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I want to develop a desktop application for solving system of linear and nonlinear equations. I am thinking to use C# with Matlab. I never use matlab before but i am trying to learn for my project.

So, I am trying to use fsolve and i follow the example given on documentation of fsolve.

function F = myfun(x)
F = [2*x(1) - x(2) - exp(-x(1));
    -x(1) + 2*x(2) - exp(-x(2))];

**x0 = [-5; -5];           % Make a starting guess at the solution**
options=optimset('Display','iter');   % Option to display output
[x,fval] = fsolve(@myfun,x0,options)  % Call solver

Here in my case i don't know the starting guess i.e. x0

I just have n number of equation with n unknown. Please guide me what to do and how to proceed.

Some sample equations:

a * b = 10^-14
(a * d)/c = 10^-6.3
(a * e)/d = 10^-10.3
c+d+e = 2.3 * 10^-3
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Why not using Microsoft Solver Foundation directly – Mikhail Oct 12 '11 at 7:49

fsolve uses numerical methods to solve the system of algebraic equations - you absolutely need an initial guess to use fsolve. If you were to solve the equations analytically, you would need a linearization of the system (if it was nonlinear, and note that this may or may not give you good results) and you could use mldivide or an LU factorization or some other matrix decomposition to quickly solve the system Ax=b.

You could potentially roll your own bounded root-finding method (golden section search, parabolic interpolation, etc) to get around the fact that you need an initial guess - the tradeoff here is (a) bounded root-finding methods take longer than unbounded methods that require initial guesses; and (b) you need to make sure your solution lies within the lower and upper bounds.

Simply put, there's no way to numerically specify a set of equations and solve it analytically, exactly - you should either solve the system analytically (which may not be possible - if it is, I suggest Mathematica over MATLAB if you require nonlinear systems to work without linearization) or have to be content with specifiying an initial guess or bounds.

In physically-motivated, engineering based systems I've seen, the zero vector is typically a good enough guess, but this should not be hard coded - and if you want to solve any arbitrary system, you shouldn't force users to use this as an initial guess.

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