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This is the assignment my professor gave me. I have no idea where to start or what to do! The point is to use loops to figure this out and I can do the loops, but this is blowing my mind.

Even numbers and primes.

A prime number is one that has 1 and itself as its only divisors. 2, 3, 5, 7 and 11 are the first several. Notice that 'being prime' is purely a multiplicative condition -- it has nothing to do with addition. So it might be surprising that if we start listing even numbers, they seem to be the sum (addition!) of two primes. 4 = 2 + 2, 6 = 3 + 3, 8 = 5 + 3, 10 = 3 + 7, 12 = 7 + 5, 14 = 7 + 7, 16 = 13 + 3, ...

Is this always the case? Can every even number be written as the sum of two primes?

(a) Write a is_prime(n) function. It should accept a positive integer n>1 as input, and output True or False, depending on whether n is or is not a prime number. Do this with a loop that checks whether for any integer d, 1 < d < sqrt(n), d divides n. I'd suggest a while loop -- think carefully about the conditional for the loop, and when you want to change this conditional inside the loop. (Use a boolean for your condition).

(b) Write a prime_sum(n) function. It should accept an even number n>1 as input, and via a loop search for primes p & q with p + q = n. Hint: start with p = 3. If (p) and (n-p) are prime you are done. If not, set p+=2 and try again. Make sure you do not search forever!

(c) Main. i) Ask the user for an even number n. Continually ask them until they do give you a positive even number. ii) Search for the summands p & q, and either print them out (if they exist) or say they don't. iii) Ask the user if they wish to try with another even, and let them continue until they quit.


I didn't know I could edit this! :) So this is what I have so far. I have not tested it yet to debug it b/c I want to get it all down and when the errors pop up I will address them, but if you see any immediate problems let me know.

def is_prime(n):
    d=2
    while n>1 and d<n**0.5:
        if n%2==0:
            c=False
        d+=1
    return c

def prime_sum(n):
    p=3
    while n>1:
        q=n-p
        if q<=0:
            p+=2
            q=n-p
            is_prime(q)
        else:
            is_prime(q)
            is_prime(p)
    while True:
        print("The prime summands of", n, "are", p, "and", q)
    while False:
        print("There are no prime summands of", n)

def main():
    n=eval(input("Gimme an even number please: "))
    while True:
        n=eval(input("That is not a positive even number. Try again: "))
    #not sure how to combine yet, but I am still finishing.
    #will edit again when I have it all down.
share|improve this question
    
So what have you tried so far? –  iluxa Mar 29 '11 at 1:41
    
"I can do the loops" suggests to me that you understand the prompt, but I guess that's not the case. What exactly in the assignment don't you understand, if not the way to organize the loops? –  senderle Mar 29 '11 at 1:43
    
What's the question? You have the steps. Write the is_prime function. Then move on to the next step. We won't do your homework for you. You have to write your own code. –  S.Lott Mar 29 '11 at 1:43
2  
Lookup Goldbach Conjecture. It is an unsolved problem. –  Aryabhatta Mar 29 '11 at 1:57
    
"1 < d < sqrt(n)" gives you the starting and ending points for the loop. "checks whether for any integer d, ..., d divides n" gives you what should go inside the loop. –  joelt Mar 29 '11 at 2:00

3 Answers 3

Don't worry about the big picture of the assignment being difficult. Just go step by step as the prof has broken it down.

share|improve this answer
    
my question is how to start it. this is how my mind is working:: –  Callie Mar 29 '11 at 1:50
    
@Callie Camper: Write a is_prime(n) function. That's how you start it. –  S.Lott Mar 29 '11 at 1:52
    
@Callie, the assignment tells you exactly how to start: "Do this with a loop that checks whether for any integer d, 1 < d < sqrt(n), d divides n." –  senderle Mar 29 '11 at 1:56

Prime Number

A prime number (or a prime) is a natural number that has exactly two distinct natural number divisors: 1 and itself.

A)

def is_prime(n):                 # Write a is_prime(n) function.
    if n <= 1:                   # It should accept a positive integer n>1 
        return False
    if n == 2:                   # 2 has 2 divisors 1 and itself satisfying definition
        return True
    i = 2                        # Start from 2 and check each number to the sqrt(n)
    while i < n**0.5:            # sqrt(n) can be written as n**0.5
        if n % i == 0:           # If n is divisible by i, which is not 1 or itself, 
            return False         #    return False (not prime)
        i+=1                     # Increment i by 1 and check looping condition
    return True                  # If loop breaks, return True (prime)

Primes can be discovered in a variety of ways. This is one of the most basic with the only optimisation being that the divisor to check is stopped at the root of n instead of checking every number to n.

The most basic probably being:

def is_prime(n):
    if n < 2:
        return False
    for i in range(2,n):
        if n % i == 0:
            return False
    return True

B)

def prime_sum(n):
    if n % 2 or n < 1:                          # if n is odd or less than 1 return invalid
        return "invalid input"
    p = 3
    while n-p > 0:
        if is_prime(p) and is_prime(n-p):       
            return (p, n-p)                     # if both conditions are met, return prime tuple
        p+=2                                    # only check odd numbers
    return "no answer found"                    
share|improve this answer
1  
I have to question your pedagogical approach here. @Callie, I hope you don't just copy this without bothering to understand your error. –  senderle Mar 29 '11 at 2:27
    
@senderle I'm not that stupid. Plus this is really advanced for my level so I'm taking the concept and trying to write it in my language. I think I got it (haven't tested it yet though). –  Callie Mar 29 '11 at 2:52

Check out this isPrime function based on some C code written by Tristan Miller.

See it, study it, run through several example inputs until you get it, then go to step 2 of the tasks you have to do.

Hope it gets you started.

def isPrime(n):
    """returns True if n is prime, false otherwise."""

    # <2 not prime
    if n < 2:
        return False

    # 2 is prime
    if n == 2:
        return True

    # >2 check it
    for i in range(2, n):
        if n%i == 0:
            return False
    return True

def main():
    """Test our isPrime function."""
    print("is 1 prime: ", isPrime(1))
    print("is 2 prime: ", isPrime(2))
    print("is 4 prime: ", isPrime(4))
    print("is 5 prime: ", isPrime(5))
    print("is 13 prime: ", isPrime(13))

# run the test program
main()
share|improve this answer
1  
your range should only go to the pow(n, 0.5) or n**0.5 of n as per instructions –  DTing Mar 29 '11 at 2:02
    
@Callie, see my comment on kriegar's post. –  senderle Mar 29 '11 at 2:38

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