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By: Katrina Carlsen and Melissa Sparow.  For every integer n ≥ 2, n is a prime number or can be written uniquely (ignoring ordering) as a product of.

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Presentation on theme: "By: Katrina Carlsen and Melissa Sparow.  For every integer n ≥ 2, n is a prime number or can be written uniquely (ignoring ordering) as a product of."— Presentation transcript:

1 By: Katrina Carlsen and Melissa Sparow

2  For every integer n ≥ 2, n is a prime number or can be written uniquely (ignoring ordering) as a product of prime numbers  Ex: unique factorization of 825  Divide by successively larger primes (2,3,5 etc)

3 Prove the factorization of a composite number n>2 into prime numbers is unique when order is not important. N=p 1 p 2 p 3 …p r and N=q 1 q 2 q 3 …q s p 1 p 2 p 3 …p r = q 1 q 2 q 3 …q s P 1 | p 1 p 2 …p r so P 1 | q 1 q 2 …q s This means P 1 | q i Contradiction. This means factorization is unique!

4  integers a and b are relatively prime if gcd(a,b) = 1.  ia +jb = 1  i(21) + j(16) = 1 Find i and j   i (27) + j(25) = 1

5  p|p and p|a  gcd(a,p)= p  gcd(a,p) = 1  p|ab  P must divide either a or b  P doesn’t divide a..  1 = ia + jp  Linear combination of prime #s

6 Given positive integers a and b, gcd(a,b) is the linear combination of a and b that has the smallest positive value.

7  1 = ia + jp  Multiply by b  b = (ia)b + (jp)b = i(ab) + (jp)b  p|ab… ab written as kp  b = i(kp) + (jp)b  b = (ik +jb)p  p|b PROVEN!

8  Our goal was to proof the Fundamental Theorem of Arithmetic  In order to do so, we needed to understand the Theorem on Division by Prime Numbers, what it means to be Relatively Prime, Linear Combinations and the Theorem on gcd(a,b).

9 Theorem on Size of Prime Factors: If n is a composite number, then it has a prime factor less than or equal to √n. Given n=1021, find the prime factors of n or determine that it is prime. √1021 = 31.953 So we will test with prime numbers: 2,3,5,7,11, 13,17,19,23,29,31 None divides 1021. That means 1021 is prime.

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