How to draw (maybe curved) electrical field lines between two plates in TikZ
How to draw these figures in TikZ?
I have managed to draw the first two figures, but the way I drew the arrows is not really good:
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
foreach i in {-3,...,3}
draw[->] (i,0)--(i,-1.1); % Figure A
%draw[-<] (i,0)--(i,-1.1); Figure B
draw (-3,-1)--(-3,-2.2);
draw (-2,-1)--(-2,-2.4);
draw (-1,-1)--(-1,-2.6);
draw (0,-1)--(0,-2.7);
draw (3,-1)--(3,-2.2);
draw (2,-1)--(2,-2.4);
draw (1,-1)--(1,-2.6);
% It is ugly and time-consuming, right? but I can't find a better one
draw[line width=3pt,red] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
draw (0,-2.7) node[below] {$-$};
end{tikzpicture}
end{document}
As the way I drew the straight arrows is not optimal, I can't use it to draw the curved arrows in the last two figures.
Can you show me a better way? Thank you in advance.
tikz-pgf arrows
New contributor
add a comment |
How to draw these figures in TikZ?
I have managed to draw the first two figures, but the way I drew the arrows is not really good:
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
foreach i in {-3,...,3}
draw[->] (i,0)--(i,-1.1); % Figure A
%draw[-<] (i,0)--(i,-1.1); Figure B
draw (-3,-1)--(-3,-2.2);
draw (-2,-1)--(-2,-2.4);
draw (-1,-1)--(-1,-2.6);
draw (0,-1)--(0,-2.7);
draw (3,-1)--(3,-2.2);
draw (2,-1)--(2,-2.4);
draw (1,-1)--(1,-2.6);
% It is ugly and time-consuming, right? but I can't find a better one
draw[line width=3pt,red] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
draw (0,-2.7) node[below] {$-$};
end{tikzpicture}
end{document}
As the way I drew the straight arrows is not optimal, I can't use it to draw the curved arrows in the last two figures.
Can you show me a better way? Thank you in advance.
tikz-pgf arrows
New contributor
Draw the blue curve as an arc so you can predict the coordinates of points on it. And then draw arrows by[bend = xxxx]
.
– Symbol 1
1 hour ago
add a comment |
How to draw these figures in TikZ?
I have managed to draw the first two figures, but the way I drew the arrows is not really good:
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
foreach i in {-3,...,3}
draw[->] (i,0)--(i,-1.1); % Figure A
%draw[-<] (i,0)--(i,-1.1); Figure B
draw (-3,-1)--(-3,-2.2);
draw (-2,-1)--(-2,-2.4);
draw (-1,-1)--(-1,-2.6);
draw (0,-1)--(0,-2.7);
draw (3,-1)--(3,-2.2);
draw (2,-1)--(2,-2.4);
draw (1,-1)--(1,-2.6);
% It is ugly and time-consuming, right? but I can't find a better one
draw[line width=3pt,red] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
draw (0,-2.7) node[below] {$-$};
end{tikzpicture}
end{document}
As the way I drew the straight arrows is not optimal, I can't use it to draw the curved arrows in the last two figures.
Can you show me a better way? Thank you in advance.
tikz-pgf arrows
New contributor
How to draw these figures in TikZ?
I have managed to draw the first two figures, but the way I drew the arrows is not really good:
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
foreach i in {-3,...,3}
draw[->] (i,0)--(i,-1.1); % Figure A
%draw[-<] (i,0)--(i,-1.1); Figure B
draw (-3,-1)--(-3,-2.2);
draw (-2,-1)--(-2,-2.4);
draw (-1,-1)--(-1,-2.6);
draw (0,-1)--(0,-2.7);
draw (3,-1)--(3,-2.2);
draw (2,-1)--(2,-2.4);
draw (1,-1)--(1,-2.6);
% It is ugly and time-consuming, right? but I can't find a better one
draw[line width=3pt,red] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
draw (0,-2.7) node[below] {$-$};
end{tikzpicture}
end{document}
As the way I drew the straight arrows is not optimal, I can't use it to draw the curved arrows in the last two figures.
