# Derivatives using indexed variables

As an example I want to try to find the partial derivatives of

f(x) = \sum_{i=1}^n x_i^2


in Maxima. (The expected output would be \frac{\partial f}{\partial x_k} = 2x_k) I have tried following, but it seems the indexed variables are not handled as I expected, can anyone explain what I am doing wrong?

The same command works if you replace n and k with actual numbers, but not in this form:

f(x) := 1/2 * sum( x[i]^2, i, 1, n);
print(diff(f(x),x[k]));


Try it online!

• Maxima doesn't know how to handle that with builtin functions. I wrote a couple of small packages to handle it -- search for diff_sum.mac and sum_kron_delta.mac. I will post an answer which makes use of those functions in the next day or so. Nov 13, 2017 at 1:27

Maxima can't handle derivative with respect to a indexed variable by default. I wrote a couple of small packages to handle these problems. Perhaps this is useful to you.

See: https://pastebin.com/MmYJRqCq (sum_kron_delta, summation of Kronecker delta) and: https://pastebin.com/UGCPgvAn (diff_sum, derivative of summation wrt indexed variable)

(%i1) load ("sum_kron_delta.mac");
(%o1)                         sum_kron_delta.mac
(%o2)                            diff_sum.mac
(%i3) 'diff ('sum (x[i]^2, i, 1, n), x[j]);
n
====
\
(%o3)                     2  >    x  kron_delta(i, j)
/      i
====
i = 1


Note that you have to write 'diff('sum(... that is, with the quote mark ' to indicate that diff and sum are nouns (formal expressions) instead of verbs (functions which are called). This is necessary in the implementation of diff_sum and sum_kron_delta because they work with simplification rules. (It's a long story, which I can explain if there's interest.)

I see we got the kron_delta summation, but we need to cause the simplification rules to be applied. We could also write expand(%, 0, 0) here instead of ''%.

(%i4) ''%;
(%o4) 2 (if (1 <= j) and (j <= n) and %elementp(j, integers) then x  else 0)
j


At this point we have the final result, which we can simplify further with additional data.

(%i5) assume (j >= 1, j <= n);
(%o5)                          [j >= 1, n >= j]
(%i6) ''%o4;
(%o6)            2 (if %elementp(j, integers) then x  else 0)
j
(%i7) declare (j, integer);
(%o7)                                done

(%i8) ''%o6;
(%o8)                                2 x
j


If this seems fruitful to you, I'll be happy to go into details.

• Thanks a lot, this is exactly what I needed! I will look into the details soon, and come back If I have further questions! Nov 13, 2017 at 15:18