# Processing - rule of cosines (sss) - NaN

I am working on a simple inverse kinematic delta robot controller with Processing. I am stuck at the rule of cosines. I have the length of the three sides and wish to get the angles. But `float angle = acos((sq(humerus)+sq(ulna) - sq(radius))/(2 * humerus * ulna));` always returns NaN. Any ideas?

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You'll probably want to use the law of cosines if you know the sides:

In Java terms, to solve for the angle `C` (opposite to side of length `c`) we would have

``````Math.acos((a*a + b*b - c*c) / (2*a*b))
``````

There are a couple reasons why you could be getting `NaN`:

• One of your side lengths is negative, so when you square root it you receive `NaN`.
• Your triangle can't really exist based on the side lengths you specified. Look at this documentation for `acos`:

If the argument is `NaN` or its absolute value is greater than `1`, then the result is `NaN`.

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Ah my bad, I got mixed up in the title, I am using law of cosines. The issue is that it returns a NaN. – bob_walter Nov 20 '12 at 17:04
@bob_walter See my edit – arshajii Nov 20 '12 at 17:07
OK, thanks for your help. If i scale all my values in floats 0-1 it should work? All my dimentions are positive. – bob_walter Nov 20 '12 at 17:17
@bob_walter Not necessarily, it depends on the relative sizes of the side lengths. See this. – arshajii Nov 20 '12 at 17:23
Regarding the side lengths... Just to make it a bit more explicit, you must have `|a| + |b| > |c|`, `|b| + |c| > |a|` and `|c| + |a| > |b|` to have a triangle (replace `>` with `>=` for a degenerate triangle with all sides collinear). – twalberg Nov 20 '12 at 17:35

If you check the javadoc for Math.acos, you see the following:

``````If the argument is NaN or its absolute value is greater than 1, then the result is NaN.
``````

So, there are two possibilities:

1. The numerator is greater than the denominator in absolute value, resulting in a fraction that exceeds 1.0. The arccosine will therefore return a NaN.

2. One of the square roots is returning a NaN. As we see from the javadoc: `If the argument is NaN or less than zero, then the result is NaN.`

So, I would check your values for humerus, radius and ulna. It's possible that you either allowed a slightly too large numerator (e.g., via floating point error) or you had a vector rather than a scalar value for your arm bone measurements (resulting in a negative rather than a positive argument to square root).

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