# mathematica - Reduce function syntax

I would like to know whats wrong with my code. I am trying to solve system of non-linear equations (initially in wolfram but the command was too long) in Mathematica:

Reduce[Pi*(h^2 + 2*R*(R - r))/sqrt (h^2 + (R - r)^2) - 2*x*Pi/3*h*R -
x*Pi/3*h*r == 0 &&
Pi*(h^2 + 2*r*(r - R))/sqrt (h^2 + (R - r)^2) + 2*Pi*r -
x*Pi/3*h*R - 2*x*Pi/3*h*r == 0 &&
Pi*h*(r + R)/sqrt (h^2 + (R - r)^2) - x*Pi/3*R^2 - x*Pi/3*R*r -
x*Pi/3*r^2 == 0 && -Pi/3*h*(R^2 + R*r + r^2) + 1 == 0, {R, r, h,
x}];


Do you know how to retype it and solve these equations? I tried to type it according to documentation, but I evidently made some mistake...

These are the original equations (in LaTeX, I dont know if they will show correctly here:

\begin{equation*}
\frac{\partial}{\partial R} L(R, r, h, \lambda) = \frac{\pi(h^2 + 2R(R-r))}{\sqrt{h^2 + (R - r)^2}} - 2\lambda \frac{\pi}{3}hR - \lambda \frac{\pi}{3}hr= 0
\end{equation*}

\begin{equation*}
\frac{\partial}{\partial r} L(R, r, h, \lambda) = \frac{\pi(h^2 + 2r(r-R))}{\sqrt{h^2 + (R - r)^2}} + 2\pi r - \lambda \frac{\pi}{3}hR - 2\lambda \frac{\pi}{3}hr= 0
\end{equation*}

\begin{equation*}
\frac{\partial}{\partial h} L(R, r, h, \lambda) = \frac{\pi h(r + R)}{\sqrt{h^2 + (R - r)^2}} - \lambda \frac{\pi}{3}R^2 - \lambda \frac{\pi}{3}Rr - \lambda \frac{\pi}{3}r^2= 0
\end{equation*}

\begin{equation*}
\frac{\partial}{\partial \lambda} L(R, r, h, \lambda) = - \frac{\pi}{3} h (R^2 + Rr + r^2) + 1 = 0
\end{equation*}


Thanks for any help!

edit: I corrected pi to PI, now it started evaluating so maybe it was the mistake...It just takes a very long time... edit2: its working now- thx for comments!

-
You may use pi to mean π but Mathematica doesn't, it uses Pi. That will probably hinder your successful reduction. –  High Performance Mark Nov 13 '12 at 14:27
And square root is Sqrt[] not sqrt() - capitalize functions, and use square brackets so it'd be Sqrt[(h^2+(R-r)^2)] –  Tim Kemp Nov 13 '12 at 15:02

You have to learn at least the basics. Go to Help->Documentation Center and click on the book in the search bar. There is everything explained from the very start.

Reduce[Pi*(h^2 + 2*R*(R - r))/Sqrt[h^2 + (R - r)^2] - 2*x*Pi/3*h*R -