Discussion
FWIW I agree, the ISS definitely looks different to other satellites.
Last year we where diving in a remote location which was nice and dark so I pointed out a satellite passing over head- we then played spot the satellite for a while and someone observed "that one looks big" and it did, sort of lumpy. When I checked the next day it was the ISS passing overhead and despite the distance the shape and colour was visually different from the ground.
What is the next biggest satellite in LEO in comparison?
Last year we where diving in a remote location which was nice and dark so I pointed out a satellite passing over head- we then played spot the satellite for a while and someone observed "that one looks big" and it did, sort of lumpy. When I checked the next day it was the ISS passing overhead and despite the distance the shape and colour was visually different from the ground.
What is the next biggest satellite in LEO in comparison?
Your eyes can't resolve an object that size at that distance, so any shape you might think you see will be because of aberrations and defects in the lenses in your eyes (and we all have small defects to some degree).
This is what I got using a Nikon P900, which has the equivalent of a 2000mm lens (on a 35mm) in front of it. Look it up on YouTube and you'll see the huge zoom range this camera has got.
Full frame image:
Detail blown up:
Now, is that the shape of the ISS, or just distortions/flares etc. caused by the lens, camera shake, condensation etc.?
Really, you need a lot more resolution and a much longer lens to capture a conclusive image.
This is what I got using a Nikon P900, which has the equivalent of a 2000mm lens (on a 35mm) in front of it. Look it up on YouTube and you'll see the huge zoom range this camera has got.
Full frame image:
Detail blown up:
Now, is that the shape of the ISS, or just distortions/flares etc. caused by the lens, camera shake, condensation etc.?
Really, you need a lot more resolution and a much longer lens to capture a conclusive image.
This'll blow your minds.
Ref http://alpo-j.asahikawa-med.ac.jp/kk09/o090320z.ht...
Info..
A reprocessing using a composite of 10 frames taken during
approach of the docked Space Shuttle Discovery on STS-119 mission
in March 2009, resolved some surprising detail including a
sign of the Main Engines(SSMEs)of the Orbiter.
For a visualisation model to compare, see:
http://mensa-barbie.com/bloggerimages/400SPACESTAT...
There is a special difficulty capturing the engines due to
problems with the lighting and position angle of observing.
Although resolving them is theoretically within the reach of
an amateur telescope, the engines are not optimal lighted by
sun during culmination, the position were we have shortest
distance and so best resolution. A while before culm, during
approach, lighting angle is better, but resolution is far
from optimal. In this case, thanks to exellent seeing and the
luck with 10 usable frames to improve slightly sign/noise ratio,
it succeeded however.
Imagery: 10inch Newtonian, fully manually tracked using a
6x magn tracking scope)
Ref http://alpo-j.asahikawa-med.ac.jp/kk09/o090320z.ht...
Info..
A reprocessing using a composite of 10 frames taken during
approach of the docked Space Shuttle Discovery on STS-119 mission
in March 2009, resolved some surprising detail including a
sign of the Main Engines(SSMEs)of the Orbiter.
For a visualisation model to compare, see:
http://mensa-barbie.com/bloggerimages/400SPACESTAT...
There is a special difficulty capturing the engines due to
problems with the lighting and position angle of observing.
Although resolving them is theoretically within the reach of
an amateur telescope, the engines are not optimal lighted by
sun during culmination, the position were we have shortest
distance and so best resolution. A while before culm, during
approach, lighting angle is better, but resolution is far
from optimal. In this case, thanks to exellent seeing and the
luck with 10 usable frames to improve slightly sign/noise ratio,
it succeeded however.
Imagery: 10inch Newtonian, fully manually tracked using a
6x magn tracking scope)
Edited by Sylvaforever on Monday 2nd May 17:02
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