I am doing a question which asks to find the complexity of a nested for loop simplified using big O notation.
The question is:
for i <- 1 to n do for j <- 1 to n do for k <- 1 to (i+j) do a unit cost operation
I HAVE to prove the above using sum of series notation. I am kind of grasping the concept and have given this a crack. I just want to know whether I am doing it correctly or not.
Here is my answer:
**Assume sum(x=i, y) is the capital sigma notation with x as the lower bound and y as the upper bound.
=> sum(i=1, n) sum(j=1, n) sum(k=1, i+j) 1
=> sum(i=1, n) sum(j=1, n) (i+j)
=> sum(i = 1, n) n*i => n * sum (i = 1, n) i
subbing in rule for sum of arithmetic series gives: => n*n/2(n+1) => (n^3 + n^2) / 2
using big Oh rule -> max(f(x), g(x)): => max(n^3/2, n^2/2) => O(n^3)
I know the answer is correct but am not sure if my calculations prior to it are....