16 (which has a prime decomposition of 2^4) and 27 (which has a prime decomposition of 3^3) have no common prime factors. Then why is the result of gcd(16, 27) == 1
?
I've checked with Python:
>>> from fractions import gcd
>>> gcd(16, 27)
1
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16 (which has a prime decomposition of 2^4) and 27 (which has a prime decomposition of 3^3) have no common prime factors. Then why is the result of gcd(16, 27) == 1
?
I've checked with Python:
>>> from fractions import gcd
>>> gcd(16, 27)
1
What you are probably confusing with is that the numbers 16 and 27 don't have any common divisors except 1. GCD is defined as the greatest common divisor/factor which divides both the numbers.
You are probably thinking about co-primes! But, neither 16 or 27 is prime to be checked for co-prime, as only prime numbers are compared for co-prime condition!
As you can see, the factors (divisors) of 16 are 1,2,4,8,16. Similarly, the factors (divisors) of 27 are 1,3,9,27.
16---> 1,2,4,8,16
27---> 1,3,9,27.
So, checking the highest/greatest common factor(h/gcf)
OR greatest common divisor(gcd)
of both the numbers, we find the gcd to be 1.
Hence, your python script is giving you the correct result as really the gcd of 16 and 27 does come out to be 1 as I explained above!