The `<=`

operator coerces both operands into actual Numbers before performing the comparison *if both operands are primitives* -- while `==`

does **not**.^{1} Abstract relational comparison is performed which is where this conversion actually happens. The operation ToNumber is performed on `undefined`

which yields `NaN`

(see the linked table). If you then look at steps 4c and 4d from Abstract relational comparison, if either operand of `<=`

is coerced into `NaN`

, then `undefined`

is returned from Abstract relational comparison. Going back to the first link, you'll see in step 7:

If *r* is **true** or **undefined**, return **false**. Otherwise, return **true**.

Since Abstract relation comparison returned `undefined`

, `<=`

evaluates to false.

Less formally, you can see your comparison like this:

```
const first = Number(undefined); //or +undefined
const two = Number(undefined); //this is NaN
NaN <= NaN
```

Since `NaN == NaN`

is never true, nor is `NaN < NaN`

, `NaN <= NaN`

is false.

^{1} `undefined == undefined`

returns true based on the abstract SameValueNonNumber operation which is used with equality operators if both operads are the same value, but not numbers.

abstract equality comparison algorithm, the second uses theabstract relational comparison algorithm.