Can you show me a better way? Thank you in advance.
tikz-pgf arrows
tikz-pgf arrows
New contributor
New contributor
New contributor
asked 2 hours ago
SomeoneSomeone
161
161
New contributor
New contributor
Draw the blue curve as an arc so you can predict the coordinates of points on it. And then draw arrows by[bend = xxxx]
.
– Symbol 1
1 hour ago
add a comment |
Draw the blue curve as an arc so you can predict the coordinates of points on it. And then draw arrows by[bend = xxxx]
.
– Symbol 1
1 hour ago
Draw the blue curve as an arc so you can predict the coordinates of points on it. And then draw arrows by
[bend = xxxx]
.– Symbol 1
1 hour ago
Draw the blue curve as an arc so you can predict the coordinates of points on it. And then draw arrows by
[bend = xxxx]
.– Symbol 1
1 hour ago
add a comment |
2 Answers
2
active
oldest
votes
An alternative, but very similar, approach to marmot's excellent solution (beaten by mere minutes).
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
% Library for middle arrowheads
usetikzlibrary{decorations.markings}
% Style the vertical lines (this form is necessary for the middle arrowhead)
begin{scope}[semithick,decoration={
markings,
mark=at position 0.4 with {arrow{>}}}
]
% Loop through and draw each vertical line
foreach xRed in {-3,...,3}
% Spread the bottom points horizontally
pgfmathsetmacroxBlue{xRed*1.1}
% Red line is straight, but could put arbitrary function here
pgfmathsetmacroyRed{0}
% Blue line is curved, quadratic eqn
pgfmathsetmacroyBlue{0.06*xBlue*xBlue-2.7}
% Calculate angle of lines touching blue line
pgfmathsetmacroangle{6.6667*xRed+90}
% Draw a line
draw[postaction={decorate}] (xRed,yRed) to[out=-90,in=angle] (xBlue,yBlue);
end{scope}
% Red line, could put arbitrary function here
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,red] plot ({x},{0});
% + sign
draw (0,0) node[above] {(+)};
% Blue line, quadratic eqn
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,blue] plot ({x},{0.06*x*x-2.7});
% - sign
draw (0,-2.7) node[below] {(-)};
end{tikzpicture}
end{document}
New contributor
add a comment |
Welcome to TeX.SE! decoration.markings
and foreach
can help a lot here. The arrows in the middle are (essentially) from here. And decorations.markings
is also used to set marks along the blue curves. They get used to define the starting points of the arrows. The to[out=...,int=...]
is used to bend the paths in C
and D
.
documentclass[tikz,border=3mm]{standalone}
usetikzlibrary{decorations.markings,arrows.meta}
tikzset{->-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{>}}}}},
-<-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{<}}}}},
insert target/.style args={#1|#2}{postaction={decorate,decoration={
markings,
mark=at position #1 with {coordinate (target-#2);}}}}
}
begin{document}
begin{tikzpicture}[arsty/.style={},>=Latex,font=sffamily]
begin{scope}[local bounding box=A]
draw[line width=3pt,red,
%insert target/.list={1/12|Atop-1,3/12|Atop-2,5/12|Atop-3,7/12|Atop-4,9/12|Atop-5,11/12|Atop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Abot-1,3/12|Abot-2,5/12|Abot-3,7/12|Abot-4,9/12|Abot-5,11/12|Abot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Abot-X) -- (0,0-|target-Abot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (A.north) {A};
%
begin{scope}[local bounding box=B,xshift=8cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Btop-1,3/12|Btop-2,5/12|Btop-3,7/12|Btop-4,9/12|Btop-5,11/12|Btop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Bbot-1,3/12|Bbot-2,5/12|Bbot-3,7/12|Bbot-4,9/12|Bbot-5,11/12|Bbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Bbot-X) -- (0,0-|target-Bbot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (B.north) {B};
%
