# Restructure Newton’s method (Case Study Approximating Square Roots) by decomposing it into…

Restructure Newton&#39;s method (Case Study: Approximating Square Roots) by decomposing it into three cooperating functions.

The newton function can use either the recursive strategy of Project 2 or the iterative strategy of the Approximating Square Roots Case Study. The task of testing for the limit is assigned to a function named limitReached, whereas the task of computing a new approximation is assigned to a function named improveEstimate. Each function expects the relevant arguments and returns an appropriate value.

An example of the program input and output is shown below: Enter a positive number or enter/return to quit: 2 The program&#39;s estimate is 1.4142135623746899 Python&#39;s estimate is 1.4142135623730951 Enter a positive number or enter/return to quitRestructure Newton&#39;s method (Case Study: Approximating Square Roots) by decomposing it into three cooperating functions. The nevton function can use either the recursive strategy of Project 2 or the iterative strategy of the Approximating Square Roots Case Study. The task of testing for the limit is assigned to a function named limitReached , whereas the task of computing a new approximation is assigned to a function named improveEstinate. Each function expects the relevant arguments and returns an appropriate value. An example of the program input and output is shown below: Enter a positive number or enter /return to quit:2 The progran&#39;s estinate is 1.4142135623746899 Python&#39;s estinate is 1.4142135623730951 Enter a positive number or enter/return to quit Restructure Newton&#39;s method (Case Study: Approximating Square Roots) by decomposing it into three cooperating functions. The nevton function can use either the recursive strategy of Project 2 or the iterative strategy of the Approximating Square Roots Case Study. The task of testing for the limit is assigned to a function named limitReached , whereas the task of computing a new approximation is assigned to a function named improveEstinate. Each function expects the relevant arguments and returns an appropriate value. An example of the program input and output is shown below: Enter a positive number or enter /return to quit:2 The progran&#39;s estinate is 1.4142135623746899 Python&#39;s estinate is 1.4142135623730951 Enter a positive number or enter/return to quit