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I am trying to find the sum for series : 1 − 1 / 2 + 1 / 3 − 1 / 4 + · · · + 1 / 99 − 1 / 100 ** 2 with python.

My code is -

psum = 0
nsum = 0
for k in range(1,100):
    if k%2 == 0:
        nsum += 1.0/k
        psum += 1.0/k

print psum - nsum - 1.0/100**2

The output is 0.69807217931

I don't have the answer and just want to verify if I am doing it right.

This is not a homework question but just random Python practice.

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Are you sure you're only meant to square the last term? (Well, if it isn't homework, then it's up to you I guess :) ) –  Karl Knechtel May 11 '12 at 20:46
yes, it is the last term only, I am doing this question from one random pdf that I got from internet, it is called "A Short Course in Python for Number Theory". –  Varun May 11 '12 at 20:50

5 Answers 5

up vote 4 down vote accepted

That works fine, but why not just use one "summing" variable (call it total, as a matter of good practice, since there is a built-in called sum which you don't really want to hide), and actually add or subtract from it at each step?

Alternately (pun intended!), actually use that sum function. The range function can be used to skip every other number, too.

>>> sum(1.0/k for k in range(1, 100, 2)) - sum(1.0/k for k in range(2, 100, 2)) - (1.0/100**2)

Or, as steveha shows, you can use logic to sort out whether to add or subtract the number based on whether it's divisible by 2, and handle it with a "weighted" sum (adding 1.0/k or -1.0/k as appropriate). This is why you should learn more math as a programmer :)

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I perfer the two sums to the ternary operator in a single sum ... +1 –  mgilson May 11 '12 at 20:59
Really? I honestly don't. Although sum(-1.0**(k+1) / k ...) is a better model for what I'm accustomed to seeing, actually :) since that's how mathematicians normally write it. However, exponentiating negative numbers doesn't work like that in Python... –  Karl Knechtel May 11 '12 at 21:06
Yeah -- Just a matter of preference I guess. If python's ternary operator was more C-like, I might perfer it, but as it is, I don't like seeing "control" statements inside my "mathematical" formulas. –  mgilson May 11 '12 at 21:09
sum(1.0/k if k % 2 else -1.0/k for k in xrange(1, 100)) - 1.0/100**2

The above code does the same thing as your code, and gets the same answer.

Why does the series use 1/k from 1 through 99, and then use 1/k**2 just for k == 100?

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I love list comprehension but forget to use them when I see a problem, maybe i need to start using them more :) –  Varun May 11 '12 at 20:51
This is definitely what I would normally do, but I assumed the OP's math skills were not up to understanding a weighted sum... –  Karl Knechtel May 11 '12 at 20:53
In this case, it is a "generator expression". A list comprehension builds a list, but a generator expression just yields up values one by one. You can iterate a genexp just as easily as a listcomp, and it is more efficient, since Python doesn't need to build a list that will be used once and then deleted. –  steveha May 11 '12 at 20:53
Also note that this gets the very last term wrong on python 2.x unless you from __future__ import division (in python 2, 1/100 == 0 because it does integer division) –  mgilson May 11 '12 at 21:06
I am new to Python, just completed few lectures of MIT CS class with Python, that's why I called a generator function a list comprehension, but soon I will know it well :) –  Varun May 11 '12 at 21:14

Well, I believe

import math
print math.log(2)

would do the trick.

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good find -- except for the (1/100)**2 term ... –  mgilson May 11 '12 at 21:04
That's the limit of the summation; here we're looking for a specific number of terms. –  Karl Knechtel May 11 '12 at 21:12
@KarlKnechtel: the OP wanted to verify if their code works correctly, this is the shortest way to check. Since your answer is on the top I'd suggest you edit this info in (WP link: en.wikipedia.org/wiki/Logarithm#Power_series) –  georg May 11 '12 at 21:17

The easiest way to see if you're doing it right is to try it with a much shorter series, one that you can check by hand. For example, use range(1, 5) and see if it gives the answer you expect.

For style tips, you can use xrange instead of range. xrange is nice because it just returns each number as it's needed, while range creates a big list of all the numbers. If you did this for range(1, 1000000), it would use up a lot of memory, while xrange wouldn't.

You could also get away with just one variable for the sum instead of two, I think.

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This is 2.x specific; in 3.x, range does what xrange used to do, and there is no more xrange. (To get what range used to do, you can apply list to the result.) –  Karl Knechtel May 11 '12 at 20:54

Here's my suggestion. little but more LOC then @steveha but more generic.

getx=lambda x:(1.0/x)*((-1)**((x%2)+1))
sum((getx(x) for x in xrange(1,num)))+getx(num)**2
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