# How can I approximate pi by summing N terms of a specified series?

I am a beginner with the homework assignment of writing a function that approximates pi by summing N terms of the series

``````sqrt(12) * (1 - (1/3*3) + (1/(5*3^2)) - (1/(7*3^3)) ... )
``````

This is my 80 bajillionth attempt.

``````import math
def piApproxSeries(N):
for i in range (N):
acc = 0
N = i%2==0
sign = (-1)**i
acc += math.sqrt(12)(1-(1/(N*3^(acc)))
return acc
``````

I'm getting an error that highlights `return` and says invalid syntax. What can I do differently?

-

There are several issues:

• Missing closing parens in line 8, causing the syntax error
• `math.sqrt(12)(1-(1/(N*3^(acc))))` should probably mean `math.sqrt(12)*(1-(1/(N*3**acc)))`
• You are using `/`, which performs an integer division in Python 2, causing the result to always be zero in this case.
• You are using the variable `N` ambiguously (although this is no actual problem here). You probably want a separate variable for inside the loop.
• You (might) expect `i` to iterate over the range `1..N`, while it actually goes from `0..(N-1)`
• You are using the result of a boolean expression `i%2==0` as an integer afterwards, which is bad style and probably not intended
• You are resetting `acc` to zero in every iteration!

I tried to fix it:

``````import math
def piApproxSeries(N):
acc = 0
for i in range(N):    # i    will be 0,  1,  2,  3, ..., N-1
sign = (-1)**i      # sign will be 1, -1,  1, -1, ...
n = (i + 1)*2 - 1   # n    will be 1,  3,  5,  7, ...
acc += sign*(1.0/(n*3**i))
return math.sqrt(12) * acc

print piApproxSeries(50) # => 3.14159265359
``````

If you want to impress someone, you can also use a generator:

``````import itertools
import math
def piApproxSeriesGen(N):
terms = ((-1)**i * (1.0 / ((2*i+1) * 3**i)) for i in itertools.count())
return math.sqrt(12) * sum(itertools.islice(terms, N))
``````
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This was really helpful. The part that I sort of don't understand is why math.sqrt(1-(1/(N*3**acc)) would not work. –  Morgan Lily Feb 6 '12 at 23:48
@Morgan: First, `acc` is always zero in your code. Second, the exponents have to be 0, 1, 2, 3, ..., while `acc` contains the current state of the summation. So I have to reverse the question: Why would it work? –  Niklas B. Feb 6 '12 at 23:54
I thought that acc would gain value as it progressed through the series. –  Morgan Lily Feb 7 '12 at 0:25
@Morgan: It doesn't, you reset it at the beginning of every iteration: `acc=0`. If it actually worked as you intended, then `acc` would grow closer and closer to Pi, but why would you want it as the exponent then?? Also, `N` would have the wrong values (1, 0, 1, 0, 1, 0, ...) instead of 1, 3, 5, 7... –  Niklas B. Feb 7 '12 at 0:28
Also.. 1-(1/(3*3^r)) I am trying to increase r with every iteration. –  Morgan Lily Feb 7 '12 at 0:32

Count your parentheses. You didn't properly close the line before the return statement.

Also, typing a*b as "ab" doesn't work in Python code.

-

Check your indentation and parentheses - it might be as simple as that.

``````import math
def piApproxSeries(N):
for i in range (N):
acc=0
Q= i%2==0
sign=(-1)**i
acc+=math.sqrt(12)(1-(1/(Q*3^(acc))))
return acc
``````
-
In my actual IDLE window, "return" was indented properly. Sorry, I fixed that in my question just now. –  Morgan Lily Feb 6 '12 at 23:15
Thanks. In that case, check your number of parentheses on the line starting with "acc+="... (I edited my answer after you provided that info) –  mattbornski Feb 6 '12 at 23:16
``````acc+=math.sqrt(12)*(1-(1/(N*3^(acc))))