begin{scope}[local bounding box=C,yshift=-6cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Ctop-1,3/12|Ctop-2,5/12|Ctop-3,7/12|Ctop-4,9/12|Ctop-5,11/12|Ctop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Cbot-1,3/12|Cbot-2,5/12|Cbot-3,7/12|Cbot-4,9/12|Cbot-5,11/12|Cbot-6}]
(-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Cbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Cbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (C.north) {C};
%
begin{scope}[local bounding box=D,xshift=8cm,yshift=-6cm]
draw[line width=3pt,red,
insert target/.list={1/12|Dtop-1,3/12|Dtop-2,5/12|Dtop-3,7/12|Dtop-4,9/12|Dtop-5,11/12|Dtop-6}] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Dbot-1,3/12|Dbot-2,5/12|Dbot-3,7/12|Dbot-4,9/12|Dbot-5,11/12|Dbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Dbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Dbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (D.north) {D};
end{tikzpicture}
end{document}
add a comment |
Your Answer
StackExchange.ready(function() {
var channelOptions = {
tags: "".split(" "),
id: "85"
};
initTagRenderer("".split(" "), "".split(" "), channelOptions);
StackExchange.using("externalEditor", function() {
// Have to fire editor after snippets, if snippets enabled
if (StackExchange.settings.snippets.snippetsEnabled) {
StackExchange.using("snippets", function() {
createEditor();
});
}
else {
createEditor();
}
});
function createEditor() {
StackExchange.prepareEditor({
heartbeatType: 'answer',
autoActivateHeartbeat: false,
convertImagesToLinks: false,
noModals: true,
showLowRepImageUploadWarning: true,
reputationToPostImages: null,
bindNavPrevention: true,
postfix: "",
imageUploader: {
brandingHtml: "Powered by u003ca class="icon-imgur-white" href="https://imgur.com/"u003eu003c/au003e",
contentPolicyHtml: "User contributions licensed under u003ca href="https://creativecommons.org/licenses/by-sa/3.0/"u003ecc by-sa 3.0 with attribution requiredu003c/au003e u003ca href="https://stackoverflow.com/legal/content-policy"u003e(content policy)u003c/au003e",
allowUrls: true
},
onDemand: true,
discardSelector: ".discard-answer"
,immediatelyShowMarkdownHelp:true
});
}
});
Someone is a new contributor. Be nice, and check out our Code of Conduct.
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function () {
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2ftex.stackexchange.com%2fquestions%2f474143%2fhow-to-draw-maybe-curved-electrical-field-lines-between-two-plates-in-tikz%23new-answer', 'question_page');
}
);
Post as a guest
Required, but never shown
2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
An alternative, but very similar, approach to marmot's excellent solution (beaten by mere minutes).
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
% Library for middle arrowheads
usetikzlibrary{decorations.markings}
% Style the vertical lines (this form is necessary for the middle arrowhead)
begin{scope}[semithick,decoration={
markings,
mark=at position 0.4 with {arrow{>}}}
]
% Loop through and draw each vertical line
foreach xRed in {-3,...,3}
% Spread the bottom points horizontally
pgfmathsetmacroxBlue{xRed*1.1}
% Red line is straight, but could put arbitrary function here
pgfmathsetmacroyRed{0}
% Blue line is curved, quadratic eqn
pgfmathsetmacroyBlue{0.06*xBlue*xBlue-2.7}
% Calculate angle of lines touching blue line
pgfmathsetmacroangle{6.6667*xRed+90}
% Draw a line
draw[postaction={decorate}] (xRed,yRed) to[out=-90,in=angle] (xBlue,yBlue);
end{scope}
% Red line, could put arbitrary function here
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,red] plot ({x},{0});
% + sign
draw (0,0) node[above] {(+)};
% Blue line, quadratic eqn
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,blue] plot ({x},{0.06*x*x-2.7});
% - sign
draw (0,-2.7) node[below] {(-)};
end{tikzpicture}
end{document}
New contributor
add a comment |
An alternative, but very similar, approach to marmot's excellent solution (beaten by mere minutes).
