Function to calculate the difference between sum of squares and square of sums

I am trying to Write a function called `sum_square_difference` which takes a number n and returns the difference between the sum of the squares of the ﬁrst n natural numbers and the square of their sum.

I think i know how to write a function that defines the sum of squares

``````def sum_of_squares(numbers):
total = 0
for num in numbers:
total += (num ** 2)
return(total)
``````

I have tried to implement a square of sums function:

``````def square_sum(numbers):
total = 0
for each in range:
total = total + each
``````

I don't know how to combine functions to tell the difference and i don't know if my functions are correct.

Any suggestions please? I am using Python 3.3

Thank you.

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The function can be written with pure math like this:

Translated into Python:

``````def square_sum_difference(n):
return int((3*n**2 + 2*n) * (1 - n**2) / 12)
``````

The formula is a simplification of two other formulas:

``````def square_sum_difference(n):
return int(n*(n+1)*(2*n+1)/6 - (n*(n+1)/2)**2)
``````

`n*(n+1)*(2*n+1)/6` is the formula described here, which returns the sum of the squares of the first `n` natural numbers.

`(n*(n+1)/2))**2` uses the triangle number formula, which is the sum of the first `n` natural numbers, and which is then squared.

This can also be done with the built in `sum` function. Here it is:

``````def sum_square_difference(n):
r = range(1, n+1)  # first n natural numbers
return sum(i**2 for i in r) - sum(r)**2
``````

The `range(1, n+1)` produces an iterator of the first `n` natural numbers.

``````>>> list(range(1, 4+1))
[1, 2, 3, 4]
``````

`sum(i**2 for i in r)` returns the sum of the squares of the numbers in r, and `sum(r)**2` returns the square of the sum of the numbers in r.

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Don't see why this was -1'd. I +1'd –  TerryA Mar 24 '13 at 9:01

# As beta says, # (sum(i))^2 - (sum(i^2)) is very easy to calculate :) # A = sum(i) = i*(i+1)/2 # B = sum(i^2) = i*(i+1)*(2*i + 1)/6 # A^2 - B = i(i+1)(3(i^2) - i - 2) / 12 # :) # no loops... just a formula !**

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This is a case where it pays to do the math beforehand. You can derive closed-form solutions for both the sum of the squares and the square of the sum. Then the code is trivial (and O(1)).

Need help with the two solutions?

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and now I'll never forget to do some maths before solving a problem. –  Abhinav Gauniyal May 24 at 3:48
``````def sum_square_difference(n):
r = range(1,n+1)
sum_of_squares =  sum(map(lambda x: x*x, r))
square_sum = sum(r)**2
return sum_of_squares - square_sum
``````
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thank you very much –  Akuma Ukpo Mar 24 '13 at 0:06

In Ruby language you can achieve this in this way

``````def diff_btw_sum_of_squars_and_squar_of_sum(from=1,to=100) # use default values from 1..100.
((1..100).inject(:+)**2) -(1..100).map {|num| num ** 2}.inject(:+)
end

diff_btw_sum_of_squars_and_squar_of_sum #call for above method
``````
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