Hmm. That's tricky because it depends on what your brain is able to do.
Usually intuitive understanding helps brains. And lvalues and rvalues are not intuitive.
Temporaries are much more intuitive. You know that behind 3 there is an int somewhere and that said int temporarily exists for the expression and then is gone.
Temporaries are rvalues.
Then there are variables that persist. Variables have a name and you can take their address. Those are your lvalues.
Though that doesn't help at all with the cast example.
Because it says `&&` which is an rvalue reference.* *There are also forwarding references that use `&&` which are not rvalue references, but that doesn't apply here.
I've got a question of similiar nature like this one posted 5 years ago:
Why are rvalues references variables not rvalue?
My major concern is why can I do this:
int&& k = 3;
k++;
but I cannot do this:
(static_cast<int&&>(3))++;
I've always interpreted rvalue references as lvalues since rvalue r...
What is dumb is worrying about it. You don't need to know these things. Just know what a temporary is, why it matters and that std::move exists and you're good. But I'm getting the feeling you have an exam of sorts that will ask these questions so you have to know the answer.
Then you should probably do some exercises in that direction instead of learning about value categories that are only relevant for compiler implementers.
If you haven't looked into type erasure, reimplementing std::function is a "fun" exercise.