Drawing a Tank with Water in it











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I am trying to draw a cylindrical tank that has water in it, using tikz. Here is what I have so far:



documentclass[a4paper, 12pt]{article}
usepackage{pgfplots}
pgfplotsset{compat=1.15}
usepgfplotslibrary{polar}
usepgflibrary{shapes.geometric}
usetikzlibrary{calc}

begin{document}

begin{figure}[ht]

centering

begin{tikzpicture}

node[draw, cylinder, rotate=90, shape aspect=4, minimum height=4cm, minimum
width=8cm, fill = blue, fill opacity = 0.2, blue] {};

node[draw, cylinder, rotate=90, shape aspect=4, minimum height=6cm, minimum
width=8cm, thick] (A) {};

draw[dashed, thick]
let p1 = ($ (A.after bottom) - (A.before bottom) $),
n1 = {0.5*veclen(x1,y1)-pgflinewidth},
p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
n2 = {veclen(x2,y2)-pgflinewidth}
in
([xshift=-pgflinewidth] A.before bottom) arc [start angle=0, end
angle=180,
x radius=n1, y radius=n2];

end{tikzpicture}

caption{The tank.}
label{fig:tank}

end{figure}

end{document}


This is the result:



enter image description here



I want the blue part to be shifted down so that it is at the same level as the bottom of the black one.



Any suggestions to this solution, or to making my code more efficient, would be great!










share|improve this question


























    up vote
    7
    down vote

    favorite
    1












    I am trying to draw a cylindrical tank that has water in it, using tikz. Here is what I have so far:



    documentclass[a4paper, 12pt]{article}
    usepackage{pgfplots}
    pgfplotsset{compat=1.15}
    usepgfplotslibrary{polar}
    usepgflibrary{shapes.geometric}
    usetikzlibrary{calc}

    begin{document}

    begin{figure}[ht]

    centering

    begin{tikzpicture}

    node[draw, cylinder, rotate=90, shape aspect=4, minimum height=4cm, minimum
    width=8cm, fill = blue, fill opacity = 0.2, blue] {};

    node[draw, cylinder, rotate=90, shape aspect=4, minimum height=6cm, minimum
    width=8cm, thick] (A) {};

    draw[dashed, thick]
    let p1 = ($ (A.after bottom) - (A.before bottom) $),
    n1 = {0.5*veclen(x1,y1)-pgflinewidth},
    p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
    n2 = {veclen(x2,y2)-pgflinewidth}
    in
    ([xshift=-pgflinewidth] A.before bottom) arc [start angle=0, end
    angle=180,
    x radius=n1, y radius=n2];

    end{tikzpicture}

    caption{The tank.}
    label{fig:tank}

    end{figure}

    end{document}


    This is the result:



    enter image description here



    I want the blue part to be shifted down so that it is at the same level as the bottom of the black one.



    Any suggestions to this solution, or to making my code more efficient, would be great!










    share|improve this question
























      up vote
      7
      down vote

      favorite
      1









      up vote
      7
      down vote

      favorite
      1






      1





      I am trying to draw a cylindrical tank that has water in it, using tikz. Here is what I have so far:



      documentclass[a4paper, 12pt]{article}
      usepackage{pgfplots}
      pgfplotsset{compat=1.15}
      usepgfplotslibrary{polar}
      usepgflibrary{shapes.geometric}
      usetikzlibrary{calc}

      begin{document}

      begin{figure}[ht]

      centering

      begin{tikzpicture}

      node[draw, cylinder, rotate=90, shape aspect=4, minimum height=4cm, minimum
      width=8cm, fill = blue, fill opacity = 0.2, blue] {};

      node[draw, cylinder, rotate=90, shape aspect=4, minimum height=6cm, minimum
      width=8cm, thick] (A) {};

      draw[dashed, thick]
      let p1 = ($ (A.after bottom) - (A.before bottom) $),
      n1 = {0.5*veclen(x1,y1)-pgflinewidth},
      p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
      n2 = {veclen(x2,y2)-pgflinewidth}
      in
      ([xshift=-pgflinewidth] A.before bottom) arc [start angle=0, end
      angle=180,
      x radius=n1, y radius=n2];

      end{tikzpicture}

      caption{The tank.}
      label{fig:tank}

      end{figure}

      end{document}


      This is the result:



      enter image description here



      I want the blue part to be shifted down so that it is at the same level as the bottom of the black one.



