Many front end devs know how to use a cubic bezier function. Most of us know of them for their utility in animation easing. It seems that fewer people understand how a cubic-bezier function actually works, and how to create one (probably because that's less useful knowledge). I'm looking for an SCSS port of a cubic-bezier function and can't seem to find one, so I'm trying to make one.

*EDIT: I thought I needed a bezier curve, but a polynomial approximation of a sine curve does the trick and is easy enough to pull off in SCSS.*

My goal is to alter properties of a group of DOM elements using `:nth-child()`

and a bezier curve to create a *sinusoidal difference* (or some other curve) from one element to the next. This is my current SCSS code, which will create a *linear difference* from one element to the next:

```
$steps: 4;
.class {
@for $i from 1 through $steps {
&:nth-child(#{$steps}n + #{$i}) {
$width: 100 / $steps * $i;
width: $width+em;
}
}
}
```

This would compile into CSS something like this:

```
.class:nth-child(4n+1) { width: 25em; }
.class:nth-child(4n+2) { width: 50em; }
.class:nth-child(4n+3) { width: 75em; }
.class:nth-child(4n+4) { width: 100em; }
```

I believe the way to achieve my goal is to multiply the width property in each step by a cubic bezier function that accepts five parameters:

```
@function cubic-bezier (x1, y1, x2, y2, epsilon) {
// Epsilon is the width property at a step in the for loop.
}
```

Two things need to be solved:

- Find or create an SCSS cubic bezier function.
- Properly implement that function in the nth-child for loop.