I'm trying to check some equations I did on paper, but I have troubles getting Mathematica to solve them.
The equation (with Latex):
My input: Sum[2 Subscript[x, i] (b Subscript[x, i] - Subscript[y, i]), {i, 1, n}] == 0
If I want to solve for b with Solve[%, b] it says:
Solve::nsmet: This system cannot be solved with the methods available to Solve.
Are the indices the problem? I tried it with x[i] and y[i], but that didn't work either.
What am I missing?
maybe useful, if your expression is a polynomial in b you can factor it out of the sum and then get a symbolic result:
sum = Sum[2 Subscript[x, i] (b Subscript[x, i] -
Subscript[y, i]), {i, 1, n}]
b /. First@Solve[
sum == 0 /.
Sum[exp_, i_] :> Total@MapIndexed[b^(First@#2 - 1) Sum[#, i] &,
CoefficientList[exp, b] ], b]
I think you are underestimating what some people hinted at of playing spot the pattern. You are allowed to help Mma out when he needs it.
Solve[Sum[2 Subscript[x, i] (b Subscript[x, i] - Subscript[y, i]), {i, 1, 1}] == 0, b]
$$ b=\frac{y_1}{x_1}$$
Solve[Sum[2 Subscript[x, i] (b Subscript[x, i] - Subscript[y, i]), {i, 1, 2}] == 0, b]
$$ b= \frac{x_1 y_1+x_2 y_2}{x_1^2+x_2^2}$$
Solve[Sum[2 Subscript[x, i] (b Subscript[x, i] - Subscript[y, i]), {i, 1, 3}] == 0, b]
$$ b= \frac{x_1 y_1+x_2 y_2+x_3y_3}{x_1^2+x_2^2+x_3^2}$$
We have a pattern which may or may not hold up but it is worth trying:
$$b=\frac{\sum _{k=1}^n x_k y_k}{\sum _{k=1}^n x_k^2}$$
This may not be what you were hoping for but it might be close to all that is possible. A general form in terms of elementary functions may not be possible.
nthat's the problem. Mathematica doesn't do sums with variable upper limits very well. You have to put in values fornin order forSolveto find a solution (which it does, of course, easily). $\endgroup$"\!(*UnderoverscriptBox[([Sum]),(i=1),(n)](2\x[i]\((b\x[i]-y[i]))))==0." I'm not familar with that notation. What are the `\` for? $\endgroup$n's, you can verify that your general solution matches each specific case as evidence that your general solution is correct, but Mathematica doesn't know how to solve that equation, because it's hard to write down a general expression for the sum, and even if we could, it's likely to be of a nature that's hard to solve algebraically anyway. $\endgroup$