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I've tried with several different methods to get the 10001 prime number.

def isPrime(value):
  if ((2**value)-2)%value==0:
    return True

def nthPrime(n):
  count = 0
  value = 1
  while count < n:
    value += 1
    if isPrime(value):
      count += 1
  return value

When 10001 is the argument this returns 103903. When I'm expecting 104743.

I've tried:

primes = []
for i in range(2,105000):
  if ((2**i) - 2) % i == 0:

print primes[10001] ---> 103903
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What does your isPrime function answer for numbers: 1105, 1729, 2465 ? You'd know at plain sight that 1105 and 2465 are not prime... (Hint: en.wikipedia.org/wiki/Carmichael_number) –  Pablo May 19 '12 at 3:27
Pseudo-prime numbers eh, I vaguely remember coming across this before but, this has given it some context. Good stuff, thanks! –  tijko May 19 '12 at 3:57

2 Answers 2

up vote 2 down vote accepted

I believe your prime sieve is wrong. Try using an isPrime function that takes that number mod each lesser prime. If any of these are 0 then the number is composite (not prime). To the best of my knowledge there is no single comparison that will tell you if a number is prime, as your isPrime function assumes.

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Is this for Project Euler? It does seem familiar to me.

Your isPrime function is wrong, like TEOUltimus said, there is no one way to tell if a number is prime.

Simple Prime Generator in Python

This pretty much answers your question i guess.

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