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Is there a way in mathematica to have variable coefficients for NDSolve? I need to vary the coefficient values and create multiple graphs, but I cannot figure out a way to do it short of reentering the entire expression for every graph. Here is an example (non-functional) of what I would like to do; hopefully it is close to working:

X[\[CapitalDelta]_, \[CapitalOmega]_, \[CapitalGamma]_] = 
  NDSolve[{\[Rho]eg'[t] == 
          (I*\[CapitalDelta] - .5*\[CapitalGamma])*\[Rho]eg[t] - 
           I*.5*\[CapitalOmega]*\[Rho]ee[t] + 
    \[Rho]ge'[t] == (-I*\[CapitalDelta] - .5*\[CapitalGamma])*\[Rho]ge[t] + 
           I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]ee[t] - 
    \[Rho]ee'[t] == -I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]eg[t] + 
           I*.5*\[CapitalOmega]*\[Rho]ge[t] - \[CapitalGamma]*\[Rho]ee[t],
    \[Rho]gg'[t] == I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]eg[t] - 
           I*.5*\[CapitalOmega]*\[Rho]ge[t] + \[CapitalGamma]*\[Rho]ee[t],
    \[Rho]ee[0] == 0, \[Rho]gg[0] == 1, \[Rho]ge[0] == 0, \[Rho]eg[0] == 0},
    {\[Rho]ee, \[Rho]eg, \[Rho]ge, \[Rho]gg}, {t, 0, 12}];
Plot[Evaluate[\[Rho]ee[t] /. X[5, 2, 6]], {t, 0, 10},PlotRange -> {0, 1}]

In this way I would only have to re-call the plot command with inputs for the coefficients, rather than re-enter the entire sequence over and over. That would make things much cleaner.

PS: Apologies for the awful looking code. I never realized until now that mathematica didn't keep the character conversions.

EDIT a nicer formatted version:

enter image description here

share|improve this question
We need a mathematica renderer! And latex and , and !! – stefan Mar 29 '11 at 23:06
Iam only guessing here; can you use a set-delay on the coefficients? I dont have mathematica here and i cant even GUESS what the code is doing from the SO rendering at 01:07 :) – stefan Mar 29 '11 at 23:07
@stefan When formatting is important I post a bitmap of the expression. – Sjoerd C. de Vries Mar 29 '11 at 23:21
@Sjoerd yeah but as we have a mathematica tag we should somehow have a way to make the code somewhat reasonable formatted or not have the tag imo. Mathematica is prolly around 50% graphics :) – stefan Mar 29 '11 at 23:24
@Eliot I edited your question to include a figure of the formatted equations. It's awaiting approval. Actually, it's good for mma to convert to ASCII style. Almost no forum would be able to use the special characters. – Sjoerd C. de Vries Mar 29 '11 at 23:33
up vote 2 down vote accepted

You should just use SetDelayed (":=") instead of Set in the function definition:

X[\[CapitalDelta]_, \[CapitalOmega]_, \[CapitalGamma]_] := 
      t] == (I*\[CapitalDelta] - .5*\[CapitalGamma])*\[Rho]eg[t] - 
      I*.5*\[CapitalOmega]*\[Rho]ee[t] + 
      I*.5*\[CapitalOmega]*\[Rho]gg[t], \[Rho]ge'[
      t] == (-I*\[CapitalDelta] - .5*\[CapitalGamma])*\[Rho]ge[t] + 
      I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]ee[t] - 
      I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]gg[t], \[Rho]ee'[
      t] == -I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]eg[t] + 
      I*.5*\[CapitalOmega]*\[Rho]ge[t] - \[CapitalGamma]*\[Rho]ee[
        t], \[Rho]gg'[t] == 
     I*.5*\[CapitalOmega]\[Conjugate]*\[Rho]eg[t] - 
      I*.5*\[CapitalOmega]*\[Rho]ge[t] + \[CapitalGamma]*\[Rho]ee[
        t], \[Rho]ee[0] == 0, \[Rho]gg[0] == 1, \[Rho]ge[0] == 
     0, \[Rho]eg[0] == 
     0}, {\[Rho]ee, \[Rho]eg, \[Rho]ge, \[Rho]gg}, {t, 0, 12}];
Plot[Evaluate[{\[Rho]ee[t] /. X[5, 2, 6], \[Rho]ee[t] /. 
    X[2, 6, 17]}], {t, 0, 10}, PlotRange -> {0, 1}]
share|improve this answer
Right on! Interesting: look at the behaviour of the plot for PlotRange -> Automatic – Sjoerd C. de Vries Mar 29 '11 at 23:25
@Sjoerd Convergent oscillation. PlotRange -> Automatic makes a user pay attention to this. – Alexey Popkov Mar 30 '11 at 0:18
@Sjoerd and @Alexey, I prefer PlotRange -> All, as the oscillation is visible, but does not exceed the bounds of the display. – rcollyer Mar 30 '11 at 1:13
@Sjoerdm @rcollyer and @Alexey I want it to go from 0 to 1. That way all the graphs are easily comparable. – Elliot Mar 30 '11 at 3:31
@Elliot @rcollyer I agree that PlotRange->All looks better but in this scale we don't see any oscillation after t=2. In the case of PlotRange -> Automatic it is obvious that oscillations take place up to t=5. This can be useful for user himself but relatively rarely for presentation purposes. – Alexey Popkov Mar 30 '11 at 4:15

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