Using Euclids Extended Algorithm:
Calculate x and y in Bézout's Identity
using (5,66)
Bezouts Identity
For 2 numbers a and b and divisor d:
ax + by = d
Extended Algorithm Table
a math | a | b math | b | d math | d | k math | k | Set to 1 | 1 | Set to 0 | 0 | | 5 | | |
Set to 0 | 0 | Set to 1 | 1 | | 66 | Quotient of 5/66 | 0 |
1 - (0 x 0) | 1 | 0 - (0 x 1) | 0 | Remainder of 5/66 | 5 | Quotient of 66/5 | 13 |
0 - (13 x 1) | -13 | 1 - (13 x 0) | 1 | Remainder of 66/5 | 1 | Quotient of 5/1 | 5 |
1 - (5 x -13) | 66 | 0 - (5 x 1) | -5 | Remainder of 5/1 | 0 | Quotient of 1/0 | 0 |
Take the last non-zero row for d:
a = -13 and b = 1
GCD Equation
ax + by = gcd(a,b)
5x + 66y = gcd(5
GCF(5, 66) = 1
Final Answer:
GCF(5, 66) = 1
How does the Euclids Algorithm and Euclids Extended Algorithm Calculator work?
Free Euclids Algorithm and Euclids Extended Algorithm Calculator - Given 2 numbers a and b, this calculates the following
1) The Greatest Common Divisor (GCD) using Euclids Algorithm
2) x and y in Bézouts Identity ax + by = d using Euclids Extended Algorithm
Extended Euclidean Algorithm
This calculator has 2 inputs.
What 1 formula is used for the Euclids Algorithm and Euclids Extended Algorithm Calculator?
What 8 concepts are covered in the Euclids Algorithm and Euclids Extended Algorithm Calculator?
- algorithm
- A process to solve a problem in a set amount of time
- equation
- a statement declaring two mathematical expressions are equal
- euclids algorithm
- method for computing the greatest common divisor (GCD) of two numbers
- euclids extended algorithm
- division algorithm for integers
- greatest common factor
- largest positive integer dividing a set of integers
- identity
- an equality that holds true regardless of the values chosen for its variables
- quotient
- The result of dividing two expressions.
- remainder
- The portion of a division operation leftover after dividing two integers