Presently a direct analytical method, vide the Babylonian method developed in 1800 B.C., is available for the digit-by-digit extraction of the square root of a given positive real number. To calculate the nth root of a given positive real number one may use trial and error method, iterative method, etc. When one desires to determine the nth root, it is found that such methods are inherent with certain weaknesses like the requirement of an initial guess, a large number of arithmetic operations and several iterative steps for convergence, etc. There has been no direct method for the determination of the nth root of a given positive real number. This paper focuses attention on developing a numerical algorithm to determine the digit-by-digit extraction of the nth root of a given positive real number up to any desired accuracy. The analytic method contained in this paper would enable one to carry out digit-by-digit extraction of the nth root of a given positive real number which can be directly implemented. Since it is computationally feasible, it may be built in electronic devices to determine the nth root of a given positive real number.
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