Just out of curiosity.

It doesn't seem very logical that typeof NaN is number. Just like NaN === NaN or NaN == NaN returning false, by the way. Is this one of the peculiarities of javascript, or would there be a reason for this?

Edit: thanks for your answers. It's not an easy thing to get ones head around though. Reading answers and the wiki I understood more, but still, a sentence like

A comparison with a NaN always returns an unordered result even when comparing with itself. The comparison predicates are either signaling or non-signaling, the signaling versions signal an invalid exception for such comparisons. The equality and inequality predicates are non-signaling so x = x returning false can be used to test if x is a quiet NaN.

just keeps my head spinning. If someone can translate this in human (as opposed to, say, mathematician) readable language, I would be gratefull.

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    +1: "NaN is a number but is not-a-number. Hum... what ?!" – ereOn May 10 '10 at 9:35
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    For extra fun; (NaN !== NaN) == true – Alex K. May 10 '10 at 9:37
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    Even more fun (but understandable coming to think of it, isNaN returns a boolean): isNaN(parseInt('nodice')) === isNaN(parseInt('someOtherNaN')) === true; – KooiInc May 10 '10 at 9:48
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    If using jQuery, I prefer isNumeric over checking the type: $.isNumeric(NaN); returns false, where as $.type(NaN);, returns number. api.jquery.com/jQuery.isNumeric – Justin Jul 19 '13 at 18:56
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    As professional mathematician I must say that sentence has little in common with precise language of maths. – Dmitri Zaitsev May 29 '16 at 18:13

21 Answers 21


It means Not a Number. It is not a peculiarity of javascript but common computer science principle.

From http://en.wikipedia.org/wiki/NaN:

There are three kinds of operation which return NaN:

Operations with a NaN as at least one operand

Indeterminate forms

  • The divisions 0/0, ∞/∞, ∞/−∞, −∞/∞, and −∞/−∞
  • The multiplications 0×∞ and 0×−∞
  • The power 1^∞
  • The additions ∞ + (−∞), (−∞) + ∞ and equivalent subtractions.

Real operations with complex results:

  • The square root of a negative number
  • The logarithm of a negative number
  • The tangent of an odd multiple of 90 degrees (or π/2 radians)
  • The inverse sine or cosine of a number which is less than −1 or greater than +1.

All these values may not be the same. A simple test for a NaN is to test value == value is false.

  • 51
    An even simpler test is isNaN(value) – Alsciende May 10 '10 at 14:12
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    @Alsciende it's not equivalent though. isNaN(undefined) returns true, but undefined == undefined is also true. Same goes for all other non-number types except null. – Andy Sep 1 '15 at 16:41
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    In other words, value !== value is probably the shortest way to test if value is truly NaN. – Andy Sep 1 '15 at 16:43
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    It looks like you are right, @Andy. Now that's a peculiarity. – Alsciende Sep 2 '15 at 9:55
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    The phrase "these values may not be the same" has no meaning, because those values do not exist. – Dmitri Zaitsev May 29 '16 at 18:15

Well, it may seem a little strange that something called "not a number" is considered a number, but NaN is still a numeric type, despite that fact :-)

NaN just means the specific value cannot be represented within the limitations of the numeric type (although that could be said for all numbers that have to be rounded to fit, but NaN is a special case).

A specific NaN is not considered equal to another NaN because they may be different values. However, NaN is still a number type, just like 2718 or 31415.

As to your updated question to explain in layman's terms:

A comparison with a NaN always returns an unordered result even when comparing with itself. The comparison predicates are either signalling or non-signalling, the signalling versions signal an invalid exception for such comparisons. The equality and inequality predicates are non-signalling so x = x returning false can be used to test if x is a quiet NaN.

All this means is (broken down into parts):

A comparison with a NaN always returns an unordered result even when comparing with itself.

Basically, a NaN is not equal to any other number, including another NaN, and even including itself.

The comparison predicates are either signalling or non-signalling, the signalling versions signal an invalid exception for such comparisons.

Attempting to do comparison (less than, greater than, and so on) operations between a NaN and another number can either result in an exception being thrown (signalling) or just getting false as the result (non-signalling or quiet).

The equality and inequality predicates are non-signalling so x = x returning false can be used to test if x is a quiet NaN.

