This is just super fucking cool. It’s so rad they can pick out chemical signatures from the light passing through a planet’s atmosphere from a star 120 light years away. Absolutely gonzo bananas, the JWT is too cool. I will go on a personal mission to punch Donald Trump in the taint if they actually do cut the Roman telescope.
You probably won’t see much in terms of globular clusters in binos. I feel like you should be able to resolve the Leo triplet in them, though I expect it would be a challenge. Probably your best bet is the beehive cluster in Cancer, which should be near the Zenith, the little beehive cluster in Canis Major, and some of the easier double stars (the second star out from the cup on the handle of the big dipper- mizar and alcor- is great) and the Orion belt stars. Good luck!
Update: moved to Monday (tonight) because transparency sucked and I was tired.
Seeing: very little or slow twinkling
Transparency / Light pollution: Polaris visible, only one of the cup stars of Ursa minor visible to the naked eye. This is actually slightly better than normal for my area.
Equipment: 12" dob, 1520 mm focal length, 2" 2x Barlow, 2" 34 mm wide field eyepiece.
What I hit: M44: sketched it from my 10x50 RACI. I love finding M44 because cancer is dim as fuck, and I’ve got a cool trick where I just make a right angle with my left hand, pointer finger touching Pollux, thumb touching Procyon, M44 will be right in the 90 degree angle.
M65, M66 again. M66 was actually readily apparent to me, for some reason, where M65 took a bit of work to resolve. Did not manage to resolve NGC 3628. I also accidentally resolved another galaxy about three degrees south of and about two degrees below Iota Leonis. Found it purely by accident, couldn’t find it again, looked very slender, stretched almost across the view in 100x (34 mm wide field + 2x Barlow).
What I attempted: Bode’s galaxy. Spent probably an hour trying to starhop to it with different tricks (I think the thing that got me closest was drawing a line through UmA’s front elbows and shoulders and following that down to the level of Alioth. That got me onto a very neat little square of stars with a trail pointing towards the horizon, which I followed again and again to nothing. Very frustrating. I tried again to hit the owl nebula and cigar Galaxy, also no dice. Not sure if I just suck this bad at star-hopping or if the light pollution is really kicking my butt.
I spent so long on it that I ran out my clock and had to choose one last thing to do. Bootes was now plainly visible in the mid-altitude east, so I decided to try and hit M3 by making a right triangle with epsilon bootes as one angle, Arcturus as the right angle, and M3 as the last angle. Didn’t work. Tried a few other spaghetti plate strategies to find M3 and got nowhere. I mostly tried slowly slewing over at 100x mag, which I know is low for globs, but I figured it would at least stand out as a kind of weird bullshitty star that I could investigate, but nothing stood out.
I’ve heard it can be hard to see with the naked eye, and it seems like it would probably get murdered by city lights. Something like some low power, wide-lens binoculars might help collect enough light to make it visible. Also, I’ve heard that cell phone cameras and cameras in general are pretty good at picking up the Aurora over the naked eye, especially on longer exposures.
Hey, that’s awesome! Great job! It’s going to be real easy to drop a LOT of cash on eyepieces. Don’t. Start on the cheaper side and only move up if you find that the eyepieces are limiting your viewing experience. A lot of people really like the 8-24 mm click-stop zoom pieces for starter eyepieces, though I don’t have any experience with them. If you really want to splurge, buy a wide field of view piece. The full moon will be a deadly laser but doable without a filter. The sun will literally set your eyepiece on fire. I’ve seen it happen. An eyepiece filter will not be enough to protect you or your equipment from the sun. There are filters that will fit over the aperture (the end of the tube) that are basically the same material as solar eclipse glasses, and that’s what you need. They aren’t expensive, last I looked, though, again, I have no experience with them. For a list of possible targets to get some practice, see astroleague’s urban observing program here: www.astroleague.org/urban-observing-program/Note that there’s a separate list of multi-star systems you should be able to split (see at least two distinct stars) in a scope of your size. I’d also recommend using Stellarium; it’s a free app that’s actually free, and it’s absolutely dead useful for learning the night sky and planning/aiding viewing sessions. I use it to help me plan my outreach outings, and I really can’t recommend it enough. Best of luck, I’m really happy for you, and please let me know how it goes!
Hey, it’s cool that you followed up with this! It would make sense that the shaking is too intense for the fine details, especially at that high angle. I feel like I’ve heard of people using image-stabilized binos for stargazing, maybe that could make a difference?
Report: ended up scuttling the plans. I’ve had a few late nights in a row, and the transparency was bad enough to give me a good excuse to sleep instead. We’ll get them next time, team.
This is super cool! I was kinda hoping it would hit soonish. 2032 feels like it might as well be 3032 with how things are going. Hopefully this doesn’t mess up any of the world’s plans for lunar bases.
Yeah, that’s what I mean. I’m impressed! For me, Jupiter looked kinda smeary, like looking at it with an astigmatism, only it wasn’t an astigmatism, it was the moons. As for Venus, I guess you might just need higher magnification to cut through the glare and resolve the crescent. The minimum power I use in my dob is 50x and you can clearly see the crescent at that power.
I use 7x35s for outreach and they work pretty well. I got my kids the Celestron 10x50s and can’t recommend them enough. They’re really, really great. Not too heavy or bulky, even for kids, but still very capable of enhancing your stargazing experience. They can juuuust about split a Galilean moon, IME; Jupiter will look a little odd, but I haven’t been able to distinctly identify a moon with them.