Well, with a 28.8 years half life it should glow a while. BUT, the largest license exempt quantity one can get iirc is 0.1 uCi. Plus it’s a fission product so good luck making it yourself. :) I don’t recommend the radioactive Boy Scout approach.
Along with a book (lots of good recommendations to choose from here), I recommend getting yourself some basic tools for practical experimentation: breadboard, multimeter (even a cheap Chinesium model will be fine for low voltage DC work), an oscilloscope (entry level DSO models from Chinese OEMs such as Siglent and Rigol can be had very affordably), a bench power supply (Siglent and Rigol also offer these), and some components (Joe Knows kits that are sold on Amazon are a great way to stock up on decent quality resistors, capacitors, and semiconductors to help you get to building circuits).
If you get to wanting to experiment with faster circuits, you can ditch breadboards and their parasitics for Manhattan style construction[1] and be able to build _much_ faster circuits with better success. Or you can fall down another rabbit hole, learning how to design your own PCBs. With PCB services becoming mainstream nowadays, you can learn a tool such as KiCad (free software) and send out your gerbers to be manufactured for cheap.
While AoE (and the newly released X-Chapters!) is an excellent handbook to keep around, I would agree with the other commenters that it is not a particularly friendly textbook for a beginner.
Scale matters too. As I clearly stated, I am not making electronics at industrial scales, nor am I generating large quantities of e-waste.
As for hacker spaces, why on earth would anyone in their right mind assume that it would be ok to not wash hands, eat, drink, etc in that environment _and_ let their kids work there without the same precautions, leaded solder or no?
This is from the perspective of a hobbyist who does _not_ do industrial quantities of soldering, but rather the occasional build or the occasional repair of a piece of old test equipment.
I use eutectic 63/37 Kester solder in several sizes for everything. With my temp controlled Weller station, it's the bee's knees for making quality joints quickly.
As far as worrying about safety, it's really down to common sense. In long time scales, the survival rate for everyone drops to zero. If you apply common sense, you can have fun while you're around and not have problems from lead solder.
Here's my "hot takes":
1) There's a reason why food and drink isn't allowed in professional labs of various kinds. Follow their example. Don't use your kitchen table as a workbench. Don't eat and drink in your work area. Don't lick solder. etc. etc.
If your living arrangement is so small that you can't separate them adequately, seek out a local hacker space or a friend who does have space.
2) Wash your hands thoroughly after soldering (and if you are doing projects with your kids, instill in them the instinct to wash their hands, too!) If I'm finding myself doing a lot of soldering/desoldering for a repair, I take frequent breaks and wash then, too. It also helps reduce mistakes.
3) At a minimum, use a desk fan to blow fumes away from your face. Better yet, invest in a fume extractor unit. I'd say the latter it's a necessity if you do a lot of soldering.
The bottom line is, choose what you prefer and what you are willing to risk using, and take appropriate precautions. Chances are, even if you eliminate lead solder from your hobby work, there's likely something equally as hazardous in your local environment that you are more systemically exposed to. Radon gas, naturally occurring drinking water contaminants (or sometimes unnaturally...), etc.