Tests for equality (equal to, not equal to) are never signalling so using them will not cause an exception. If you have a regular number x, then x == x will always be true. If x is a NaN, then x == x will always be false. It's giving you a way to detect NaN easily (quietly).

  • 1
    good explanation, although I disagree in the last two sentences: a better way to check if x is a NaN is using isNaN() function – Carlos Morales Aug 9 '13 at 13:50
  • @DominicRodger here's how I think about it: typeof a === 'number' means "a is stored internally as an IEEE 754 float" – Andy Sep 1 '15 at 16:47
  • Why does Infinity === Infinity return true if an Infinity can be produced by different values: 1.0 / 0.0 or 2.0 / 0.0? – Hashem Qolami May 22 '16 at 9:15
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    @Hashem, quite likely because they're considered the same infinity. Treating division as repeated subtraction, it makes no difference whether you start at two or one, it's the same number of steps required to reach (or, more accurately, not reach) zero. I understand math gurus do have different classes of infinity but (1) I suspect 1/0 and 2/0 lay in the same class and (2) there's only one class of infinity in IEEE754 (other than +/- of course). – paxdiablo May 22 '16 at 11:02
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    I am not aware of any way to define these exceptional "actual numbers" in any meaningful way. In maths the log and the root of negatives can only be obtained by means of extension of reals to complex numbers, where they evaluate to multiple values, and 0/0 is not defined in any meaningful way, other than saying its "value" is the whole set of numbers. And even if they were defined, Math.log(-1) == Math.log(-1) still evaluates to false. So not only there are no "actual numbers" other than NaN but even if there were, they were not used for comparison. – Dmitri Zaitsev May 31 '16 at 13:05

The ECMAScript (JavaScript) standard specifies that Numbers are IEEE 754 floats, which include NaN as a possible value.

ECMA 262 5e Section 4.3.19: Number value

primitive value corresponding to a double-precision 64-bit binary format IEEE 754 value.

ECMA 262 5e Section 4.3.23: NaN

Number value that is a IEEE 754 "Not-a-Number" value.

IEEE 754 on Wikipedia

The IEEE Standard for Floating-Point Arithmetic is a technical standard established by the Institute of Electrical and Electronics Engineers and the most widely used standard for floating-point computation [...]

The standard defines

  • arithmetic formats: sets of binary and decimal floating-point data, which consist of finite numbers (including signed zeros and subnormal numbers), infinities, and special "not a number" values (NaNs)



typeof NaN returns 'number' because:

  • ECMAScript spec says the Number type includes NaN:

    4.3.20 Number type

    set of all possible Number values including the special “Not-a-Number” (NaN) values, positive infinity, and negative infinity

  • So typeof returns accordingly:

    11.4.3 The typeof Operator

    The production UnaryExpression : typeof UnaryExpression is evaluated as follows:

    1. Let val be the result of evaluating UnaryExpression.
    2. If Type(val) is Reference, then
      1. If IsUnresolvableReference(val) is true, return "undefined".
      2. Let val be GetValue(val).
    3. Return a String determined by Type(val) according to Table 20.

                    Table 20 — typeof Operator Results
    |        Type of val         |              Result               |
    | Undefined                  | "undefined"                       |
    | Null                       | "object"                          |
    | Boolean                    | "boolean"                         |
    | Number                     | "number"                          |
    | String                     | "string"                          |
    | Object (native and does    | "object"                          |
    | not implement [[Call]])    |                                   |
    | Object (native or host and | "function"                        |
    | does implement [[Call]])   |                                   |
    | Object (host and does not  | Implementation-defined except may |
    | implement [[Call]])        | not be "undefined", "boolean",    |
    |                            | "number", or "string".            |

This behavior is in accordance with IEEE Standard for Floating-Point Arithmetic (IEEE 754):

4.3.19 Number value

primitive value corresponding to a double-precision 64-bit binary format IEEE 754 value

4.3.23 NaN

number value that is a IEEE 754 “Not-a-Number” value

8.5 The Number Type

The Number type has exactly 18437736874454810627 (that is, 253−264+3) values, representing the double-precision 64-bit format IEEE 754 values as specified in the IEEE Standard for Binary Floating-Point Arithmetic, except that the 9007199254740990 (that is, 253−2) distinct “Not-a-Number” values of the IEEE Standard are represented in ECMAScript as a single special NaN value. (Note that the NaN value is produced by the program expression NaN.)


