I'm trying to get the nth root of a number using JavaScript, but I don't see a way to do it using the built in Math object. Am I overlooking something?
If not...

Is there a math library I can use that has this functionality?
If not...

What's the best algorithm to do this myself?

  • How many of the roots do you want? Just the single most obvious, or all of them? – Ignacio Vazquez-Abrams Sep 5 '11 at 13:19
up vote 106 down vote accepted

Can you use something like this?

Math.pow(n, 1/root);


Math.pow(25, 1/2) == 5
  • 1
    This will work if the pow function can take a fractional exponent. Not sure, but it should :) – Richard H Sep 5 '11 at 13:18
  • it does but does not handle negative numbers – mplungjan Sep 5 '11 at 13:39
  • 1
    A small note. The pow function approximates the answer. So, for large values, this approximation can return very wrong numbers. [reference]. The same is true for the JS implementation. ref – Debosmit Ray Mar 13 '16 at 9:03
  • After my edit, negative values are handled – DJDaveMark Sep 4 '17 at 13:30

The nth root of x is the same as x to the power of 1/n. You can simply use Math.pow:

var original = 1000;
var fourthRoot = Math.pow(original, 1/4);
original == Math.pow(fourthRoot, 4); // (ignoring floating-point error)

Use Math.pow()

Note that it does not handle negative nicely - here is a discussion and some code that does


function nthroot(x, n) {
  try {
    var negate = n % 2 == 1 && x < 0;
      x = -x;
    var possible = Math.pow(x, 1 / n);
    n = Math.pow(possible, n);
    if(Math.abs(x - n) < 1 && (x > 0 == n > 0))
      return negate ? -possible : possible;
  } catch(e){}

The n-th root of x is a number r such that r to the power of 1/n is x.

In real numbers, there are some subcases:

  • There are two solutions (same value with opposite sign) when x is positive and r is even.
  • There is one positive solution when x is positive and r is odd.
  • There is one negative solution when x is negative and r is odd.
  • There is no solution when x is negative and r is even.

Since Math.pow doesn't like a negative base with a non-integer exponent, you can use

function nthRoot(x, n) {
  if(x < 0 && n%2 != 1) return NaN; // Not well defined
  return (x < 0 ? -1 : 1) * Math.pow(Math.abs(x), 1/n);


nthRoot(+4, 2); // 2 (the positive is chosen, but -2 is a solution too)
nthRoot(+8, 3); // 2 (this is the only solution)
nthRoot(-8, 3); // -2 (this is the only solution)
nthRoot(-4, 2); // NaN (there is no solution)
  • "nthRoot(-4, 2); // NaN (there is no solution)" well... at least not in real numbers – Moritz Feb 14 '17 at 17:06

You could use

Math.nthroot = function(x,n) {
    //if x is negative function returns NaN
    return this.exp((1/n)*this.log(x));
//call using Math.nthroot();

For the special cases of square and cubic root, it's best to use the native functions Math.sqrt and Math.cbrt respectively.

As of ES7, the exponentiation operator ** can be used to calculate the nth root as the 1/nth power of a non-negative base:

let root1 = Math.PI ** (1 / 3); // cube root of π

let root2 = 81 ** 0.25;         // 4th root of 81

This doesn't work with negative bases, though.

let root3 = (-32) ** 5;         // NaN

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.