Labelling on ParametricPlot

up vote
3
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Is it possible to add to the Mesh points in a ParametricPlot the x-values in sort of a Callout-style way? E.g. on the following simple function:

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, Mesh -> 20]

The points are on the plot (a little small), now there should be the x values (0,0.5,1,1.5,...) indicated next to the points, as said in form of as it is produced with Callout.

edited yesterday

kglr

171k8194399

asked yesterday

Mockup Dungeon

831513

This might help: link
– K.J.
yesterday

add a comment |

up vote
3
down vote

favorite

Is it possible to add to the Mesh points in a ParametricPlot the x-values in sort of a Callout-style way? E.g. on the following simple function:

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, Mesh -> 20]

The points are on the plot (a little small), now there should be the x values (0,0.5,1,1.5,...) indicated next to the points, as said in form of as it is produced with Callout.

edited yesterday

kglr

171k8194399

asked yesterday

Mockup Dungeon

831513

This might help: link
– K.J.
yesterday

add a comment |

up vote
3
down vote

favorite

Is it possible to add to the Mesh points in a ParametricPlot the x-values in sort of a Callout-style way? E.g. on the following simple function:

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, Mesh -> 20]

The points are on the plot (a little small), now there should be the x values (0,0.5,1,1.5,...) indicated next to the points, as said in form of as it is produced with Callout.

edited yesterday

kglr

171k8194399

asked yesterday

Mockup Dungeon

831513

Is it possible to add to the Mesh points in a ParametricPlot the x-values in sort of a Callout-style way? E.g. on the following simple function:

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, Mesh -> 20]

The points are on the plot (a little small), now there should be the x values (0,0.5,1,1.5,...) indicated next to the points, as said in form of as it is produced with Callout.

parametricplot

edited yesterday

kglr

171k8194399

asked yesterday

Mockup Dungeon

831513

edited yesterday

kglr

171k8194399

asked yesterday

Mockup Dungeon

831513

edited yesterday

kglr

171k8194399

edited yesterday

kglr

171k8194399

edited yesterday

kglr

171k8194399

asked yesterday

Mockup Dungeon

831513

asked yesterday

Mockup Dungeon

831513

asked yesterday

Mockup Dungeon

831513

This might help: link
– K.J.
yesterday

add a comment |

This might help: link
– K.J.
yesterday

This might help: link
– K.J.
yesterday

add a comment |

2 Answers
2

active

oldest

votes

up vote
6
down vote

accepted

pp = ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

   Mesh -> {Subdivide[0, 10, 20]}, MeshStyle -> PointSize[Large]];

points = Cases[Normal[pp], Point[x_] :> x, ∞];

Show[pp, ListPlot[Callout[#, #2] & @@@ 

  Transpose[{SortBy[points, Last], N @ Rest@Subdivide[0, 10, 20]}]], ImageSize -> 400]

enter image description here

Also

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> ListPlot[Callout[{##2}, #] & @@@ 

   Table[N@{x, Sin@x, .3 Log @ (x^2)}, {x, Subdivide[0, 10, 20]}], 

  PlotStyle -> PointSize[Large]][[1]]]

enter image description here

edited yesterday

answered yesterday

kglr

171k8194399

add a comment |

up vote
4
down vote

Using Epilog

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> {AbsolutePointSize[4], 

    {Text[N[#], pt = {Sin@#, .3 Log@(#^2)}, {0, If[IntegerQ[#], -2, 2]}], 

      Red, Point[pt]} & /@ Range[1/2, 10, 1/2]}]

enter image description here

answered yesterday

Bob Hanlon

57.5k23591

add a comment |

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2 Answers
2

active

oldest

votes

2 Answers
2

active

oldest

votes

up vote
6
down vote

accepted

pp = ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

   Mesh -> {Subdivide[0, 10, 20]}, MeshStyle -> PointSize[Large]];

points = Cases[Normal[pp], Point[x_] :> x, ∞];

Show[pp, ListPlot[Callout[#, #2] & @@@ 

  Transpose[{SortBy[points, Last], N @ Rest@Subdivide[0, 10, 20]}]], ImageSize -> 400]

enter image description here

Also

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> ListPlot[Callout[{##2}, #] & @@@ 