      Any suggestions to this solution, or to making my code more efficient, would be great!










      share|improve this question













      I am trying to draw a cylindrical tank that has water in it, using tikz. Here is what I have so far:



      documentclass[a4paper, 12pt]{article}
      usepackage{pgfplots}
      pgfplotsset{compat=1.15}
      usepgfplotslibrary{polar}
      usepgflibrary{shapes.geometric}
      usetikzlibrary{calc}

      begin{document}

      begin{figure}[ht]

      centering

      begin{tikzpicture}

      node[draw, cylinder, rotate=90, shape aspect=4, minimum height=4cm, minimum
      width=8cm, fill = blue, fill opacity = 0.2, blue] {};

      node[draw, cylinder, rotate=90, shape aspect=4, minimum height=6cm, minimum
      width=8cm, thick] (A) {};

      draw[dashed, thick]
      let p1 = ($ (A.after bottom) - (A.before bottom) $),
      n1 = {0.5*veclen(x1,y1)-pgflinewidth},
      p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
      n2 = {veclen(x2,y2)-pgflinewidth}
      in
      ([xshift=-pgflinewidth] A.before bottom) arc [start angle=0, end
      angle=180,
      x radius=n1, y radius=n2];

      end{tikzpicture}

      caption{The tank.}
      label{fig:tank}

      end{figure}

      end{document}


      This is the result:



      enter image description here



      I want the blue part to be shifted down so that it is at the same level as the bottom of the black one.



      Any suggestions to this solution, or to making my code more efficient, would be great!







      tikz-pgf draw shapes






      share|improve this question













      share|improve this question











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      share|improve this question










      asked Dec 2 at 2:59









      Aiden Kenny

      1685




      1685






















          3 Answers
          3






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          up vote
          7
          down vote













          you need to define anchors of your cylinders at their bottoms ...



          documentclass[a4paper, 12pt]{article}
          %usepackage{pgfplots}
          %pgfplotsset{compat=1.15}
          %usepgfplotslibrary{polar}
          usepackage{tikz}
          usetikzlibrary{calc,
          positioning,
          shapes.geometric}

          begin{document}
          begin{figure}[ht]
          centering
          begin{tikzpicture}[
          node distance = 0pt,
          valj/.style args = {#1/#2}{draw, cylinder, shape aspect=4, shape border rotate=90,
          fill=#2, fill opacity=0.2,
          minimum height=#1, minimum width=8cm,
          outer sep=0pt, anchor=bottom, % <--- added
          node contents={}
          }
          ]
          node (A) [valj=60mm/white];
          node (B) [valj=40mm/blue,
          above=of A.bottom]; % <--- positioning of cylinder
          draw[dashed]
          let p1 = ($ (A.after bottom) - (A.before bottom) $),
          n1 = {0.5*veclen(x1,y1)-pgflinewidth},
          p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
          n2 = {veclen(x2,y2)}
          in (A.before bottom) arc [start angle=0, end angle=180,
          x radius=n1, y radius=n2];
          end{tikzpicture}
          caption{The tank.}
          label{fig:tank}
          end{figure}
          end{document}


          enter image description here






          share|improve this answer




























            up vote
            7
            down vote













            I would use tikz-3dplot for it, in particular if you are considering adding more 3d-like elements. The following has 4 parameters, one view angle which is set to 100, a radius R, the height of the water HW and the height of the cylinder HC.



            documentclass[tikz,border=3.14mm]{standalone}
            usepackage{tikz-3dplot}
            usepgflibrary{shapes.geometric}
            usetikzlibrary{calc}
            begin{document}
            tdplotsetmaincoords{100}{0}
            begin{tikzpicture}[tdplot_main_coords]
            pgfmathsetmacro{R}{4}
            pgfmathsetmacro{HW}{4}
            pgfmathsetmacro{HC}{6}
            % water
            fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
            --
            plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
            -- cycle;
            draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
            ({R*cos(x)},{R*sin(x)},HW);
            % "invisible" lined
            draw[dashed] plot[variable=x,domain=180:360,smooth]
            ({R*cos(x)},{R*sin(x)},0);
            % visible cylinder lines
            draw plot[variable=x,domain=0:180,smooth]
            ({R*cos(x)},{R*sin(x)},0)
            --
            plot[variable=x,domain=180:360,smooth]
            ({R*cos(x)},{R*sin(x)},HC) -- cycle;
            draw plot[variable=x,domain=0:180,smooth]
            ({R*cos(x)},{R*sin(x)},HC);
            end{tikzpicture}
            end{document}


            enter image description here



            The meaning of the view angle is illustrated by this animation.



