scanf("%p", something); expects
something to be the address of (i.e., a pointer to) a pointer where it will deposit the value it reads. Exactly how it interprets what you enter is implementation defined, but given that addresses are (now) often expressed in hexadecimal, it's no surprise for it to treat the input as hexadecimal.
In your case, you're passing the pointer itself, instead of the pointer's address.
scanf doesn't realize that, however, so it uses it as if it were the address of a pointer, and writes whatever was entered as a pointer value into that address.
Then, when you print out
*p, it prints back out what
scanf put there.
Of course, that's not necessarily the case. First of all,
%p conversion is mostly implementation defined. Second, unless
p was initialized to point at memory to hold a pointer value (which it normally wouldn't be)
scanf will end up writing to the random address that happened to be held in an un-initialized pointer. The result of that is undefined behavior.