Nth root algorithm

The principal "n"th root $sqrt [n] {A}$ of a positive real number "A", is the positive real solution of the equation

: $x^n = A$

(for integer "n" there are "n" distinct complex solutions to this equation if $A > 0$ , but only one is positive and real).

There is a very fast-converging "n"th root algorithm for finding $sqrt [n] {A}$ :
#Make an initial guess $x_0$
#Set $x_{k+1} = frac{1}{n} left [{(n-1)x_k +frac{A}{x_k^{n-1}
ight]$
#Repeat step 2 until the desired precision is reached.

A special case is the familiar square-root algorithm. By setting "n" = 2, the "iteration rule" in step 2 becomes the square root iteration rule:: $x_{k+1} = frac{1}{2}left(x_k + frac{A}{x_k}
ight)$

In the case of "n" = 1/2 the rule also simplifies and becomes:: $x_{k+1} = frac{2 x_k} {1 + A x^2_k}$

Several different derivations of this algorithm are possible. One derivation shows it is a special case of Newton's method (also called the Newton-Raphson method) for finding zeros of a function $f(x)$ beginning with an initial guess. Although Newton's method is iterative, meaning it approaches the solution through a series of increasingly-accurate guesses, it converges very quickly. The rate of convergence is quadratic, meaning roughly that the number of bits of accuracy doubles on each iteration (so improving a guess from 1 bit to 64 bits of precision requires only 6 iterations). For this reason, this algorithm is often used in computers as a very fast method to calculate square roots.

For large "n", the "n"^th root algorithm is somewhat less efficient since it requires the computation of $x_k^{n-1}$ at each step, but can be efficiently implemented with a good exponentiation algorithm.

Derivation from Newton's method

Newton's method is a method for finding a zero of a function "f(x)". The general iteration scheme is:

#Make an initial guess $x_0$
#Set $x_{k+1} = x_k - frac{f(x_k)}{f'(x_k)}$
#Repeat step 2 until the desired precision is reached.

The "n"^th root problem can be viewed as searching for a zero of the function

: $f(x) = x^n - A$

So the derivative is

: $f^prime(x) = n x^{n-1}$

and the iteration rule is

: $x_{k+1} = x_k - frac{f(x_k)}{f'(x_k)}$ : $= x_k - frac{x_k^n - A}{n x_k^{n-1$ : $= x_k - frac{x_k}{n}+frac{A}{n x_k^{n-1$ : $= frac{1}{n} left [{(n-1)x_k +frac{A}{x_k^{n-1}
ight]$

leading to the general "n"^th root algorithm.

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