By default, numerical values in C are signed, which means they can be both negative and positive. Unsigned values on the other hand, don't allow negative numbers.

Because it's all just about memory, in the end all the numerical values are stored in binary. A 32 bit unsigned integer can contain values from all binary 0s to all binary 1s. When it comes to 32 bit signed integer, it means one of its bits (most significant) is a flag, which marks the value to be positive or negative. So, it's the interpretation issue, which tells that value is signed.

Positive signed values are stored the same way as unsigned values, but negative numbers are stored using *two's complement* method.

If you want to write negative value in binary, first write positive number, next invert all the bits and last add 1. When a negative value in *two's complement* is added to a positive number of the same magnitude, the result will be 0.

In the example below lets deal with 8-bit numbers, because it'll be simple to inspect:

```
positive 95: 01011111
negative 95: 10100000 + 1 = 10100001 [positive 161]
0: 01011111 + 10100001 = 100000000
^
|_______ as we're dealing with 8bit numbers,
the 8 bits which means results in 0
```

mustbe positive or zero. – wildplasser Nov 25 '12 at 17:52