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
% Library for middle arrowheads
usetikzlibrary{decorations.markings}
% Style the vertical lines (this form is necessary for the middle arrowhead)
begin{scope}[semithick,decoration={
markings,
mark=at position 0.4 with {arrow{>}}}
]
% Loop through and draw each vertical line
foreach xRed in {-3,...,3}
% Spread the bottom points horizontally
pgfmathsetmacroxBlue{xRed*1.1}
% Red line is straight, but could put arbitrary function here
pgfmathsetmacroyRed{0}
% Blue line is curved, quadratic eqn
pgfmathsetmacroyBlue{0.06*xBlue*xBlue-2.7}
% Calculate angle of lines touching blue line
pgfmathsetmacroangle{6.6667*xRed+90}
% Draw a line
draw[postaction={decorate}] (xRed,yRed) to[out=-90,in=angle] (xBlue,yBlue);
end{scope}
% Red line, could put arbitrary function here
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,red] plot ({x},{0});
% + sign
draw (0,0) node[above] {(+)};
% Blue line, quadratic eqn
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,blue] plot ({x},{0.06*x*x-2.7});
% - sign
draw (0,-2.7) node[below] {(-)};
end{tikzpicture}
end{document}
New contributor
add a comment |
An alternative, but very similar, approach to marmot's excellent solution (beaten by mere minutes).
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
% Library for middle arrowheads
usetikzlibrary{decorations.markings}
% Style the vertical lines (this form is necessary for the middle arrowhead)
begin{scope}[semithick,decoration={
markings,
mark=at position 0.4 with {arrow{>}}}
]
% Loop through and draw each vertical line
foreach xRed in {-3,...,3}
% Spread the bottom points horizontally
pgfmathsetmacroxBlue{xRed*1.1}
% Red line is straight, but could put arbitrary function here
pgfmathsetmacroyRed{0}
% Blue line is curved, quadratic eqn
pgfmathsetmacroyBlue{0.06*xBlue*xBlue-2.7}
% Calculate angle of lines touching blue line
pgfmathsetmacroangle{6.6667*xRed+90}
% Draw a line
draw[postaction={decorate}] (xRed,yRed) to[out=-90,in=angle] (xBlue,yBlue);
end{scope}
% Red line, could put arbitrary function here
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,red] plot ({x},{0});
% + sign
draw (0,0) node[above] {(+)};
% Blue line, quadratic eqn
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,blue] plot ({x},{0.06*x*x-2.7});
% - sign
draw (0,-2.7) node[below] {(-)};
end{tikzpicture}
end{document}
New contributor
An alternative, but very similar, approach to marmot's excellent solution (beaten by mere minutes).
documentclass[tikz,border=3mm]{standalone}
begin{document}
begin{tikzpicture}
% Library for middle arrowheads
usetikzlibrary{decorations.markings}
% Style the vertical lines (this form is necessary for the middle arrowhead)
begin{scope}[semithick,decoration={
markings,
mark=at position 0.4 with {arrow{>}}}
]
% Loop through and draw each vertical line
foreach xRed in {-3,...,3}
% Spread the bottom points horizontally
pgfmathsetmacroxBlue{xRed*1.1}
% Red line is straight, but could put arbitrary function here
pgfmathsetmacroyRed{0}
% Blue line is curved, quadratic eqn
pgfmathsetmacroyBlue{0.06*xBlue*xBlue-2.7}
% Calculate angle of lines touching blue line
pgfmathsetmacroangle{6.6667*xRed+90}
% Draw a line
draw[postaction={decorate}] (xRed,yRed) to[out=-90,in=angle] (xBlue,yBlue);
end{scope}
% Red line, could put arbitrary function here
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,red] plot ({x},{0});
% + sign
draw (0,0) node[above] {(+)};
% Blue line, quadratic eqn
draw[domain=-3.5:3.5,smooth,variable=x,line width=3pt,blue] plot ({x},{0.06*x*x-2.7});
% - sign
draw (0,-2.7) node[below] {(-)};
end{tikzpicture}
end{document}
New contributor
New contributor
answered 36 mins ago
Robin GeorgRobin Georg
211
211
New contributor
New contributor
add a comment |
add a comment |
Welcome to TeX.SE! decoration.markings
and foreach
can help a lot here. The arrows in the middle are (essentially) from here. And decorations.markings
is also used to set marks along the blue curves. They get used to define the starting points of the arrows. The to[out=...,int=...]