            documentclass[tikz,border=3.14mm]{standalone}
            usepackage{tikz-3dplot}
            usepgflibrary{shapes.geometric}
            usetikzlibrary{calc}
            begin{document}
            foreach X in {0,10,...,350}
            {tdplotsetmaincoords{120+30*sin(X)}{0}
            begin{tikzpicture}
            pgfmathsetmacro{R}{4}
            pgfmathsetmacro{HW}{4}
            pgfmathsetmacro{HC}{6}
            path[use as bounding box] (-1.1*R,-0.75*HC) rectangle (1.1*R,1.25*HC);
            begin{scope}[tdplot_main_coords]
            % water
            fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
            --
            plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
            -- cycle;
            draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
            ({R*cos(x)},{R*sin(x)},HW);
            % "invisible" lined
            draw[dashed] plot[variable=x,domain=180:360,smooth]
            ({R*cos(x)},{R*sin(x)},0);
            % visible cylinder lines
            draw plot[variable=x,domain=0:180,smooth]
            ({R*cos(x)},{R*sin(x)},0)
            --
            plot[variable=x,domain=180:360,smooth]
            ({R*cos(x)},{R*sin(x)},HC) -- cycle;
            draw plot[variable=x,domain=0:180,smooth]
            ({R*cos(x)},{R*sin(x)},HC);
            end{scope}
            end{tikzpicture}}
            end{document}


            enter image description here






            share|improve this answer






























              up vote
              2
              down vote













              I have figured out a solution. In the square brackets containing the parameters for the first cylinder (the one drawing the water), we need only add xshift = -0.75cm. Since the height of the outer cylinder is 6cm and the height of the inner is 4.5cm, so the difference in height is 1.5cm. Since both cylinders are centered at the same spot, the height of the gaps above and below the blue are 0.75cm each, so we just have to shift it down that distance. I was at first curious as to yshift did not work, but then I realized that the cylinder is rotated in the beginning by 90 degrees, so that is probably the reason.






              share|improve this answer





















                Your Answer








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                3 Answers
                3






                active

                oldest

                votes








                3 Answers
                3






                active

                oldest

                votes









                active

                oldest

                votes






                active

                oldest

                votes








                up vote
                7
                down vote













                you need to define anchors of your cylinders at their bottoms ...



                documentclass[a4paper, 12pt]{article}
                %usepackage{pgfplots}
                %pgfplotsset{compat=1.15}
                %usepgfplotslibrary{polar}
                usepackage{tikz}
                usetikzlibrary{calc,
                positioning,
                shapes.geometric}

                begin{document}
                begin{figure}[ht]
                centering
                begin{tikzpicture}[
                node distance = 0pt,
                valj/.style args = {#1/#2}{draw, cylinder, shape aspect=4, shape border rotate=90,
                fill=#2, fill opacity=0.2,
                minimum height=#1, minimum width=8cm,
                outer sep=0pt, anchor=bottom, % <--- added
                node contents={}
                }
                ]
                node (A) [valj=60mm/white];
                node (B) [valj=40mm/blue,
                above=of A.bottom]; % <--- positioning of cylinder
                draw[dashed]
                let p1 = ($ (A.after bottom) - (A.before bottom) $),
                n1 = {0.5*veclen(x1,y1)-pgflinewidth},
                p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
                n2 = {veclen(x2,y2)}
                in (A.before bottom) arc [start angle=0, end angle=180,
                x radius=n1, y radius=n2];
                end{tikzpicture}
                caption{The tank.}
                label{fig:tank}
                end{figure}
                end{document}


                enter image description here






                share|improve this answer

























                  up vote
                  7
                  down vote













                  you need to define anchors of your cylinders at their bottoms ...



