The Babylonian method to find square root is based on one of the numerical method, which is based on the Newton- Raphson method for solving non-linear equations.
The idea is simple, starting from an arbitrary value of x, and y as 1, we can simply get next approximation of root by finding the average of x and y. Then the y value will be updated with number / x.
Input and Output
Input: A number: 65 Output: The square root of 65 is: 8.06226
Algorithm
sqRoot(number)
Input: The number in real.
Output: Square root of given number.
Begin x := number y := 1 precision := 0.000001 while relative error of x and y > precision, do x := (x+y) / 2 y := number / x done return x End
Example
#include<iostream>
#include<cmath>
using namespace std;
float sqRoot(float number) {
float x = number, y = 1; //initial guess as number and 1
float precision = 0.000001; //the result is correct upto 0.000001
while(abs(x - y)/abs(x) > precision) {
x = (x + y)/2;
y = number/x;
}
return x;
}
int main() {
int n;
cout << "Enter Number to find square root: "; cin >> n;
cout << "The square root of " << n <<" is: " << sqRoot(n);
}Output
Enter Number to find square root: 65 The square root of 65 is: 8.06226