Recently, a collaboration of a few professional and very talented amateurs used the 1-meter telescope at Pic du Midi to produce some truly breathtaking images of Venus and the outer planets.
Background information and images at:
https://www.cloudynights.com/topic/580395-pic-du-midi-planetary-mission/
and
http://www.europlanet-eu.org/pic-net-ground-based-images-press-release/
One example of the way this sort of data can be utilized is the "Voyager 3" project from Sweden, which used imagery from modest telescopes to monitor Jupiter over a sustained period of time.
http://www.planetary.org/multimedia/space-images/jupiter/the-voyager-3-project.html
I'd say this impacts on the topic of spaceflight to the extent that it defines the quality of imagery that can be collected on a regular basis with a telescope that is very good / large but not in the top category of size… an important distinction because the largest telescopes naturally have intense competition for their time and are used only for limited numbers of planetary images. It's conceivable that telescopes in the 1-meter class could be used to produce relatively continuous and ongoing monitoring of the planets so far as orbital positions allow. Obviously, spacecraft can always produce imagery of a significantly higher quality, but these earthbound telescopes are beginning to show the ability to approach the scientific potential of spacecraft data sets such as Cassini's imagery of Jupiter or Pioneer Venus' imagery of Venus.
I find the Ganymede shots particularly impressive...same apparent resolution as the Voyagers a day or two before the encounters. Impressive technology.
Saw these pics a while back, but still a mighty result!
Would Io's plumes be at all plausible to resolve? I know Hubble caught them (along with Europa's plume), but its time is obviously much more limited...
Io's plumes would perhaps be resolvable in visible light, barely, along the limb, but probably the easiest way to resolve them would be in IR, where the thermal radiation makes them stand out very clearly, and the time when they rise/set past the limbs can give you a very precise indication of their longitude, in combination with the fact that the sources don't move (very often, anyway).
Note: earthbound telescopes are utterly incapable of measuring thermal IR in the range of earthlike temperatures, because the air and telescope itself produce an overwhelming amount of noise, but for temperatures on a par with magma or even the surface of Venus, it is quite possible.
So, in a nutshell, yes, Io's volcanic activity could be monitored longterm with equipment on Earth, with gaps in coverage only where Jupiter is in solar conjunction for a fraction of the year. And it has been done:
https://www.space.com/34485-jupiter-moon-io-volcanoes-seen-from-earth.html
Pro-am eclipse observation with my portable pinhole projection unit (AKA my hand). Solidarity with the eclipse!
Phil
Thanks hugely for the correction, John S.!
-John R.
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