is used to bend the paths in C
and D
.
documentclass[tikz,border=3mm]{standalone}
usetikzlibrary{decorations.markings,arrows.meta}
tikzset{->-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{>}}}}},
-<-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{<}}}}},
insert target/.style args={#1|#2}{postaction={decorate,decoration={
markings,
mark=at position #1 with {coordinate (target-#2);}}}}
}
begin{document}
begin{tikzpicture}[arsty/.style={},>=Latex,font=sffamily]
begin{scope}[local bounding box=A]
draw[line width=3pt,red,
%insert target/.list={1/12|Atop-1,3/12|Atop-2,5/12|Atop-3,7/12|Atop-4,9/12|Atop-5,11/12|Atop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Abot-1,3/12|Abot-2,5/12|Abot-3,7/12|Abot-4,9/12|Abot-5,11/12|Abot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Abot-X) -- (0,0-|target-Abot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (A.north) {A};
%
begin{scope}[local bounding box=B,xshift=8cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Btop-1,3/12|Btop-2,5/12|Btop-3,7/12|Btop-4,9/12|Btop-5,11/12|Btop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Bbot-1,3/12|Bbot-2,5/12|Bbot-3,7/12|Bbot-4,9/12|Bbot-5,11/12|Bbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Bbot-X) -- (0,0-|target-Bbot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (B.north) {B};
%
begin{scope}[local bounding box=C,yshift=-6cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Ctop-1,3/12|Ctop-2,5/12|Ctop-3,7/12|Ctop-4,9/12|Ctop-5,11/12|Ctop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Cbot-1,3/12|Cbot-2,5/12|Cbot-3,7/12|Cbot-4,9/12|Cbot-5,11/12|Cbot-6}]
(-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Cbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Cbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (C.north) {C};
%
begin{scope}[local bounding box=D,xshift=8cm,yshift=-6cm]
draw[line width=3pt,red,
insert target/.list={1/12|Dtop-1,3/12|Dtop-2,5/12|Dtop-3,7/12|Dtop-4,9/12|Dtop-5,11/12|Dtop-6}] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Dbot-1,3/12|Dbot-2,5/12|Dbot-3,7/12|Dbot-4,9/12|Dbot-5,11/12|Dbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Dbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Dbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (D.north) {D};
end{tikzpicture}
end{document}
add a comment |
Welcome to TeX.SE! decoration.markings
and foreach
can help a lot here. The arrows in the middle are (essentially) from here. And decorations.markings
is also used to set marks along the blue curves. They get used to define the starting points of the arrows. The to[out=...,int=...]
is used to bend the paths in C
and D
.
