Because you are comparing the (boolean) result of the first equality with the (non-boolean) third value.

In code, `1 == 1 == 1`

is equivalent to `(1 == 1) == 1`

is equivalent to `true == 1`

.

This means the three methods can be written more simply as:

```
function a() { return (true == 1); }
function b() { return (true == "1"); }
function c() { return (true == "a"); }
```

These comparisons work according to these rules (emphasis mine):

**If the two operands are not of the same type, JavaScript converts the
operands, then applies strict comparison. If either operand is a
number or a boolean, the operands are converted to numbers if
possible**; else if either operand is a string, the string operand is
converted to a number if possible. If both operands are objects, then
JavaScript compares internal references which are equal when operands
refer to the same object in memory.

So what happens in `c`

is that `"a"`

is converted to a number (giving `NaN`

) and the result is strictly compared to `true`

converted to a number (giving `1`

).

Since `1 === NaN`

is `false`

, the third function returns `false`

. It's very easy to see why the first two functions will return `true`

.

`true == "1"`

evaluates to`true`

. – Codor May 9 '14 at 9:53`true == 1`

is true. In other words, the aha moment is not realizing that the types play a part but rather that all of these are comparing something to`true`

. I 'm sure there's a dupe of this somewhere, but IMO it's not one of those you offer. – Jon May 9 '14 at 12:45