In an email I sent to the moderator, I questioned whether the 'wiggle' in the apparant motion of the APOD meteor was a result of a high-frequency vibration in the camera-system, and also whether a walnut-sized meteor is going to even move in a cycloid enough [say 1 foot?] to be visible 25 to 50 kilometers away.
Per below:
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Sirs,
I couldn't help but note that the distant stars are oblate -- to the same amplitude as the meteor's supposed wobble. Digging deeper, the meteor's path has a decidedly sharp lower-to-uppper transition, and a relaxed upper-to-lower path. The slant of the stars though coincides with this: were the camera to be vibrating say at 60 hertz due to a motor drive?, or at some other high frequency due to a worn worm, then it would have modulated the apparant path in JUST THIS WAY.
Finally, just to confound the 'wobbling meteor' theory, the size of most "shooting stars" (most of which are certainly bright enough to be caught on camera as per this example) are said to be pea-to-walnut sized. Yet they are also said to be 25 to 40 miles up in the atmosphere. Even if the most aspherical chunk were to wibble on the greatest spiral (about a foot?) would a foot of radial deviation-from-straight even be visible 25 miles away? I think not.
GoatGuy
Armchair Physicist - UCBerk.
Alameda, CA U.S.A.
APOD 'Meteor Wiggling'
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APOD 'Meteor Wiggling'
GoatGuy -- Because discussion is awesome especially when debating facts...
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Rather than answering it via email, I'll answer it here.
No, it could not have been camera jitter. While camera jitter can cause similar effects, a meteor's streak lasts (at most) a second, and usually not that long. Also notice that the background stars are not blurred like that--had the camera been vibrating, the star blur would have been significantly larger.
APOD's explaination is correct. As per some research done in the past few months by S. Tilvi (and to a limited extent, myself), many meteors are not made of uniform material, but rather dense chunks held together by less dense material. It is this non-uniformity, along with in-space collisions, that cause many meteors to be in strange shapes.
If a non-spherical meteor hits the atmosphere spinning, it can cause an effect like this. Most are not as noticable, this is a particularly impressive event. Which, of course, is why it made it to APOD.
No, it could not have been camera jitter. While camera jitter can cause similar effects, a meteor's streak lasts (at most) a second, and usually not that long. Also notice that the background stars are not blurred like that--had the camera been vibrating, the star blur would have been significantly larger.
APOD's explaination is correct. As per some research done in the past few months by S. Tilvi (and to a limited extent, myself), many meteors are not made of uniform material, but rather dense chunks held together by less dense material. It is this non-uniformity, along with in-space collisions, that cause many meteors to be in strange shapes.
If a non-spherical meteor hits the atmosphere spinning, it can cause an effect like this. Most are not as noticable, this is a particularly impressive event. Which, of course, is why it made it to APOD.
Dan Cordell, Giant Space Cow
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I felt that I needed to reply to this. While imaging a Lunar eclipse in the late 90's one (only one) of my 35mm frames registered a strange red twisting thing. I contacted people off and on for years as to what this could be. The 35mm negative was inspected and all I got back was " cool or light blead but imaged". The twisting meteor(?) made sence after seeing the image on APOD. Look at this image as if one were coming more or less towards the camera and doing a burn. I don't know but seems to fit. The two links are to this original scanned imagenegative with no processing and a second cropped image showing only the red twist with a little color added. I was using a 10" LX200SCT at f 6.3 and a 35mm camera at prime focus.
Thanks
http://fototime.com/8749CA7C5240FEB/orig.jpg
http://fototime.com/AF39BC507CC2874/orig.jpg
Thanks
http://fototime.com/8749CA7C5240FEB/orig.jpg
http://fototime.com/AF39BC507CC2874/orig.jpg
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Yep, looks as though you may have been lucky enough to catch a head-on meteor.billyhill wrote:I felt that I needed to reply to this. While imaging a Lunar eclipse in the late 90's one (only one) of my 35mm frames registered a strange red twisting thing. I contacted people off and on for years as to what this could be. The 35mm negative was inspected and all I got back was " cool or light blead but imaged". The twisting meteor(?) made sence after seeing the image on APOD. Look at this image as if one were coming more or less towards the camera and doing a burn. I don't know but seems to fit. The two links are to this original scanned imagenegative with no processing and a second cropped image showing only the red twist with a little color added. I was using a 10" LX200SCT at f 6.3 and a 35mm camera at prime focus.
Thanks
http://fototime.com/8749CA7C5240FEB/orig.jpg
http://fototime.com/AF39BC507CC2874/orig.jpg
Dan Cordell, Giant Space Cow
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this can be solved with differential equations and perturbation. They are studying it intensely and find that these orbits that "wobble" are actually an affectof chaos - a branch of mathematics that deals with sequences that have been iterated so much that they become random or chaotic. It happens over time with everything.
looking for a daddy to show me the stars