Yes, it is quite possible. However, the solution depends on your needs. If you need a simple numerical solution, the following will do (to a certain extent, with some constraints - naive implementation):

```
double derive(double (*f)(double), double x0)
{
const double delta = 1.0e-6; // or similar
double x1 = x0 - delta;
double x2 = x0 + delta;
double y1 = f(x1);
double y2 = f(x2);
return (y2 - y1) / (x2 - x1);
}
// call it as follows:
#include <math.h>
double der = derive(sin, 0.0);
printf("%lf\n", der); // should be around 1.0
```

For more advanced *numerical* calculations, you can use the GNU Scientific Library.

However, if you need to analitically find the *formula* of the derivative of a given function, then you have to:

- Parse the input formula to some abstract data type, for example an AST;
- Derivate it using the identities and rules of derivation (there's only a few of them, this part should be the easiest),
- Serialize the abstract data type you got as the result of the derivation process to a string and output that as the result.

However, you won't need to do all this; there are great C mathematical libraries that provide such functionality.

Edit: after some Googling, I couldn't find one. The closest solution for getting you started I can think of is having a look at GeoGebra's source code - although it's written in Java, it's fairly easy to read for anybody fluent enough in a C-like language. If not, just go ahead and implement that algorithm yourself :)