameter of nearly 500 meters and a mass of approximately 50 million tons, the comet could have yielded Mars with precious elements in the event of an impact with the planet.
Comets this size have struck Mars before. It is nowhere near large enough to have any significant impact on the resources of the planet.
Chris

*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com

User avatar
Ann
4725 Å
Posts: 13838
Joined: Sat May 29, 2010 5:33 am

Re: APOD: Galaxies in Pegasus (2014 Oct 23)

Post by Ann » Thu Oct 23, 2014 2:57 pm

Aren't the last two posts somewhat misplaced here?

Ann
Color Commentator

User avatar
Chris Peterson
Abominable Snowman
Posts: 18596
Joined: Wed Jan 31, 2007 11:13 pm
Location: Guffey, Colorado, USA
Contact:

Re: APOD: Galaxies in Pegasus (2014 Oct 23)

Post by Chris Peterson » Thu Oct 23, 2014 3:20 pm

Ann wrote:Aren't the last two posts somewhat misplaced here?
Now, the last four.
Chris

*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com

User avatar
Beyond
500 Gigaderps
Posts: 6889
Joined: Tue Aug 04, 2009 11:09 am
Location: BEYONDER LAND

Re: APOD: Galaxies in Pegasus (2014 Oct 23)

Post by Beyond » Thu Oct 23, 2014 3:24 pm

Image
To find the Truth, you must go Beyond.

User avatar
bystander
Apathetic Retiree
Posts: 21592
Joined: Mon Aug 28, 2006 2:06 pm
Location: Oklahoma

Re: APOD: Galaxies in Pegasus (2014 Oct 23)

Post by bystander » Thu Oct 23, 2014 3:34 pm

and now they're not
Know the quiet place within your heart and touch the rainbow of possibility; be
alive to the gentle breeze of communication, and please stop being such a jerk.
— Garrison Keillor

User avatar
BMAONE23
Commentator Model 1.23
Posts: 4076
Joined: Wed Feb 23, 2005 6:55 pm
Location: California

Re: APOD: Comet Siding Spring Passes Mars (2014 Oct 20)

Post by BMAONE23 » Thu Oct 23, 2014 4:46 pm

Just the headers are misplaced

Post Reply