NaN != NaN because they are not necessary the SAME non-number. Thus it makes a lot of sense... Also why floats have both +0.00 and -0.00 that are not the same. Rounding may do that they are actually not zero.

As for typeof, that depends on the language. And most languages will say that NaN is a float, double or number depending on how they classify it... I know of no languages that will say this is an unknown type or null.

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    ehr, consider: var x = parseInt('no dice'), y = x; Now I would say that both NaN's are exactly the same? But no, x === y returns false too. – KooiInc May 10 '10 at 9:38
  • yes, but you cant be SURE, and thus they are not the same. It is the same logic as NULLable logic in database. Although many people think of them as the same as null pointers from other programming languages, they infact have a totally different semantics. They are "UNKNOWN" and thus one NULL value compared to another is always false. Doing calculations on a NULL value ends up with the result NULL. Try to view it from the perspective of the value being called UNKNOWN instead – Cine May 11 '10 at 1:39
  • As being of type number, NaN is primitive, and hence uniquely determined by its value. – Dmitri Zaitsev May 17 '16 at 3:45

NaN is a valid floating point value (http://en.wikipedia.org/wiki/NaN)

and NaN === NaN is false because they're not necessarily the same non-number

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    Sorry but I have to say that's not a good way to think about it. "not necessarily the same non-number" does not mean they are always different and comparing them should yield false. It's best not to quantify NaN and just think of it as an oddity in our knowledge base. – Dave Dec 10 '11 at 3:13
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    So why all Infinitys somehow are identical? Any thoughts? – Hashem Qolami May 22 '16 at 9:17

NaN stands for Not a Number. It is a value of numeric data types (usually floating point types, but not always) that represents the result of an invalid operation such as dividing by zero.

Although its names says that it's not a number, the data type used to hold it is a numeric type. So in JavaScript, asking for the datatype of NaN will return number (as alert(typeof(NaN)) clearly demonstrates).

  • Actually dividing by zero is evaluated to Infinity not NaN – Dmitri Zaitsev May 29 '16 at 18:26

Javascript uses NaN to represent anything it encounters that can't be represented any other way by its specifications. It does not mean it is not a number. It's just the easiest way to describe the encounter. NaN means that it or an object that refers to it could not be represented in any other way by javascript. For all practical purposes, it is 'unknown'. Being 'unknown' it cannot tell you what it is nor even if it is itself. It is not even the object it is assigned to. It can only tell you what it is not, and not-ness or nothingness can only be described mathematically in a programming language. Since mathematics is about numbers, javascript represents nothingness as NaN. That doesn't mean it's not a number. It means we can't read it any other way that makes sense. That's why it can't even equal itself. Because it doesn't.


A better name for NaN, describing its meaning more precisely and less confusingly, would be a numerical exception. It is really another kind of exception object disguised as having primitive type (by the language design), where at the same it is not treated as primitive in its false self-comparison. Whence the confusion. And as long as the language "will not make its mind" to choose between proper exception object and primitive numeral, the confusion will stay.

The infamous non-equality of NaN to itself, both == and === is a manifestation of the confusing design forcing this exception object into being a primitive type. This breaks the fundamental principle that a primitive is uniquely determined by its value. If NaN is preferred to be seen as exception (of which there can be different kinds), then it should not be "sold" as primitive. And if it is wanted to be primitive, that principle must hold. As long as it is broken, as we have in JavaScript, and we can't really decide between the two, the confusion leading to unnecessary cognitive load for everyone involved will remain. Which, however, is really easy to fix by simply making the choice between the two:

  • either make NaN a special exception object containing the useful information about how the exception arose, as opposed to throwing that information away as what is currently implemented, leading to harder-to-debug code;
  • or make NaN an entity of the primitive type number (that could be less confusingly called "numeric"), in which case it should be equal to itself and cannot contain any other information; the latter is clearly an inferior choice.

The only conceivable advantage of forcing NaN into number type is being able to throw it back into any numerical expression. Which, however, makes it brittle choice, because the result of any numerical expression containing NaN will either be NaN, or leading to unpredictable results such as NaN < 0 evaluating to false, i.e. returning boolean instead of keeping the exception.

And even if "things are the way they are", nothing prevents us from making that clear distinction for ourselves, to help make our code more predictable and easierly debuggable. In practice, that means identifying those exceptions and dealing with them as exceptions. Which, unfortunately, means more code but hopefully will be mitigated by tools such as TypeScript of Flowtype.

