When I run this code, even for just counting to the 10th prime number (instead of 1000) I get a skewed/jacked output--all "not prime" titles for my is_composite variable, my test_num is giving me prime and composite numbers, and my prime_count is off

Some of the answers that developers have shared use functions and the math import--that's something we haven't yet covered. I am not trying to get the most efficient answer; I am just trying to write workable python code to understand the basics of looping.

```
# test a prime by diving number by previous sequence of number(s) (% == 0). Do this by
# counting up from 1 all the way to 1000.
test_num = 2 #these are the numbers that are being tested for primality
is_composite = 'not prime' # will be counted by prime_count
prime_count = 0 #count the number of primes
while (prime_count<10): #counts number primes and make sures that loop stops after the 1000th prime (here: I am just running it to the tenth for quick testing)
test_num = test_num + 1 # starts with two, tested for primality and counted if so
x = test_num - 1 #denominator for prime equation
while (x>2):
if test_num%(x) == 0:
is_composite = 'not prime'
else:
prime_count = prime_count + 1
x = x - 1
print is_composite
print test_num
print prime_count
```

specificallyis not working? – eldarerathis Oct 7 '10 at 21:17`while x > 2: # runs while x is greater than 2`

is self-evident. In general: comment the why, not the what. – Adriano Varoli Piazza Oct 7 '10 at 21:23"big"prime numbers. To me, a large prime number is large enough that all primes less than that candidate prime number would occupy more memory (hard drive space?) than is available on the machine (cluster?) testing the candidate prime for primality. To me, the first approximately 2^40 primes aresmall– SingleNegationElimination Oct 7 '10 at 22:28