One approach is to create a bitmask, and then right-shift the value.

That is, create a bitmask so that your integer is '1000....' or '0.....' - depending on whether that first bit is a 0 or a 1.

Then take that integer and right-shift it until it becomes the least-significant-bit, rather than the most-significant. As an example, `0b10000000 >> 8`

is 1.

So first, depending on the size of your integer, you have to shift, well, however many bits are relevant.

Then you have to create the bitmask. Let's just take a 1-byte integer:

`unsigned int i = 1 << 8`

would create an integer i whose most significant bit is a 1.

Or you could use hex. You already know that `0xFF`

== `11111111`

. You can actually break it up further: `0xF0`

== `11110000`

Since `0xF`

== `1111`

in binary, well, we will do the reverse. `1000`

in binary is what, in hex? `1000`

in binary is the number `8`

, which also happens to equal `0x8`

So, for a single byte, the mask for the leftmost bit is `0x80`

.

Now! Apply this to 32 bits!

Good luck!