@Wuerstchenhund, it's pretty clear that we're not going to converge completely on this one.
Probably not. That's life.
You have a pretty emotive direct way of putting things
FTFY. I have no emotive feelings towards scopes or T&M gear in general. Having grown up on analog scopes, I certainly understand the fond feeling many hold for this type of scopes, but from a practical POV that's irrelevant.
What I do find annoying though is when people who look for a scope get recommendations to go for an analog scope instead of a DSO, usually with some outdated or just simply incorrect BS attached to it (and we had some really good stuff in this regard in other threads, like claims that analog scopes are "high fidelity" instruments). All this does is cause some disappointment and (worst case) monetary loss with the poor soul asking the question.
Analog scopes had their place back in the day, but the reality is that these days have long gone. Nowadays an analog scope is an antique, nothing more, and it should really not be peddled as if it was an alternative to a DSO, because it really isn't. An analog scope might be a good buy if you're completely broke and get one in fully working condition for $50 or so, or if you're into nostalgia and antique test gear, but aside from these niche cases it's pretty much just a waste of money.
, and please remember that I was responding specifically to your 'lightbulb vs DVM' comment.
I'm fully aware of that, although I still have the feeling you miss the main point of this comment, which is that an analog scope (a tool you correctly said is for looking at waveforms) doesn't give you any numbers, similar to a lightbulb which doesn't give you numbers for a voltage (although an experienced lightbulb user may well interpret the brightness level to get a reasonably close figure of voltage). A DSO however does give you numbers, pretty precise ones (within its specified accuracy of course).
To cover your points:
Add to this the fact that the graticules on scopes are pretty coarse and on many analog scopes are sitting on a separate layer of glass or perspex which creates parallax errors and it should be obvious why you're unlikely to get more than pretty coarse results from it.
You're implying worst possible case here. Since we're talking decent scopes, any decent analogue scope in the last 40 years has used a CRT with internal graticule - there is no parallax error.
Yes, I'm implying non-perfect cases here, simply because non-perfect cases come up more often than expected in real life.
And while I agree that many newer analog scopes have their graticule in the CRT glass, there are still many scopes around that haven't.
Also, I didn't say parallax error is a major issue, or that all analog scopes are affected. At the end of the day, it's just one of many properties that increase uncertainty.
Well, pretty much any serious test instrument has specifications, that doesn't mean they are not shit compared to modern gear.
I've just scanned through the current Keysight offerings. Vertical accuracy seems to be pretty universally stated at 3% until you get up to the 10 bit Infinium-S series where it drops to 1%. At this point you're well outside the pocket depth of 99% of people reading this forum. 3% is exactly the same specified vertical accuracy as the Tek 475A.... 3% is 3%, you can't call one of them shit without calling both of them shit! I suspect that you don't want to do that. 
Yes, the vertical accuracy for an 8bit DSO is 3% but that's just one of many spec data points, and for others like linearity or horizontal accuracy the difference much bigger. Just look at the time base specs of your average analog scope, it's performance specs are shit even when compared to a bottom-of-the-barrel scope like a Rigol DS1054z (and Rigol hasn't exactly shown stellar engineering when it comes to the oscillating parts in their scopes). And for an instrument that was ultimatively designed to show or measure voltage changes in the time domain, a stable time base is pretty essential. The only reason it's not much of a problem on an analog scope is because results are generally dependent on user interpretation, which introduces even higher uncertainties than the poor specs of the scope itself.
And as to the voltage accuracy of an DSO, many better 8bit DSOs offer high resolution/ERES modes which increase the vertical resolution to 10 or more bits (for example, R&S RTE/RTO scopes go up to 16bit), which is a viable way to increase vertical accuracy if the loss of bandwidth that comes with it is acceptable.
On a decent DSO you don't use "read-outs" (cursors) for measuring standard parameters, you use the various measurement and analysis functions which actually use the sample data to derive the individual measurement results from. And at least on big brand scope that works pretty well and reliable, although on cheap Chinese B-brand scopes like Rigols YMMV of course (which isn't overly surprising when reading the "Yaigol" thread).
I really only see people jumping to cursors when tasked with measuring standard waveform parameter is if they either don't know how to operate a modern DSO properly or the DSO they use is shit.
Unfortunately most people reading this thread probably are using Rigols. 
The number of Rigol threads could certainly suggest that, but I'm sure there is a very large number of people here that use something else. There are certainly a lot Agilent/Keysight users (DSO6k/7k, DSOX2k/3k, some Infiniium 548xx/8k/80k/9k users) here, a fair number of Tek users, and even a few R&S and LeCroy users, plus an increasing number of GW Instek users.
Relying on the f/w to correctly identify min/max/peak/overshoot etc. on all waveforms is a bit of an act of faith, and any scope can suffer a bug. I agree that with the ultimate scope you wouldn't need to use the cursors.
Using measurements on a DSO isn't a leap of faith, not much more as using any other function of any test instrument is (how sure can you be that your analog scope is still within even it's lacklustre specs, unless of course you fully calibrate it everytime before using it in anger?). Of course there can be bugs, but DSOs with automatic waveform paremeter measurements aren't exactly a new thing (even the old LeCroy 9400 from the late 80's could do that), and at least with the big brands that is generally reliable.
But as someone who only superficially follows the various Rigol threads I can't say how mature the measurement functionality in Rigol scopes is, but personally I wouldn't touch a product, which at the end of the day is supposed to be a test instrument you want to rely on for your measurements, is thrown to market with such a large number of bugs and with the hardware idiocracies listed in the "Yaigol" thread. But I understand that the low price tag can be very tempting.
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