                  documentclass[a4paper, 12pt]{article}
                  %usepackage{pgfplots}
                  %pgfplotsset{compat=1.15}
                  %usepgfplotslibrary{polar}
                  usepackage{tikz}
                  usetikzlibrary{calc,
                  positioning,
                  shapes.geometric}

                  begin{document}
                  begin{figure}[ht]
                  centering
                  begin{tikzpicture}[
                  node distance = 0pt,
                  valj/.style args = {#1/#2}{draw, cylinder, shape aspect=4, shape border rotate=90,
                  fill=#2, fill opacity=0.2,
                  minimum height=#1, minimum width=8cm,
                  outer sep=0pt, anchor=bottom, % <--- added
                  node contents={}
                  }
                  ]
                  node (A) [valj=60mm/white];
                  node (B) [valj=40mm/blue,
                  above=of A.bottom]; % <--- positioning of cylinder
                  draw[dashed]
                  let p1 = ($ (A.after bottom) - (A.before bottom) $),
                  n1 = {0.5*veclen(x1,y1)-pgflinewidth},
                  p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
                  n2 = {veclen(x2,y2)}
                  in (A.before bottom) arc [start angle=0, end angle=180,
                  x radius=n1, y radius=n2];
                  end{tikzpicture}
                  caption{The tank.}
                  label{fig:tank}
                  end{figure}
                  end{document}


                  enter image description here






                  share|improve this answer























                    up vote
                    7
                    down vote










                    up vote
                    7
                    down vote









                    you need to define anchors of your cylinders at their bottoms ...



                    documentclass[a4paper, 12pt]{article}
                    %usepackage{pgfplots}
                    %pgfplotsset{compat=1.15}
                    %usepgfplotslibrary{polar}
                    usepackage{tikz}
                    usetikzlibrary{calc,
                    positioning,
                    shapes.geometric}

                    begin{document}
                    begin{figure}[ht]
                    centering
                    begin{tikzpicture}[
                    node distance = 0pt,
                    valj/.style args = {#1/#2}{draw, cylinder, shape aspect=4, shape border rotate=90,
                    fill=#2, fill opacity=0.2,
                    minimum height=#1, minimum width=8cm,
                    outer sep=0pt, anchor=bottom, % <--- added
                    node contents={}
                    }
                    ]
                    node (A) [valj=60mm/white];
                    node (B) [valj=40mm/blue,
                    above=of A.bottom]; % <--- positioning of cylinder
                    draw[dashed]
                    let p1 = ($ (A.after bottom) - (A.before bottom) $),
                    n1 = {0.5*veclen(x1,y1)-pgflinewidth},
                    p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
                    n2 = {veclen(x2,y2)}
                    in (A.before bottom) arc [start angle=0, end angle=180,
                    x radius=n1, y radius=n2];
                    end{tikzpicture}
                    caption{The tank.}
                    label{fig:tank}
                    end{figure}
                    end{document}


                    enter image description here






                    share|improve this answer












                    you need to define anchors of your cylinders at their bottoms ...



                    documentclass[a4paper, 12pt]{article}
                    %usepackage{pgfplots}
                    %pgfplotsset{compat=1.15}
                    %usepgfplotslibrary{polar}
                    usepackage{tikz}
                    usetikzlibrary{calc,
                    positioning,
                    shapes.geometric}

                    begin{document}
                    begin{figure}[ht]
                    centering
                    begin{tikzpicture}[
                    node distance = 0pt,
                    valj/.style args = {#1/#2}{draw, cylinder, shape aspect=4, shape border rotate=90,
                    fill=#2, fill opacity=0.2,
                    minimum height=#1, minimum width=8cm,
                    outer sep=0pt, anchor=bottom, % <--- added
                    node contents={}
                    }
                    ]
                    node (A) [valj=60mm/white];
                    node (B) [valj=40mm/blue,
                    above=of A.bottom]; % <--- positioning of cylinder
                    draw[dashed]
                    let p1 = ($ (A.after bottom) - (A.before bottom) $),
                    n1 = {0.5*veclen(x1,y1)-pgflinewidth},
                    p2 = ($ (A.bottom) - (A.after bottom)!.5!(A.before bottom) $),
                    n2 = {veclen(x2,y2)}
                    in (A.before bottom) arc [start angle=0, end angle=180,
                    x radius=n1, y radius=n2];
                    end{tikzpicture}
                    caption{The tank.}
                    label{fig:tank}
                    end{figure}
                    end{document}


                    enter image description here







                    share|improve this answer












                    share|improve this answer



                    share|improve this answer










                    answered Dec 2 at 4:06









                    Zarko

                    119k865155




                    119k865155






















                        up vote
                        7
                        down vote













                        I would use tikz-3dplot for it, in particular if you are considering adding more 3d-like elements. The following has 4 parameters, one view angle which is set to 100, a radius R, the height of the water HW and the height of the cylinder HC.



