How does two's complement work? For example:
5: 00000101
5 (two's complement): 11111011
How can one tell if the latter is supposed to be 251 or 5?
How does two's complement work? For example:
How can one tell if the latter is supposed to be 251 or 5? 


If its a signed integer, the most significant bit of it, works as its sign bit. If the sign bit is 0 the number is positive. If the sign bit is 1 the number is negative and is presented in 2's complement form and the compiler does 2's complement operation to handle these negative integers. But in the case of unsigned integer declared explicitly as "unsigned int", there is no sign bit and no 2's complement interpretation. So for signed 8 bin int 11111011 is the 2's complement of 5, hence represents 5, but for unsigned 8 bit int 11111011 is 251 as you mentioned. 


You can't! This is the reason that many languages have signed and unsigned types. It's so the compiler/interpreter knows whether to interpret a binary value as signed (two's complement) or unsigned. 


They are both and none. Depending which operation you use, the interpretation may differ or not  the reason why 2's complement is used, is that e.g. in integer arithmetic the bitpattern result of the operation will be correct, no matter if you interpret it as signed or unsigned. 


To better understand Two's complement have a look at the Wikipedia page The interpretation of the strings of bits depend on the instructions who are going to use that data. If you declare a variable as unsigned that bits are interpreted as a regular binary number. Otherwise, if you declare it as a signed variables it is interpreted as a two's complement value. 

