According to Wikipedia:

There are three kinds of operation which return `NaN`

:

- Operations with a
`NaN`

as at least one operand
- Indeterminate forms
- The divisions 0/0, ∞/∞, ∞/−∞, −∞/∞, and −∞/−∞
- The multiplications 0×∞ and 0×−∞
- The power 1
^{∞}
- The additions ∞ + (−∞), (−∞) + ∞ and equivalent subtractions.

- Real operations with complex results:
- The square root of a negative number
- The logarithm of a negative number
- The tangent of an odd multiple of 90 degrees (or π/2 radians)
- The inverse sine or cosine of a number which is less than −1 or greater than +1.

This Java snippet illustrates all of the above, except the tangent one (I suspect because of limited precision of `double`

):

```
import java.util.*;
import static java.lang.Double.NaN;
import static java.lang.Double.POSITIVE_INFINITY;
import static java.lang.Double.NEGATIVE_INFINITY;
public class NaN {
public static void main(String args[]) {
double[] allNaNs = {
0D/0D,
POSITIVE_INFINITY / POSITIVE_INFINITY,
POSITIVE_INFINITY / NEGATIVE_INFINITY,
NEGATIVE_INFINITY / POSITIVE_INFINITY,
NEGATIVE_INFINITY / NEGATIVE_INFINITY,
0 * POSITIVE_INFINITY,
0 * NEGATIVE_INFINITY,
Math.pow(1, POSITIVE_INFINITY),
POSITIVE_INFINITY + NEGATIVE_INFINITY,
NEGATIVE_INFINITY + POSITIVE_INFINITY,
POSITIVE_INFINITY - POSITIVE_INFINITY,
NEGATIVE_INFINITY - NEGATIVE_INFINITY,
Math.sqrt(-1),
Math.log(-1),
Math.asin(-2),
Math.acos(+2),
};
System.out.println(Arrays.toString(allNaNs));
// prints "[NaN, NaN...]"
System.out.println(NaN == NaN); // prints "false"
System.out.println(Double.isNaN(NaN)); // prints "true"
}
}
```

### References