So while the question didn't make much sense to me, I couldn't resist the urge to toy around with the concept of recursively scanning a DOM tree to retrieve and sort elements by their size :)

Here's a dumb function for doing so (you can paste it in your browser console):

```
function scanSizes(root) {
return [].reduce.call(root, function(sizes, node) {
var bounds = node.getBoundingClientRect();
sizes.push({tag: node.outerHTML, area: bounds.width * bounds.height});
var children = node.querySelectorAll("*");
if (children.length > 0)
sizes.push.apply(sizes, scanSizes(children));
return sizes;
}, []).sort(function(x, y) {
var a = x.area, b= y.area;
return a > b ? -1 : a < b ? 1 : 0;
});
}
var sizes = scanSizes(document.querySelectorAll("body > *"));
// sizes[0].tag contains the largest html tag (as a string)
// sizes[0].area its area size in pixels (width * height)
```

**Edit:** more seriously, you might be interested in this topic and related answers.

**Edit:** of course performance wise recursion wasn't a really good idea. You can go with something like this to have a more efficient solution:

```
function scanSizes(root) {
return [].map.call(root, function(node) {
var bounds = node.getBoundingClientRect();
return {tag: node.outerHTML, area: bounds.width * bounds.height};
}).sort(function(x, y) {
var a = x.area, b= y.area;
return a > b ? -1 : a < b ? 1 : 0;
});
}
var sizes = scanSizes(document.querySelectorAll("*"));
```