documentclass[tikz,border=3mm]{standalone}
usetikzlibrary{decorations.markings,arrows.meta}
tikzset{->-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{>}}}}},
-<-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{<}}}}},
insert target/.style args={#1|#2}{postaction={decorate,decoration={
markings,
mark=at position #1 with {coordinate (target-#2);}}}}
}
begin{document}
begin{tikzpicture}[arsty/.style={},>=Latex,font=sffamily]
begin{scope}[local bounding box=A]
draw[line width=3pt,red,
%insert target/.list={1/12|Atop-1,3/12|Atop-2,5/12|Atop-3,7/12|Atop-4,9/12|Atop-5,11/12|Atop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Abot-1,3/12|Abot-2,5/12|Abot-3,7/12|Abot-4,9/12|Abot-5,11/12|Abot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Abot-X) -- (0,0-|target-Abot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (A.north) {A};
%
begin{scope}[local bounding box=B,xshift=8cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Btop-1,3/12|Btop-2,5/12|Btop-3,7/12|Btop-4,9/12|Btop-5,11/12|Btop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Bbot-1,3/12|Bbot-2,5/12|Bbot-3,7/12|Bbot-4,9/12|Bbot-5,11/12|Bbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Bbot-X) -- (0,0-|target-Bbot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (B.north) {B};
%
begin{scope}[local bounding box=C,yshift=-6cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Ctop-1,3/12|Ctop-2,5/12|Ctop-3,7/12|Ctop-4,9/12|Ctop-5,11/12|Ctop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Cbot-1,3/12|Cbot-2,5/12|Cbot-3,7/12|Cbot-4,9/12|Cbot-5,11/12|Cbot-6}]
(-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Cbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Cbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (C.north) {C};
%
begin{scope}[local bounding box=D,xshift=8cm,yshift=-6cm]
draw[line width=3pt,red,
insert target/.list={1/12|Dtop-1,3/12|Dtop-2,5/12|Dtop-3,7/12|Dtop-4,9/12|Dtop-5,11/12|Dtop-6}] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Dbot-1,3/12|Dbot-2,5/12|Dbot-3,7/12|Dbot-4,9/12|Dbot-5,11/12|Dbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Dbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Dbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (D.north) {D};
end{tikzpicture}
end{document}
add a comment |
Welcome to TeX.SE! decoration.markings
and foreach
can help a lot here. The arrows in the middle are (essentially) from here. And decorations.markings
is also used to set marks along the blue curves. They get used to define the starting points of the arrows. The to[out=...,int=...]
is used to bend the paths in C
and D
.
documentclass[tikz,border=3mm]{standalone}
usetikzlibrary{decorations.markings,arrows.meta}
tikzset{->-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{>}}}}},
-<-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{<}}}}},
insert target/.style args={#1|#2}{postaction={decorate,decoration={
markings,
mark=at position #1 with {coordinate (target-#2);}}}}
}
begin{document}
begin{tikzpicture}[arsty/.style={},>=Latex,font=sffamily]
begin{scope}[local bounding box=A]
draw[line width=3pt,red,
%insert target/.list={1/12|Atop-1,3/12|Atop-2,5/12|Atop-3,7/12|Atop-4,9/12|Atop-5,11/12|Atop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Abot-1,3/12|Abot-2,5/12|Abot-3,7/12|Abot-4,9/12|Abot-5,11/12|Abot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Abot-X) -- (0,0-|target-Abot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (A.north) {A};
%
begin{scope}[local bounding box=B,xshift=8cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Btop-1,3/12|Btop-2,5/12|Btop-3,7/12|Btop-4,9/12|Btop-5,11/12|Btop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Bbot-1,3/12|Bbot-2,5/12|Bbot-3,7/12|Bbot-4,9/12|Bbot-5,11/12|Bbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Bbot-X) -- (0,0-|target-Bbot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (B.north) {B};
%
begin{scope}[local bounding box=C,yshift=-6cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Ctop-1,3/12|Ctop-2,5/12|Ctop-3,7/12|Ctop-4,9/12|Ctop-5,11/12|Ctop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Cbot-1,3/12|Cbot-2,5/12|Cbot-3,7/12|Cbot-4,9/12|Cbot-5,11/12|Cbot-6}]
(-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Cbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Cbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (C.north) {C};
%
begin{scope}[local bounding box=D,xshift=8cm,yshift=-6cm]
draw[line width=3pt,red,
insert target/.list={1/12|Dtop-1,3/12|Dtop-2,5/12|Dtop-3,7/12|Dtop-4,9/12|Dtop-5,11/12|Dtop-6}] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Dbot-1,3/12|Dbot-2,5/12|Dbot-3,7/12|Dbot-4,9/12|Dbot-5,11/12|Dbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Dbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Dbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (D.north) {D};
end{tikzpicture}
end{document}
Welcome to TeX.SE! decoration.markings
and foreach
can help a lot here. The arrows in the middle are (essentially) from here. And decorations.markings
is also used to set marks along the blue curves. They get used to define the starting points of the arrows. The to[out=...,int=...]
is used to bend the paths in C
and D
.
