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I'm using NDSolve in Mathematica to solve a set of equations. I'm looking for some way to put the set of equations in to a variable and refer to it latter in NDSolve to make the code more easy to read.

Here is a simpler version of what I'm doing:

In[1]:= equs = {a x + b y == 0, x - y == 1};
In[2]:= f[a_, b_] := Module[{x, y}, {x, y} /. Solve[equs, {x, y}]]

When evaluate it doesn't give the right answer:

In[3]:=   f[1, 1]
Out[3]:=  {x$627, y$627}

This is because x,y,a,b are local variables, they are given internal names different from x,y,a,b. If I change the definition of equs into a function, it can give right result:

In[4]:= Clear[equs, f]

In[5]:= equs[x_, y_, a_, b_] := {a x + b y == 0, x - y == 1};

In[6]:= f[a_, b_] := 
 Module[{x, y}, {x, y} /. Solve[equs[x, y, a, b], {x, y}]]

In[7]:= f[1, 1]

Out[7]= {{1/2, -(1/2)}}

But my problem is I have more then 20 variables in equs in my real code, and to write them out explicitly will make the code not easy to read. Is there any way to solve this? Thanks.

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2 Answers 2

up vote 0 down vote accepted

This variation seems to work for me:

equs = {a x + b y == 0, x - y == 1};
sols = Block[{x, y}, {x, y} /. (Solve[equs, {x, y}])];
f[a_, b_] := Evaluate[sols];
f[1,1]

I'm not sure what your real system looks like, but maybe something like this would work.

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One method is to use Formal Symbols. These are Protected and therefore are safe to use without localization such as Module. They are slower to enter (e.g. Esc$aEsc) but once used are quite clean IMHO.

Mathematica graphics

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