For an ellipse:

```
x = a cos(t)
y = b sin(t)
```

So:

```
x/a= cos(t)
t = acos(x/a)
y = b sin(acos(x/a))
```

Plug in your values of `a`

, `b`

, and `x`

and you get `y`

.

See http://www.mathopenref.com/coordparamellipse.html

Rather crudely:

```
<html>
<head><title>Ellipse</title></head>
<body>
<canvas id="myCanvas" style="position: absolute;" width="400" height="200"></canvas>
<script type="text/javascript">
var a=120;
var b=70;
var c=document.getElementById("myCanvas");
var cxt=c.getContext("2d");
var xCentre=c.width / 2;
var yCentre=c.height / 2;
// draw axes
cxt.strokeStyle='blue';
cxt.beginPath();
cxt.moveTo(0, yCentre);
cxt.lineTo(xCentre*2, yCentre);
cxt.stroke();
cxt.beginPath();
cxt.moveTo(xCentre, 0);
cxt.lineTo(xCentre, yCentre*2);
cxt.stroke();
// draw ellipse
cxt.strokeStyle='black';
cxt.beginPath();
for (var i = 0 * Math.PI; i < 2 * Math.PI; i += 0.01 ) {
xPos = xCentre - (a * Math.cos(i));
yPos = yCentre + (b * Math.sin(i));
if (i == 0) {
cxt.moveTo(xPos, yPos);
} else {
cxt.lineTo(xPos, yPos);
}
}
cxt.lineWidth = 2;
cxt.strokeStyle = "#232323";
cxt.stroke();
cxt.closePath();
// draw lines with x=+/- 40
var deltaX=40;
var y1=b*Math.sin(Math.acos(deltaX/a));
cxt.strokeStyle='red';
cxt.beginPath();
cxt.moveTo(xCentre+deltaX, yCentre-y1);
cxt.lineTo(xCentre, yCentre);
cxt.lineTo(xCentre-deltaX, yCentre-y1);
cxt.stroke();
</script>
</body>
```

(Using http://www.scienceprimer.com/draw-oval-html5-canvas as a basis as I've never used HTML canvas before.)