You can't "write a grammar for [an] expression". Grammars are rules for production. A simple example is:
S -> (S)
S -> SS
S -> [empty]
Can you see what this grammar does?
Essentially, this allows you to generate strings like "", "()", "((()())())". Note I said "generate" - logically, you start with a single "S", and work up from there, replacing each S with some "production" on the right. But the key is that any string you generate by this method is "grammatically correct", in a formal sense.
Parsing is the reverse of this - turning a string into the corresponding order of productions. A grammar is ambiguous if this can be done in more than one way.
When you're writing a compiler, first you need to "lex" the input. 2+3*5 should be lexed into something like NUM ADD NUM TIMES NUM (each one is a token). Then you parse the tokens based on a grammar to build a "syntax tree", perhaps something like:
_ + _
You'll need to write the rules for production such that valid strings are the only things that can be generated. It's a little tricky, and a bit of an art, so I can't help much without more details.
Precedence is handled with different nonterminals (S and T, for example). A real parser will have dozens of them. C has hundreds. By skillfully arranging them, you force certain things to be matched ahead of others.