'''
Created on Jan 11, 2011
@author: Jeff Patti
'''
import useful_functions
primes = useful_functions.prime_sequence()
sum = 0
while True:
next = primes.next()
if next > 2000000:
break
sum+=next
print sum
'''
Created on Feb 6, 2011
@author: Jeff Patti
'''
import useful_functions
from collections import defaultdict
prime_gen = useful_functions.prime_sequence()
prime_set = set()
prime_list = []
while True:
val = prime_gen.next()
if val > 30000:
break
prime_set.add(val)
prime_list.append(val)
prime_groups = defaultdict(list)
for prime in prime_list:
if prime < 1000:
continue
if prime > 10000:
'''
Created on Jan 16, 2012
@author: Jeff Patti
'''
import useful_functions
primes = []
prime_set = set()
prime_generator = useful_functions.prime_sequence()
for prime in prime_generator:
if prime > 1000000:
break
primes.append(prime)
prime_set.add(prime)
print primes
print len(primes)
num_primes = len(primes)
for j in range(20, 1000):
for i in range(len(primes)):
if num_primes < i + j:
continue
slice = primes[i:i + j]
#print slice
summed = sum(slice)
if summed > 1000000:
'''
Created on Jan 15, 2011
@author: Jeff Patti
'''
import useful_functions
primes = set()
prime_generator = useful_functions.prime_sequence()
for i in range(2000):
primes.add(prime_generator.next())
def how_many_primes(a, b):
n = 0
evaluate = lambda n, a, b : n*n + a*n + b
while True:
iteration = evaluate(n,a,b)
if iteration not in primes:
return n
n += 1
print how_many_primes(1, 41)
max_a = 0
max_b = 0
max_primes = 0
for a in range(-1000,1001):
for b in range(-1000,1001):