And then we have the messy quiet vs noisy aka signalling NaN distinction. Which really is about how exceptions are handled, not the exceptions themselves, and nothing different from other exceptions.

Similarly, Infinity and +Infinity are elements of numeric type arising in the extension of the real line but they are not real numbers. Mathematically, they can be represented by sequences of real numbers converging to either + or -Infinity.


This is simply because NaN is a property of the Number object in JS, It has nothing to do with it being a number.

  • Like every other object, Number can have any type of property. Number.fu = "bar"; alert(typeof Number.fu); – Alsciende May 10 '10 at 14:10
  • NaN is not the value stored in Number.NaN, whatever it might be. NaN is a primitive value of Number type. And additionally, the value of Number.NaN is NaN, but that's unrelated. – Oriol Jan 10 '15 at 21:06

The best way to think of NAN is that its not a known number. Thats why NAN != NAN because each NAN value represents some unique unknown number. NANs are necessary because floating point numbers have a limited range of values. In some cases rounding occurs where the lower bits are lost which leads to what appears to be nonsense like 1.0/11*11 != 1.0. Really large values which are greater are NANs with infinity being a perfect example.

Given we only have ten fingers any attempt to show values greater than 10 are impossible, which means such values must be NANs because we have lost the true value of this greater than 10 value. The same is true of floating point values, where the value exceeds the limits of what can be held in a float.

  • Infinity is not represented by a NaN. Attempting to represent a number outside of the range would be rounded down (to max/-inf) or up (to min/+inf). – OrangeDog Apr 15 '14 at 9:25

Because NaN is a numeric data type.


NaN is a number from a type point of view, but is not a normal number like 1, 2 or 329131. The name "Not A Number" refers to the fact that the value represented is special and is about the IEEE format spec domain, not javascript language domain.


If using jQuery, I prefer isNumeric over checking the type:

console.log($.isNumeric(NaN));  // returns false
console.log($.type(NaN));       // returns number


  • Thanks man. I had problems with isNumber from util package of Typescript. Good that we still use jQuery in our project so used your suggestion instead. – Ashok M A Nov 16 '17 at 14:12
  • For the rec, isNumber from util of typescript also returns true for NaN. – Ashok M A Nov 16 '17 at 14:13

Javascript has only one numeric data type, which is the standard 64-bit double-precision float. Everything is a double. NaN is a special value of double, but it's a double nonetheless.

All that parseInt does is to "cast" your string into a numeric data type, so the result is always "number"; only if the original string wasn't parseable, its value will be NaN.


NaN is still a numeric type, but it represents value that could not represent a valid number.


We could argue that NaN is a special case object. In this case, NaN's object represents a number that makes no mathematical sense. There are some other special case objects in math like INFINITE and so on.

You can still do some calculations with it, but that will yield strange behaviours.

More info here: http://www.concentric.net/~ttwang/tech/javafloat.htm (java based, not javascript)


You've got to love Javascript. It has some interesting little quirks.


Most of those quirks can be explained if you stop to work them out logically, or if you know a bit about number theory, but nevertheless they can still catch you out if you don't know about them.

By the way, I recommend reading the rest of http://wtfjs.com/ -- there's a lot more interesting quirks than this one to be found!


The value NaN is really the Number.NaN hence when you ask if it is a number it will say yes. You did the correct thing by using the isNaN() call.

For information, NaN can also be returned by operations on Numbers that are not defined like divisions by zero or square root of a negative number.

  • In what sense it is "the value"? NaN == Number.NaN evaluates to false! – Dmitri Zaitsev May 17 '16 at 3:47
  • @DmitriZaitsev Have you read the thread? And have you tried if (parseInt("nan") == Number.NaN)? Also try != and see what it tells you. – Rob May 17 '16 at 13:58
  • Sorry, forgot the stupid NaN==NaN being false, it must have been a sadist who invented that to make everyone suffer. – Dmitri Zaitsev May 17 '16 at 14:53

An example

Imagine We are converting a string to a number:

Number("string"); // returns NaN

We changed the data type to number but its value is not a number!

  • You seem to have missed the point of the question. NaN is of the number type. The question is asking why. – Quentin Apr 10 '19 at 14:28
  • @Quentin I explained at last line. – Amir Fo Apr 10 '19 at 14:29

It is special value of Number type as POSITIVE_INFINITY

Why? By design

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