documentclass[tikz,border=3mm]{standalone}
usetikzlibrary{decorations.markings,arrows.meta}
tikzset{->-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{>}}}}},
-<-/.style={postaction={decorate,decoration={
markings,
mark=at position #1 with {arrow[arsty]{<}}}}},
insert target/.style args={#1|#2}{postaction={decorate,decoration={
markings,
mark=at position #1 with {coordinate (target-#2);}}}}
}
begin{document}
begin{tikzpicture}[arsty/.style={},>=Latex,font=sffamily]
begin{scope}[local bounding box=A]
draw[line width=3pt,red,
%insert target/.list={1/12|Atop-1,3/12|Atop-2,5/12|Atop-3,7/12|Atop-4,9/12|Atop-5,11/12|Atop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Abot-1,3/12|Abot-2,5/12|Abot-3,7/12|Abot-4,9/12|Abot-5,11/12|Abot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Abot-X) -- (0,0-|target-Abot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (A.north) {A};
%
begin{scope}[local bounding box=B,xshift=8cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Btop-1,3/12|Btop-2,5/12|Btop-3,7/12|Btop-4,9/12|Btop-5,11/12|Btop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Bbot-1,3/12|Bbot-2,5/12|Bbot-3,7/12|Bbot-4,9/12|Bbot-5,11/12|Bbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Bbot-X) -- (0,0-|target-Bbot-X);}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (B.north) {B};
%
begin{scope}[local bounding box=C,yshift=-6cm]
draw[line width=3pt,red,
%insert target/.list={1/12|Ctop-1,3/12|Ctop-2,5/12|Ctop-3,7/12|Ctop-4,9/12|Ctop-5,11/12|Ctop-6}
] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Cbot-1,3/12|Cbot-2,5/12|Cbot-3,7/12|Cbot-4,9/12|Cbot-5,11/12|Cbot-6}]
(-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[-<-=0.5] (target-Cbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Cbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (C.north) {C};
%
begin{scope}[local bounding box=D,xshift=8cm,yshift=-6cm]
draw[line width=3pt,red,
insert target/.list={1/12|Dtop-1,3/12|Dtop-2,5/12|Dtop-3,7/12|Dtop-4,9/12|Dtop-5,11/12|Dtop-6}] (-3.5,0)--(3.5,0);
draw (0,0) node[above] {$+$};
draw[line width=3pt,blue,
insert target/.list={1/12|Dbot-1,3/12|Dbot-2,5/12|Dbot-3,7/12|Dbot-4,9/12|Dbot-5,11/12|Dbot-6}] (-3.5,-2) to[out=-20,in=-160] (3.5,-2);
foreach X in {1,...,6}
{draw[->-=0.5] (target-Dbot-X) to[out=69+6*X,in=-90]
([xshift={(3.5-X)*1.3mm}]target-Dbot-X |-0,0);
}
draw (0,-2.7) node[below] {$-$};
end{scope}
node[anchor=south] at (D.north) {D};
end{tikzpicture}
end{document}
answered 50 mins ago
marmotmarmot
98.8k4113219
98.8k4113219
add a comment |
add a comment |
Someone is a new contributor. Be nice, and check out our Code of Conduct.
Someone is a new contributor. Be nice, and check out our Code of Conduct.
Someone is a new contributor. Be nice, and check out our Code of Conduct.
Someone is a new contributor. Be nice, and check out our Code of Conduct.
Thanks for contributing an answer to TeX - LaTeX Stack Exchange!
- Please be sure to answer the question. Provide details and share your research!
But avoid …
- Asking for help, clarification, or responding to other answers.
- Making statements based on opinion; back them up with references or personal experience.
To learn more, see our tips on writing great answers.
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function () {
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2ftex.stackexchange.com%2fquestions%2f474143%2fhow-to-draw-maybe-curved-electrical-field-lines-between-two-plates-in-tikz%23new-answer', 'question_page');
}
);
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function () {
StackExchange.helpers.onClickDraftSave('#login-link');
});
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Draw the blue curve as an arc so you can predict the coordinates of points on it. And then draw arrows by
[bend = xxxx]
.– Symbol 1
1 hour ago