X=2, y=1
X=3, y=3
X=4, y= 6
X=5, y= 10
X=6, y= 15
X=7, y= 21
X=8, y=28
I know that f(x) = f(x1) + (x1)
But...is that the correct mathematical function? What would Big O notation be?
I know that f(x) = f(x1) + (x1) But...is that the correct mathematical function? What would Big O notation be? 


The correct (or at least, significantly more efficient than recursive) equation would be



Did you mean f(x) = f(x1) + (x1) ? To solve for the function: http://en.wikipedia.org/wiki/Recurrence_relation#Solving To get the complexity: http://en.wikipedia.org/wiki/Master_theorem 


Yes the function is right, the difference between y values is incrementally increasing by 1 Edited: Thanks for the comment by trutheality For complexity of the function you can see y like this y= 1 + (1+2) + (1+2+3) + ....(1+2+3+..n) As highest possible degree term 1+2+3...n is O(n^2) y=O(n^2) 


The way to correctly state the problem is:
You want to solve There are many ways to solve these kinds of recursive formulas. I like to use Wolfram Alpha, it has an easy interface. Wolfram Alpha query "f(x)=f(x1)+(x1)" That gives you the precise answer, in bigO notation you would say the function 

