File:Sine of distance from origin negative.png

From Wikimedia Commons, the free media repository
Jump to navigation Jump to search

Sine_of_distance_from_origin_negative.png (800 × 589 pixels, file size: 147 KB, MIME type: image/png)

Captions

Captions

Add a one-line explanation of what this file represents
Description

A 3D surface plot of the negative of the sine of distance from the origin: .

This represents the displacement for a point source in 2D, with no attenuation due to distance.
Date
Source

Self-Made with Mathematica

 
This diagram was created with Mathematica.
Author Inductiveload
Permission
(Reusing this file)
Public domain I, the copyright holder of this work, release this work into the public domain. This applies worldwide.
In some countries this may not be legally possible; if so:
I grant anyone the right to use this work for any purpose, without any conditions, unless such conditions are required by law.
     Mathematical Function Plot
Description Negative of the sine of the distance from the origin
Equation
Co-ordinate System Cartesian
X Range -2π .. 2π
Y Range -2π .. 2π

Mathematica Code

[edit]
Please be aware that at the time of uploading (21:24, 13 June 2007 (UTC)), this code may take a significant amount of time to execute on a consumer-level computer.


This uses Chris Hill's antialiasing code to average pixels and produce a less jagged image. The original code can be found here.
\!\(gr = Plot3D[\[IndentingNewLine]Sin[Sqrt[x^2 + 
      y^2]], \[IndentingNewLine]{x, \(-2\)\ Pi, 2  Pi}, \[IndentingNewLine]{
      y, \(-2\)\ Pi, 2  
      Pi}, \[IndentingNewLine]PlotPoints -> 600, \[IndentingNewLine]Mesh -> 
      False, \[IndentingNewLine]BoxRatios -> {4,
             4, 1}, \[IndentingNewLine]Axes -> True, \[IndentingNewLine]Boxed \
-> True, \[IndentingNewLine]AxesLabel -> {"\<x\>", "\<y\>", 
      "\<u\>"}, \[IndentingNewLine]Ticks -> {\[IndentingNewLine]{\
\[IndentingNewLine]{\(-2\) 
      Pi, \(-2\) π, 0.01, {AbsoluteThickness[4]}}, \[IndentingNewLine]{\(-
      Pi\), \(-π\), 0.01, {AbsoluteThickness[4]}}, \[IndentingNewLine]{0, 0, 
      0.01, {AbsoluteThickness[4]}}, \[IndentingNewLine]{Pi, π, 0.01, {
      AbsoluteThickness[
      4]}}, \[IndentingNewLine]{2  
        Pi, 2  π, 0.01, {AbsoluteThickness[4]}}\[IndentingNewLine]}, \
\[IndentingNewLine]{\[IndentingNewLine]{\(-2\) 
        Pi, \(-2\) π, 0.01, {AbsoluteThickness[
          4]}}, \[IndentingNewLine]{\(-Pi\), \(-π\), 
            0.01, {AbsoluteThickness[
      4]}}, \[IndentingNewLine]{0, 0, 0.01, {
        AbsoluteThickness[4]}}, \[IndentingNewLine]{Pi, π, 0.01, \
{AbsoluteThickness[4]}}, \[IndentingNewLine]{2  Pi, 2  π, 0.01, {
            AbsoluteThickness[
            4]}}\[IndentingNewLine]}, \
\[IndentingNewLine]{\[IndentingNewLine]{\(-1\), \(-1\), 
                  0.01, {AbsoluteThickness[4]}}, \[IndentingNewLine]{0, 0, 
          0.01, {AbsoluteThickness[
          4]}}, \[IndentingNewLine]{1, 1, 0.01, {
            AbsoluteThickness[4]}}\[IndentingNewLine]}\[IndentingNewLine]}, \
\[IndentingNewLine]TextStyle -> {FontSize -> 
            40}, \[IndentingNewLine]BoxStyle -> {AbsoluteThickness[4]}, \
\[IndentingNewLine]ImageSize -> 200, \[IndentingNewLine]]\[IndentingNewLine]\
\[IndentingNewLine]
  aa[gr_] := Module[{siz, kersiz, ker, dat, as, ave, is,
                   ar}, \[IndentingNewLine]is = ImageSize /. Options[gr, \
ImageSize]; \[IndentingNewLine]ar = AspectRatio /. Options[gr, 
      AspectRatio]; \[IndentingNewLine]If[\(! NumberQ[is]\), is = 288]; \
\[IndentingNewLine]kersiz = 
                      4; \[IndentingNewLine]img = \
ImportString[ExportString[gr, "\<PNG\>", ImageSize -> \((is\ 
      kersiz)\)], 
        "\<PNG\>"]; \[IndentingNewLine]siz = Reverse@\(Dimensions[img[\([1, 
                1]\)]]\)[\([{1, 2}]\)]; \[IndentingNewLine]ker = 
      Table[N[1/
        kersiz\^2], {kersiz}, {kersiz}]; \[IndentingNewLine]dat = N[img[\([
          1, 1]\)]]; \[IndentingNewLine]as = Dimensions[
      dat]; \[IndentingNewLine]ave = 
          Partition[Transpose[\(Flatten[ListConvolve[ker, dat[\([All, 
      All, #]\)]]] &\) /@ Range[as[\([3]\)]]], as[\([2]\)] - kersiz + 
      1]; \[IndentingNewLine]ave = 
      Take[ave, 
        Sequence @@ \((\({1, \(Dimensions[ave]\)[\([#]\)], kersiz} &\) /@
                   Range[Length[Dimensions[
                    ave]] - 1])\)]; \
\[IndentingNewLine]Show[Graphics[Raster[ave, {{0, 0}, siz/
              kersiz}, {0, 255}, ColorFunction -> RGBColor]], 
              PlotRange -> {{0, siz[\([1]\)]/kersiz}, {0, siz[\([2]\)]/
      kersiz}}, ImageSize -> is, 
      AspectRatio -> ar]\[IndentingNewLine]]\[IndentingNewLine]
  finalgraphic = aa[gr]\)

File history

Click on a date/time to view the file as it appeared at that time.

Date/TimeThumbnailDimensionsUserComment
current21:36, 13 June 2007Thumbnail for version as of 21:36, 13 June 2007800 × 589 (147 KB)Inductiveload (talk | contribs){{Information |Description=A 3D surface plot of the negative of the sine of distance from the origin: <math>u=-\sin \left( \sqrt{x^2 + y^2} \right)</math>. This represents the displacement for a point source in 2D, with no attenuation due to distance. |S

The following page uses this file: