# Nth root of small number return an unexpected result in C#

When I try to take the N th root of a small number using C# I get a wrong number.

For example, when I try to take the third root of 1.07, I get 1, which is clearly not true.

Here is the exact code I am using to get the third root.

``````MessageBox.Show(Math.Pow(1.07,(1/3)).toString());
``````

How do I solve this problem?

I would guess that this is a floating point arithmetic issue, but I don't know how to handle it.

• It's actually an integer division problem. 1/3 is evaluated as integers with the result of the division being 0. Thus you are really taking 1.07 to the 0th power which is 1. – tvanfosson Oct 10 '09 at 2:06

I'm pretty sure the "exact code" you give doesn't compile.

``````MessageBox.Show(Math.Pow(1.07,(1/3).toString()));
``````

The call to toString is at the wrong nesting level, needs to be ToString, and (1/3) is integer division, which is probably the real problem you're having. (1/3) is 0 and anything to the zeroth power is 1. You need to use (1.0/3.0) or (1d/3d) or ...

• Dear captain sarcastic. Sorry about the misplaced ). I should have copied and pasted instead of retyping. I have now corrected the info. Thank you for the excellent answer! – JK. Oct 10 '09 at 2:51
• I normally wouldn't point out an obvious syntax error but somehow felt obligated since you bothered to use the word "exact". Glad it helped. – I. J. Kennedy Oct 10 '09 at 5:40

C# is treating the 1 and the 3 as integers, you need to do the following:

``````Math.Pow(1.07,(1d/3d))
``````

or

``````Math.Pow(1.07,(1.0/3.0))
``````

It is actually interesting because the implicit widening conversion makes you make a mistake.

First things first: if that's the exact code you're using, there's likely something wrong with your compiler :-)

``````MessageBox.Show(Math.Pow(1.07,(1/3).toString()));
``````

will evaluate (1/3).toString() first then try and raise 1.07 to the power of that string.

I think you mean:

``````MessageBox.Show(Math.Pow(1.07,(1/3)).ToString());
``````

As to the problem, (1/3) is being treated as an integer division returning 0 and n0 is 1 for all values of n.

You need to force it to a floating point division with something like `1.0/3.0`.

• Sorry about the misplaced ). I should have copied and pasted instead of retyping. I have now corrected the info. – JK. Oct 10 '09 at 2:50

This may help in case you have a real nth root precision problem, but my experiance is that the builtin Math.Pow(double, int) is more precise:

``````    private static decimal NthRoot(decimal baseValue, int N)
{
if (N == 1)
return baseValue;
decimal deltaX;
decimal x = 1M;
do
{
deltaX = (baseValue / Pow(x, N - 1) - x) / N;
x = x + deltaX;
} while (Math.Abs(deltaX) > 0);
return x;
}

private static decimal Pow(decimal a, int b)
{
if (b == 0) return 1;
if (a == 0) return 0;
if (b == 1) return a;
if (b % 2 == 0)
return Pow(a * a, b / 2);
else if (b % 2 == 1)
return a * Pow(a * a, b / 2);
return 0;
}
``````