Program to find Primes of the form prime(n+2) * prime(n+1) - prime(n) +- 1.
On Thu, 04 Oct 2018 09:44:01 +0100, Tony van der Hoff wrote:
> On 04/10/18 09:31, Alister via Python-list wrote:
>> On Wed, 03 Oct 2018 09:43:07 -0700, Musatov wrote:
>>> On Wednesday, October 3, 2018 at 11:12:43 AM UTC-5, Michael Torrie
>>>> On 10/03/2018 09:26 AM, Musatov wrote:
>>>>> I don't even know where to begin! (I'm reading the Dummies book)
>>>> If you have no experience in computer programming, it's going to be a
>>>> steep learning curve.
>>>> But your first step is to learn Python and how to write programs in
>>>> That book and others will help with that. You'll have to write lots
>>>> of simple programs unrelated to primes along the way that help you
>>>> understand programming concepts.
>>>> If you already have experience in other languages, the task will be
>>>> Computer programming is quite natural to some (small children seem to
>>>> get it much easier than us adults), but I've seen others struggle to
>>>> grasp the abstract concepts for years.
>>>> Once you've grasped basic Python programming, you can return top the
>>>> original problem at hand. Start by identifying the process or
>>>> algorithm that would find these primes. In other words, how would you
>>>> do it on pen and paper? Computer programs are not magic. They are
>>>> only expressions of human thinking. Often some very smart
>>>> mathematicians have come up with powerful algorithms (a step-by-step
>>>> process) to do these things,
>>>> and your job as a programmer is to turn this mathematical process
>>>> into a computer program using things like loops and Boolean logic.
>>>> How would you find these primes using your pen, paper, and
>>> Literally, how I found them was taking a list of primes and checking
>>> if the calculations with the lesser primes resulted in numbers also
>>> further along on the list.
>>> Another way I guess would be to do the calculations then check if the
>>> number is prime.
>> That is exactly how you do it with in a program.
>> create a loop & check to see if the target number can be divided by
>> each possible divisor in turn .
>> for large numbers this will take a large number of tests (hey that is
>> why you have the computer do them, it is faster than you & does not get
>> bored ;-) ) there are numerous tricks for speeding up this process once
>> you have the basic working.
>> start by testing small numbers & then use your real data once you have
>> something that works
>> as a starter a simple loop in python could be as follows
>> for x in xrange(10):
>> print x
>> once you have an outline of a program post it back here if things dont
>> work as expected
> Two lines, two errors! To save the noob a lot of head-scratching, that
> should be:
> for x in range(10):
> If you're running python 3, as you should do for any new project:
> print( x )
perfectly legit python 2.7
I probably should have considered writing python 3 compatible code but
range operates differently on the 2 versions & would be a poor choice for
python 2 when numbers get larger
ass for the head scratching a noob (& anyone else for that mater) far
more from correcting code than they do from simply copy & pasting working
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