                        documentclass[tikz,border=3.14mm]{standalone}
                        usepackage{tikz-3dplot}
                        usepgflibrary{shapes.geometric}
                        usetikzlibrary{calc}
                        begin{document}
                        tdplotsetmaincoords{100}{0}
                        begin{tikzpicture}[tdplot_main_coords]
                        pgfmathsetmacro{R}{4}
                        pgfmathsetmacro{HW}{4}
                        pgfmathsetmacro{HC}{6}
                        % water
                        fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                        --
                        plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                        -- cycle;
                        draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                        ({R*cos(x)},{R*sin(x)},HW);
                        % "invisible" lined
                        draw[dashed] plot[variable=x,domain=180:360,smooth]
                        ({R*cos(x)},{R*sin(x)},0);
                        % visible cylinder lines
                        draw plot[variable=x,domain=0:180,smooth]
                        ({R*cos(x)},{R*sin(x)},0)
                        --
                        plot[variable=x,domain=180:360,smooth]
                        ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                        draw plot[variable=x,domain=0:180,smooth]
                        ({R*cos(x)},{R*sin(x)},HC);
                        end{tikzpicture}
                        end{document}


                        enter image description here



                        The meaning of the view angle is illustrated by this animation.



                        documentclass[tikz,border=3.14mm]{standalone}
                        usepackage{tikz-3dplot}
                        usepgflibrary{shapes.geometric}
                        usetikzlibrary{calc}
                        begin{document}
                        foreach X in {0,10,...,350}
                        {tdplotsetmaincoords{120+30*sin(X)}{0}
                        begin{tikzpicture}
                        pgfmathsetmacro{R}{4}
                        pgfmathsetmacro{HW}{4}
                        pgfmathsetmacro{HC}{6}
                        path[use as bounding box] (-1.1*R,-0.75*HC) rectangle (1.1*R,1.25*HC);
                        begin{scope}[tdplot_main_coords]
                        % water
                        fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                        --
                        plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                        -- cycle;
                        draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                        ({R*cos(x)},{R*sin(x)},HW);
                        % "invisible" lined
                        draw[dashed] plot[variable=x,domain=180:360,smooth]
                        ({R*cos(x)},{R*sin(x)},0);
                        % visible cylinder lines
                        draw plot[variable=x,domain=0:180,smooth]
                        ({R*cos(x)},{R*sin(x)},0)
                        --
                        plot[variable=x,domain=180:360,smooth]
                        ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                        draw plot[variable=x,domain=0:180,smooth]
                        ({R*cos(x)},{R*sin(x)},HC);
                        end{scope}
                        end{tikzpicture}}
                        end{document}


                        enter image description here






                        share|improve this answer



























                          up vote
                          7
                          down vote













                          I would use tikz-3dplot for it, in particular if you are considering adding more 3d-like elements. The following has 4 parameters, one view angle which is set to 100, a radius R, the height of the water HW and the height of the cylinder HC.



                          documentclass[tikz,border=3.14mm]{standalone}
                          usepackage{tikz-3dplot}
                          usepgflibrary{shapes.geometric}
                          usetikzlibrary{calc}
                          begin{document}
                          tdplotsetmaincoords{100}{0}
                          begin{tikzpicture}[tdplot_main_coords]
                          pgfmathsetmacro{R}{4}
                          pgfmathsetmacro{HW}{4}
                          pgfmathsetmacro{HC}{6}
                          % water
                          fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                          --
                          plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                          -- cycle;
                          draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                          ({R*cos(x)},{R*sin(x)},HW);
                          % "invisible" lined
                          draw[dashed] plot[variable=x,domain=180:360,smooth]
                          ({R*cos(x)},{R*sin(x)},0);
                          % visible cylinder lines
                          draw plot[variable=x,domain=0:180,smooth]
                          ({R*cos(x)},{R*sin(x)},0)
                          --
                          plot[variable=x,domain=180:360,smooth]
                          ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                          draw plot[variable=x,domain=0:180,smooth]
                          ({R*cos(x)},{R*sin(x)},HC);
                          end{tikzpicture}
                          end{document}


                          enter image description here



                          The meaning of the view angle is illustrated by this animation.



