Since you only want to isolate it, not get its index, it's easy:

```
function firstSetBit(number)
{
return number & -number;
}
```

It works because of the binary representation of `-number`

, which is called "two's complement".

To get a better example, let's say the number is 888, which is `0000001101111000`

in binary. The leading zeroes make a 16 bit number, but this works with any integer size.

To obtain the two's complement of a number, we first complement it, setting all 1s to 0s and 0s to 1s.

```
number: 0000001101111000
complement: 1111110010000111
```

Then we add 1 to it.

```
number: 0000001101111000
complement: 1111110010000111
add 1: 1111110010001000
```

Note that if the rightmost bit is 1, this would create a carry which flips all 1s into 0s until a 0 is reached.

This number is now actually also the binary representation of `-number`

.

```
number: 0000001101111000
complement: 1111110010000111
add 1: 1111110010001000
-number: 1111110010001000
```

We now take the bitwise & of `number`

and `-number`

.

```
number: 0000001101111000
-number: 1111110010001000
number & -number: 0000000000001000
```

To the right of the target bit, `number`

is all 0s by premise. `-number`

is also all 0s because they got flipped during the +1. Bitwise AND of 0 and 0 produces 0.

At the target bit, `number`

has a 1, also by premise. `-number`

also has a 1 because of the negate turning it into a 0 and carry putting it back to 1. Bitwise AND of 1 and 1 produces 1.

To the left of the target bit, `number`

and `-number`

always form 0 and 1 pairs because it is undisturbed by the +1 step of the two's complement procedure. Bitwise AND of 1 and 0 produces 0.

And thus, we have shown that `number & -number`

produces the lowest 1 bit of the number.

lowestset bit, yes?`x & -x`

to isolate the lowest bit. edit: tried it, works in JS too.