[Screenshot below]

I was using ListPlot to draw a smooth line through some data points. But I want to be able to work with the 1st and 2nd derivative of the plot, so I thought I'd create an actual "function" using Interpolation. But as you can see in the picture, it's not smooth. There are some strange spikes when I do Plot[Interpolation[...]...]. I'm wondering how ListPlot get's it's interpolated function, and how I can get the same thing, using Interpolation[] or some other method.


Here is some text for copy/paste:

myPoints = {{0.,3.87},{1.21,4.05},{2.6,4.25},{4.62,4.48},{7.24,4.73},{9.66,4.93},

ListPlot[myPoints, Joined -> True, Mesh -> Full] 

Plot[Interpolation[myPoints][x], {x, 0, 27.2}] 

The last one has spikes.


Gleno pointed out that my List plot is linear.  But what about when both have 
InterpolationOrder -> 3?
ListPlot[myPoints, Joined -> True, Mesh -> Full, InterpolationOrder -> 3]
Plot[Interpolation[myPoints, InterpolationOrder -> 3][x], {x, 0, 27.2}]

Mathematica ListPlot Screenshot

3 Answers 3


Perhaps easier:

interp = Interpolation[myPoints, InterpolationOrder -> 2, Method -> "Spline"]

(*Now let's plot the function and its derivative*)
     Plot[{interp'[x], interp[x]}, 
          {x, Min[First /@ myPoints], Max[First /@ myPoints]}, PlotRange -> All]]

enter image description here

In the "region of interest":

Show[Plot[{interp'[x], interp[x]}, {x, 23, 24}], ListPlot@myPoints]

enter image description here

If you want a continuous second derivative, just increase the interpolation order like this:

interp = Interpolation[myPoints, InterpolationOrder -> 3, Method -> "Spline"];
Show[Plot[{interp'[x], interp[x]}, {x, 23, 24}], ListPlot@myPoints]

enter image description here


I believe that the method used by ListPlot for interpolation is to interpolate each coordinate as a function of the list index. Something like the following looks a lot like the output from ListPlot[...,InterpolationOrder->3]:


From such an interpolation you should be able to grab your derivatives via implicit differentiation, e.g. dx/dy == (dx/dt)/(dy/dt). A delight to flaunt that notation in a place where it might make some mathematicians puke :)


Sorry to dissapoint you, but the answer is very simple. ListLinePlot / ListPlot just draws a straight line

Plot[Interpolation[myPoints, InterpolationOrder -> 1][x], {x, 0, 27.2}]

Mathematica graphics

produces the same un-hacky line. You may also have varying deress of success applying second order interpolation and using Splines.

Plot[Interpolation[myPoints, InterpolationOrder -> 2, Method -> "Spline"][x], {x, 0, 27.2}]

Mathematica graphics

  • Ah, I didn't notice that those were actually straight. But what about when you add interpolationOrder -> 3 to both of them? (I tried to add some code to this comment... bad idea... let me edit the question.)
    – Rob N
    Oct 4, 2010 at 22:14
  • 1
    Okay, with InterpolationOrder -> 3 on both of them, I get a smooth curve with rounded segments on the ListPlot, but a hacky curve with the Plot[Interpolation[...
    – Rob N
    Oct 4, 2010 at 22:21

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.