First a few tidbits:

- nth-child uses
`1`

-based indices for matching (i.e. `nth-child(1)`

is the first child, not the second)
`n`

in the `An + B`

notation is the iterator value
`n`

starts at `0`

and counts up
`An + B`

will be a matched index (I'll call it `i`

)

read the spec for more info

If you have a set of elements you want to match, you ought to write them out:

Example:

```
1st, 10th, 19th, 28th...
```

In this case you want to match `n`

to specific indices

```
n | i
======
0 | 1
1 | 10
2 | 19
3 | 28
4 | 37
etc...
```

If we solve for `An + B = i`

using `n = 0`

, `i = 1`

we can get the value of B:

```
A(0) + B = 1
B = 1
```

We can then use this value in a second substitution using `n = 1`

, `i = 10`

:

```
A(1) + 1 = 10;
A = 9;
```

So we now have `9n + 1`

for a selector to match `1,10,19,28,etc`

You can rinse and repeat for each different selection, but pretty soon you ought to realize that the repetition happens every `A`

elements, and the offset is `B`

elements.

_{The nth-child selector is a great real-world example of where high-school algebra is actually useful}

`nth-child`

isn't supported in Internet Exploder. – zzzzBov Aug 26 '11 at 15:20