                          documentclass[tikz,border=3.14mm]{standalone}
                          usepackage{tikz-3dplot}
                          usepgflibrary{shapes.geometric}
                          usetikzlibrary{calc}
                          begin{document}
                          foreach X in {0,10,...,350}
                          {tdplotsetmaincoords{120+30*sin(X)}{0}
                          begin{tikzpicture}
                          pgfmathsetmacro{R}{4}
                          pgfmathsetmacro{HW}{4}
                          pgfmathsetmacro{HC}{6}
                          path[use as bounding box] (-1.1*R,-0.75*HC) rectangle (1.1*R,1.25*HC);
                          begin{scope}[tdplot_main_coords]
                          % water
                          fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                          --
                          plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                          -- cycle;
                          draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                          ({R*cos(x)},{R*sin(x)},HW);
                          % "invisible" lined
                          draw[dashed] plot[variable=x,domain=180:360,smooth]
                          ({R*cos(x)},{R*sin(x)},0);
                          % visible cylinder lines
                          draw plot[variable=x,domain=0:180,smooth]
                          ({R*cos(x)},{R*sin(x)},0)
                          --
                          plot[variable=x,domain=180:360,smooth]
                          ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                          draw plot[variable=x,domain=0:180,smooth]
                          ({R*cos(x)},{R*sin(x)},HC);
                          end{scope}
                          end{tikzpicture}}
                          end{document}


                          enter image description here






                          share|improve this answer

























                            up vote
                            7
                            down vote










                            up vote
                            7
                            down vote









                            I would use tikz-3dplot for it, in particular if you are considering adding more 3d-like elements. The following has 4 parameters, one view angle which is set to 100, a radius R, the height of the water HW and the height of the cylinder HC.



                            documentclass[tikz,border=3.14mm]{standalone}
                            usepackage{tikz-3dplot}
                            usepgflibrary{shapes.geometric}
                            usetikzlibrary{calc}
                            begin{document}
                            tdplotsetmaincoords{100}{0}
                            begin{tikzpicture}[tdplot_main_coords]
                            pgfmathsetmacro{R}{4}
                            pgfmathsetmacro{HW}{4}
                            pgfmathsetmacro{HC}{6}
                            % water
                            fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                            -- cycle;
                            draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                            ({R*cos(x)},{R*sin(x)},HW);
                            % "invisible" lined
                            draw[dashed] plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},0);
                            % visible cylinder lines
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},HC);
                            end{tikzpicture}
                            end{document}


                            enter image description here



                            The meaning of the view angle is illustrated by this animation.



                            documentclass[tikz,border=3.14mm]{standalone}
                            usepackage{tikz-3dplot}
                            usepgflibrary{shapes.geometric}
                            usetikzlibrary{calc}
                            begin{document}
                            foreach X in {0,10,...,350}
                            {tdplotsetmaincoords{120+30*sin(X)}{0}
                            begin{tikzpicture}
                            pgfmathsetmacro{R}{4}
                            pgfmathsetmacro{HW}{4}
                            pgfmathsetmacro{HC}{6}
                            path[use as bounding box] (-1.1*R,-0.75*HC) rectangle (1.1*R,1.25*HC);
                            begin{scope}[tdplot_main_coords]
                            % water
                            fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                            -- cycle;
                            draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                            ({R*cos(x)},{R*sin(x)},HW);
                            % "invisible" lined
                            draw[dashed] plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},0);
                            % visible cylinder lines
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},HC);
                            end{scope}
                            end{tikzpicture}}
                            end{document}


                            enter image description here






                            share|improve this answer














                            I would use tikz-3dplot for it, in particular if you are considering adding more 3d-like elements. The following has 4 parameters, one view angle which is set to 100, a radius R, the height of the water HW and the height of the cylinder HC.



                            documentclass[tikz,border=3.14mm]{standalone}
                            usepackage{tikz-3dplot}
                            usepgflibrary{shapes.geometric}
                            usetikzlibrary{calc}
                            begin{document}
                            tdplotsetmaincoords{100}{0}
                            begin{tikzpicture}[tdplot_main_coords]
                            pgfmathsetmacro{R}{4}
                            pgfmathsetmacro{HW}{4}
                            pgfmathsetmacro{HC}{6}
                            % water
                            fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                            -- cycle;
                            draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                            ({R*cos(x)},{R*sin(x)},HW);
                            % "invisible" lined
                            draw[dashed] plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},0);
                            % visible cylinder lines
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},HC);
                            end{tikzpicture}
                            end{document}


                            enter image description here



                            The meaning of the view angle is illustrated by this animation.



