Proving two integers are relatively prime using Bezout's Theorem. If gcd &#x2061;<!-- ⁡ -->

skottyrottenmf

skottyrottenmf

Answered question

2022-05-21

Proving two integers are relatively prime using Bezout's Theorem.
If gcd ( a , b ) = 1 ,, a and b are relatively prime and also if gcd(a,b) is equal to 1 there should be 2 integers k and m such that a k + b m = 1..
If we can find such integers k and m, is it a proof that a and b are relatively prime ?
What you think about that proof? Is it correct way?

Answer & Explanation

Mya Hurst

Mya Hurst

Beginner2022-05-22Added 13 answers

Step 1
a, b be two integers and suppose there exists two integers u,v such that a u + b v = 1
Claim: a,b are relatively prime or co-prime.
Suppose, g c d ( a , b ) = d
So, d is a common divisor of a and b .
d|a and d|b .
Step 2
Hence, d | a u + b v = 1
d { 1 , 1 }
As, d is the greatest common divisor implies d = 1.
Hence, g c d ( a , b ) = 1

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