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# How to get discrete data out of 2D Mathematica Interpolating Function?

I am using NDSolve[] to integrate an orbital trajectory (with ExplicitRungeKutta). Mathematica gives me

``````{{x[t]->InterpolatingFunction[{{0.,2000.}},<>][t],
y[t]->InterpolatingFunction[{{0.,2000.}},<>][t]}}
``````

My question is how do I get this into table of raw data where t=0,1,2...2000? I tried:

``````path = Table[Solved, {t, 0, tmax}];
``````

But I get a huge table of stuff like this:

``````{{{x[0] -> -0.523998, y[0] -> 0.866025}}, {{x[1] -> -0.522714,
y[1] -> 0.886848}}, {{x[2] -> -0.480023,
y[2] -> 0.951249}}, {{x[3] -> -0.369611, y[3] -> 1.02642}}
``````

I want something like:

``````{{{-0.523998, 0.866025}}, {{-0.522714, 0.886848}}, etc
``````

I don't have a lot of experience working with these Interpolating functions, any help would be appreciated.

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I managed to solve this problem. To anyone who is wondering about how I solved this. I did the following: coordx[t_] = x[t] /. Solved; coordy[t_] = y[t] /. Solved; path = Table[{t, coordx[t], coordy[t]}, {t, 0, tmax}]; Now my path table is formatted properly, and I can do path[[2]] and it responds {1, {-0.522714}, {0.886848}} – Feriswulf Sep 16 '12 at 17:45

You are getting back rules, not functions directly. In order to access the interpolating functions themselves, you need to do a rule replacement.

``````Table[Solved, {t, 0, tmax}]
``````

you need

``````Table[Evaluate[{x[t], y[t]} /. Solved], {t, 0, tmax}];
``````

`Solved` (which I assume is the output of `NDSolve`) is just a list of rules which will allow for the expressions `x[t]` and `y[t]` to be replaced by the corresponding interpolating functions, which you then evaluate.

Check out the F1 help for `NDSolve` for more examples.

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Thanks for the reply, this looks cleaner than what I did! – Feriswulf Sep 17 '12 at 13:27

You could try using the PropertyValue[] function if you are interested in the points that were used to interpolate - which sometimes is interesing when using NDSolve[]. See the example below:

``````x = Range[1, 10];
y = x^2;
pts = Transpose[{x, y}];
f = Interpolation[pts];
Plot[f[t], {t, 1, 10}]
(*getting the coordinates*)
X = PropertyValue[f, "Coordinates"][[1]]
Y = PropertyValue[f, "ValuesOnGrid"]
ListPlot[Transpose[{X, Y}]]
``````

In such way you can extract almost any properties of any object. To get the list of properties use PropertyList[] function. In the above example it returns:

``````PropertyList[f]
{"Coordinates", "DerivativeOrder", "Domain", "ElementMesh",
"Evaluate", "GetPolynomial", "Grid", "InterpolationMethod",
"InterpolationOrder", "MethodInformation", "Methods",
"OutputDimensions", "Periodicity", "PlottableQ", "Properties",
"QuantityUnits", "Unpack", "ValuesOnGrid"}
``````
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