# Computing Convergent series, C#

I have an upcoming exam the following question is very likely to come up. I'd really appreciate it if somebody could help me out. Thank you.

Using C# write a procedure to compute the following convergent series to an accuracy of 10^-10.

x^(2n-1) / (2n-1)!

I tried:

``````class Program
{
static void Main(string[] args)
{
double x, y, numerator, denominator, answer,  e = Math.Pow(10,-10);
x = int.Parse(Console.ReadLine());
int n = 0;

do
{
numerator = Math.Pow(x, (2 * n - 1));
denominator = (2 * n - 1);
answer = (numerator / denominator);
n++;
}
while (answer < e);
}
}
``````

My biggest problem I think, is trying to invoke the factorial function.

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And what problems are you having with the factorial function? Is it not working, is it to slow, does it not compile, do you not understand it? –  Servy Apr 24 '12 at 17:38
I understand the factorial, what it is and what it does, i just don't know how to use it in programming language –  John Smith Apr 24 '12 at 17:39
Have you tried doing a web search? I'm sure you'll find quite a lot of implementations of a factorial function; it's a rather common academic and practical problem. –  Servy Apr 24 '12 at 17:40
How would you compute a factorial by hand? Whatever steps you do there, replicate in code. –  Tejs Apr 24 '12 at 17:41
@JohnSmith Google for recursive method, that's what factorial is about. –  Randolf Rincón Fadul Apr 24 '12 at 17:43

## 4 Answers

Notice that `x^(2n+1) = x^(2n-1) * x^2` and `(2n+1)! = (2n-1)! * 2n * (2n + 1)`. Using this formulas, you can just recalculate your numerator and denominator easily at each iteration of the loop from the previous numerator and denominator, respectively. The rest is left for the reader.

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I believe when they say "to an accuracy of 10^-10" it means the answer changes by less than that from one pass to another. Your loop looks good, but you're checking the answer itself, not the change from pass to pass. Try this change:

``````double lastAnswer = 0.0, delta;   // couple more vars

do
{
// ... keep current code in loop, add these two lines below

delta = abs(answer - lastAnswer);   // the change between passes is what's important
lastAnswer = answer;                // and save last answer for next delta
}
while (delta < e);    // change condition to check difference
``````

You might also put in a "sanity check" test on n:

``````while ((delta < e) && (n < 10000000));
``````

You can always increase the limit on `n` if your answer isn't close enough.

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If your only issue is how to do a factorial, this article may help:

http://guyellisrocks.com/algorithms/factorial-function-in-c/

He makes a good point about not needing to re-calculate these values every time.

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I think this is what you want:

``````class Program
{
static void Main(string[] args)
{
const double tol=1e-10;
double x = 1;
if(args.Length>0)
{
double.TryParse(args[0], out x);
}
int n=1;
const int n_max=100;
double y=x;

while(n<n_max && y>tol)
{
y=y*x*x/(2*n*(2*n+1));
n++;
}

Debug.WriteLine(string.Format( "x={0:R}, y={1:R}, n={2}", x, y, n));
}
}
``````

Why? Well this is the part you can figure out on your own.

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