Framing the question
I want to highlight a few points from the comments that I think exemplify the key disagreements here.
As a general observation, I do strongly feel in general that a Q&A site should be able to host content like this. Stack Overflow isn't especially well designed for it, unfortunately. The Software section on Codidact might add more "categories" besides the main Q&A (and "code reviews") in the future, which might make it easier - there's a lot to discuss still. But it's not a good idea to rely on the fact of other sites being able to provide answers for basic research questions. Sometimes they're all just bad at presentation (more on that later).
More importantly, Stack Overflow has enough problems keeping itself DRY without trying to keep the rest of the Internet DRY. If many people are asking about the same basic research topic, having a local answer that can be used as a duplicate is clearly more expedient, and it builds the perception of the community actually being a place that builds and presents expertise.
This is my warning to those of you who wish for Stack Overflow to remain dominant in its niche: if you don't see the value in this, don't be surprised when other sites that do, eventually overtake you. (I think they will anyway, but "eventually" can be longer or shorter.)
The question "For example, is 1 + 2 * 2 equal to 6, or equal to 5?" doesn't show any research effort. It can be answered with a basic program or quick research.
Of course, I understand that this is intended as a framing question. But there are at least two problems here:
"What is the result of this code?" questions would be closed with the reasoning that there is no substance; they are answered by trying the code, and we don't provide that service. In reality, beginner-level questions about operator precedence are going to come out of a debugging effort.
While it's important for examples to be simple, they should at least be realistic. I've seen that a fair number of people learn or remember their grade-school arithmetic incorrectly, in particular, by thinking that each letter in BEDMAS (or PEMDAS, depending on locale) represents a separate "pass" (rather than recognizing that multiplication and division should have the same precedence, or addition and subtraction likewise).
Appreciating the scale of the problem
Also, operator precedence is just basic math. It's the first thing you learn when you start doing sums with more than one operator...
Just a small observation in passing, which I think helps tie the other two points together. I consider myself lucky to have received an excellent computer science education, but it wasn't in my math classroom. Aside from "wait, the computer (really, the design of the programming language, but we'll let that slide) actually cares about order of operations?" is actually not obvious; popular languages could all have been designed not to. It's not as if expressions in code actually look the way they do in a math classroom (although I'm sure someone out there is working on an esolang that involves typing in LaTeX for simple expressions and having an editor render it on the fly). And aside from all of that, I certainly have not seen any grade-school math classrooms discuss
<<, let alone their precedence.
And all of that is without even considering the idea of operator overloads for non-numeric types (including the ones built in to the language or standard library).
About research and documentation
If a question can be answered by the first result of your search engine, it's lacking research. The same with "What is the precedence and associativity of operators in C++?" Type this into your search engine instead of asking this question.
Okay; I tried exactly that.
Most of the results are overly dry presentations of the actual facts, as described in that title. For example, Wikipedia tells us
The following is a table that lists the precedence and associativity of all the operators in the C and C++ languages. Operators are listed top to bottom, in descending precedence. Descending precedence refers to the priority of the grouping of operators and operands. Considering an expression, an operator which is listed on some row will be grouped prior to any operator that is listed on a row further below it. Operators that are in the same cell (there may be several rows of operators listed in a cell) are grouped with the same precedence, in the given direction. An operator's precedence is unaffected by overloading.
The syntax of expressions in C and C++ is specified by a phrase structure grammar. The table given here has been inferred from the grammar. For the ISO C 1999 standard, section 6.5.6 note 71 states that the C grammar provided by the specification defines the precedence of the C operators, and also states that the operator precedence resulting from the grammar closely follows the specification's section ordering
before dropping a table that appears to come more or less wholesale from cppreference.com (also included in other places - and to be fair there aren't really any options to "rephrase" something that's that objective).
For someone who actually encountered a problem caused by operator precedence, that's not very helpful.
Other attempts tend to bumble around the general topic without any clear organizational principle (and then copy and paste the same table, without trying to explain its implications). It turns out that demonstrating CS concepts is hard - to say nothing of actually teaching them.
Presumably, not very many people actually come in explicitly asking what the precedence rules are. In order to do that, one must first have the concept of precedence. To have motivation to do that, one must first suspect that a problem is related to precedence.
Instead, presumably the motivation for creating something like this, is to close questions where the precedence issue is not realized by the OP.
This is the point where lot of people will say "no, we can't do that, those are all just typo questions and sending them to a mega-answer is not being any more helpful, they have to dig through all the unrelated information about the precedence of other operators that aren't in their malfunctioning expression". But if you don't know that there's such a thing as operator precedence, or if you don't realize that it extends beyond grade-school math operations (see above), then it's useful to have your issue reframed in those terms.
So it would be better to have a question that addresses those kinds of problems - "why does this expression give that result?". It's a little hard to give such a question a title that doesn't "sound ridiculous" - the best I can come up with is "why aren't the code evaluated in order left to right?", which would trigger a lot of close reflexes - both for being trivial and for sounding opinion based, as if the plan were to argue against implementing an operator precedence scheme.