                            documentclass[tikz,border=3.14mm]{standalone}
                            usepackage{tikz-3dplot}
                            usepgflibrary{shapes.geometric}
                            usetikzlibrary{calc}
                            begin{document}
                            foreach X in {0,10,...,350}
                            {tdplotsetmaincoords{120+30*sin(X)}{0}
                            begin{tikzpicture}
                            pgfmathsetmacro{R}{4}
                            pgfmathsetmacro{HW}{4}
                            pgfmathsetmacro{HC}{6}
                            path[use as bounding box] (-1.1*R,-0.75*HC) rectangle (1.1*R,1.25*HC);
                            begin{scope}[tdplot_main_coords]
                            % water
                            fill[blue!40] plot[variable=x,domain=0:180,smooth] ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth] ({R*cos(x)},{R*sin(x)},HW)
                            -- cycle;
                            draw[blue] plot[variable=x,domain=0:360,smooth,samples=51]
                            ({R*cos(x)},{R*sin(x)},HW);
                            % "invisible" lined
                            draw[dashed] plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},0);
                            % visible cylinder lines
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},0)
                            --
                            plot[variable=x,domain=180:360,smooth]
                            ({R*cos(x)},{R*sin(x)},HC) -- cycle;
                            draw plot[variable=x,domain=0:180,smooth]
                            ({R*cos(x)},{R*sin(x)},HC);
                            end{scope}
                            end{tikzpicture}}
                            end{document}


                            enter image description here







                            share|improve this answer














                            share|improve this answer



                            share|improve this answer








                            edited Dec 2 at 4:30

























                            answered Dec 2 at 3:43









                            marmot

                            83.6k493178




                            83.6k493178






















                                up vote
                                2
                                down vote













                                I have figured out a solution. In the square brackets containing the parameters for the first cylinder (the one drawing the water), we need only add xshift = -0.75cm. Since the height of the outer cylinder is 6cm and the height of the inner is 4.5cm, so the difference in height is 1.5cm. Since both cylinders are centered at the same spot, the height of the gaps above and below the blue are 0.75cm each, so we just have to shift it down that distance. I was at first curious as to yshift did not work, but then I realized that the cylinder is rotated in the beginning by 90 degrees, so that is probably the reason.






                                share|improve this answer

























                                  up vote
                                  2
                                  down vote













                                  I have figured out a solution. In the square brackets containing the parameters for the first cylinder (the one drawing the water), we need only add xshift = -0.75cm. Since the height of the outer cylinder is 6cm and the height of the inner is 4.5cm, so the difference in height is 1.5cm. Since both cylinders are centered at the same spot, the height of the gaps above and below the blue are 0.75cm each, so we just have to shift it down that distance. I was at first curious as to yshift did not work, but then I realized that the cylinder is rotated in the beginning by 90 degrees, so that is probably the reason.






                                  share|improve this answer























                                    up vote
                                    2
                                    down vote










                                    up vote
                                    2
                                    down vote









                                    I have figured out a solution. In the square brackets containing the parameters for the first cylinder (the one drawing the water), we need only add xshift = -0.75cm. Since the height of the outer cylinder is 6cm and the height of the inner is 4.5cm, so the difference in height is 1.5cm. Since both cylinders are centered at the same spot, the height of the gaps above and below the blue are 0.75cm each, so we just have to shift it down that distance. I was at first curious as to yshift did not work, but then I realized that the cylinder is rotated in the beginning by 90 degrees, so that is probably the reason.






                                    share|improve this answer












                                    I have figured out a solution. In the square brackets containing the parameters for the first cylinder (the one drawing the water), we need only add xshift = -0.75cm. Since the height of the outer cylinder is 6cm and the height of the inner is 4.5cm, so the difference in height is 1.5cm. Since both cylinders are centered at the same spot, the height of the gaps above and below the blue are 0.75cm each, so we just have to shift it down that distance. I was at first curious as to yshift did not work, but then I realized that the cylinder is rotated in the beginning by 90 degrees, so that is probably the reason.







                                    share|improve this answer












                                    share|improve this answer



                                    share|improve this answer










                                    answered Dec 2 at 3:36









                                    Aiden Kenny

                                    1685




                                    1685






























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