I think you mostly answered your own question.
I might make a small change to your phrasing and replace "temporary variable" with "rvalue" as C.Gibbons mentioned.
The terms variable, argument, temporary variable and so on will become more clear as you learn about C's memory model (this looks like a nice overview: https://www.geeksforgeeks.org/memory-layout-of-c-program/ ).
The term "rvalue" may seem opaque when you're just starting out, so I hope the following helps with developing an intuition about it.
Lvalue/rvalue are talking about the different sides of an equals sign (assignment operator):
lvalue = left hand side (lowercase L, not a "one")
rvalue = right hand side
Learning a little about how C uses memory (and registers) will be helpful for seeing why the distinction is important. In broad brush strokes, the compiler creates a list of machine language instructions that compute the result of an expression (the rvalue) and then puts that result somewhere (the lvalue). Imagine a compiler dealing with the following code fragment:
x = y * 3
In assembly pseudocode it might look something like this toy example:
load register A with the value at memory address y
load register B with a value of 3
multiply register A and B, saving the result in A
write register A to memory address x
The ++ operator (and its -- counterpart) need a "somewhere" to modify, essentially anything that can work as an lvalue.
Understanding the C memory model will be helpful because you'll get a better idea in your head about how arguments get passed to functions and (eventually) how to work with dynamic memory allocation, like the malloc() function. For similar reasons you might study some simple assembly programming at some point to get a better idea of what the compiler is doing. Also if you're using gcc, the -S option "Stop after the stage of compilation proper; do not assemble." can be interesting (though I'd recommend trying it on a small code fragment).
Just as an aside:
The ++ instruction has been around since 1969 (though it started in C's predecessor, B):
(Ken Thompson's) observation (was) that the translation of ++x was smaller than that of x=x+1."
Following that wikipedia reference will take you to an interesting writeup by Dennis Ritchie (the "R" in "K&R C") on the history of the C language, linked here for convenience: http://www.bell-labs.com/usr/dmr/www/chist.html where you can search for "++".