   Table[N@{x, Sin@x, .3 Log @ (x^2)}, {x, Subdivide[0, 10, 20]}], 

  PlotStyle -> PointSize[Large]][[1]]]

enter image description here

edited yesterday

answered yesterday

kglr

171k8194399

add a comment |

up vote
6
down vote

accepted

pp = ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

   Mesh -> {Subdivide[0, 10, 20]}, MeshStyle -> PointSize[Large]];

points = Cases[Normal[pp], Point[x_] :> x, ∞];

Show[pp, ListPlot[Callout[#, #2] & @@@ 

  Transpose[{SortBy[points, Last], N @ Rest@Subdivide[0, 10, 20]}]], ImageSize -> 400]

enter image description here

Also

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> ListPlot[Callout[{##2}, #] & @@@ 

   Table[N@{x, Sin@x, .3 Log @ (x^2)}, {x, Subdivide[0, 10, 20]}], 

  PlotStyle -> PointSize[Large]][[1]]]

enter image description here

edited yesterday

answered yesterday

kglr

171k8194399

add a comment |

up vote
6
down vote

accepted

pp = ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

   Mesh -> {Subdivide[0, 10, 20]}, MeshStyle -> PointSize[Large]];

points = Cases[Normal[pp], Point[x_] :> x, ∞];

Show[pp, ListPlot[Callout[#, #2] & @@@ 

  Transpose[{SortBy[points, Last], N @ Rest@Subdivide[0, 10, 20]}]], ImageSize -> 400]

enter image description here

Also

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> ListPlot[Callout[{##2}, #] & @@@ 

   Table[N@{x, Sin@x, .3 Log @ (x^2)}, {x, Subdivide[0, 10, 20]}], 

  PlotStyle -> PointSize[Large]][[1]]]

enter image description here

edited yesterday

answered yesterday

kglr

171k8194399

pp = ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

   Mesh -> {Subdivide[0, 10, 20]}, MeshStyle -> PointSize[Large]];

points = Cases[Normal[pp], Point[x_] :> x, ∞];

Show[pp, ListPlot[Callout[#, #2] & @@@ 

  Transpose[{SortBy[points, Last], N @ Rest@Subdivide[0, 10, 20]}]], ImageSize -> 400]

enter image description here

Also

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> ListPlot[Callout[{##2}, #] & @@@ 

   Table[N@{x, Sin@x, .3 Log @ (x^2)}, {x, Subdivide[0, 10, 20]}], 

  PlotStyle -> PointSize[Large]][[1]]]

enter image description here

edited yesterday

answered yesterday

kglr

171k8194399

edited yesterday

answered yesterday

kglr

171k8194399

answered yesterday

kglr

171k8194399

answered yesterday

kglr

171k8194399

add a comment |

up vote
4
down vote

Using Epilog

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> {AbsolutePointSize[4], 

    {Text[N[#], pt = {Sin@#, .3 Log@(#^2)}, {0, If[IntegerQ[#], -2, 2]}], 

      Red, Point[pt]} & /@ Range[1/2, 10, 1/2]}]

enter image description here

answered yesterday

Bob Hanlon

57.5k23591

add a comment |

up vote
4
down vote

Using Epilog

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> {AbsolutePointSize[4], 

    {Text[N[#], pt = {Sin@#, .3 Log@(#^2)}, {0, If[IntegerQ[#], -2, 2]}], 

      Red, Point[pt]} & /@ Range[1/2, 10, 1/2]}]

enter image description here

answered yesterday

Bob Hanlon

57.5k23591

add a comment |

up vote
4
down vote

Using Epilog

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> {AbsolutePointSize[4], 

    {Text[N[#], pt = {Sin@#, .3 Log@(#^2)}, {0, If[IntegerQ[#], -2, 2]}], 

      Red, Point[pt]} & /@ Range[1/2, 10, 1/2]}]

enter image description here

answered yesterday

Bob Hanlon

57.5k23591

Using Epilog

ParametricPlot[{Sin@x, .3 Log@(x^2)}, {x, 0, 10}, 

 Epilog -> {AbsolutePointSize[4], 

    {Text[N[#], pt = {Sin@#, .3 Log@(#^2)}, {0, If[IntegerQ[#], -2, 2]}], 

      Red, Point[pt]} & /@ Range[1/2, 10, 1/2]}]

enter image description here

answered yesterday

Bob Hanlon

57.5k23591

answered yesterday

Bob Hanlon

57.5k23591

answered yesterday

Bob Hanlon

57.5k23591

answered yesterday

Bob Hanlon

57.5k23591

add a comment |

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