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Bohr's Model - Can we draw the electrons in pairs?
How can I put a coloured outline around fraction lines?Rotate a node but not its content: the case of the ellipse decorationIntersection of paths with constructed namesWhy do I get an extra white page before my TikZ picture?figure 2 for Crossed Ladders ProblemHow to prevent rounded and duplicated tick labels in pgfplots with fixed precision?Drawing rectilinear curves in Tikz, aka an Etch-a-Sketch drawingLine up nested tikz enviroments or how to get rid of themHow to draw a square and its diagonals with arrows?begin{figure}… end{figure} is not working with tikz package
Can we draw the elctrons as pairs as shown...
documentclass[border=5mm]{standalone}
usepackage{bohr}
begin{document}
bohr{10}{P:10}
end{document}
tikz-pgf bohr
edited Feb 18 at 6:18
JouleV
4,91611139
asked Feb 18 at 5:40
sandusandu
3,52042855
add a comment |
Can we draw the elctrons as pairs as shown...
documentclass[border=5mm]{standalone}
usepackage{bohr}
begin{document}
bohr{10}{P:10}
end{document}
tikz-pgf bohr
edited Feb 18 at 6:18
JouleV
4,91611139
asked Feb 18 at 5:40
sandusandu
3,52042855
add a comment |
Can we draw the elctrons as pairs as shown...
documentclass[border=5mm]{standalone}
usepackage{bohr}
begin{document}
bohr{10}{P:10}
end{document}
tikz-pgf bohr
edited Feb 18 at 6:18
JouleV
4,91611139
asked Feb 18 at 5:40
sandusandu
3,52042855
Can we draw the elctrons as pairs as shown...
documentclass[border=5mm]{standalone}
usepackage{bohr}
begin{document}
bohr{10}{P:10}
end{document}
tikz-pgf bohr
tikz-pgf bohr
edited Feb 18 at 6:18
JouleV
4,91611139
asked Feb 18 at 5:40
sandusandu
3,52042855
edited Feb 18 at 6:18
JouleV
4,91611139
asked Feb 18 at 5:40
sandusandu
3,52042855
edited Feb 18 at 6:18
JouleV
4,91611139
edited Feb 18 at 6:18
JouleV
4,91611139
edited Feb 18 at 6:18
JouleV
4,91611139
4,91611139
asked Feb 18 at 5:40
sandusandu
3,52042855
asked Feb 18 at 5:40
sandusandu
3,52042855
asked Feb 18 at 5:40
sandusandu
3,52042855
3,52042855
add a comment |
add a comment |
1 Answer
1
active
oldest
votes
A TikZ solution:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
path[fill=red,draw=black] (85:2) circle (1.5mm);
path[fill=red,draw=black] (95:2) circle (1.5mm);
path[fill=red,draw=black] (-85:2) circle (1.5mm);
path[fill=red,draw=black] (-95:2) circle (1.5mm);
path[fill=red,draw=black] (5:2) circle (1.5mm);
path[fill=red,draw=black] (-5:2) circle (1.5mm);
path[fill=red,draw=black] (175:2) circle (1.5mm);
path[fill=red,draw=black] (-175:2) circle (1.5mm);
end{tikzpicture}
end{document}
Edit 1
We only have to define a new command. I can use newcommand but I prefer def because I can have that command in form of a TikZ command:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[fill=#1,draw=#2] ({#4-5}:#5) circle (#3);
path[fill=#1,draw=#2] ({#4+5}:#5) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (0:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=1.5mm] (180:2);
pairelec[fill=white,draw=red,radius=1.5mm] (90:2);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-90:2);
end{tikzpicture}
end{document}
You can choose the fill color as well as the draw color and the radius.
Edit 2
At first I thought I would have to use maths, but I realize that I have intersections library :)
documentclass[tikz,border=5mm]{standalone}
usetikzlibrary{intersections}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[name path=cir] (0,0) circle (#5cm);
path[name path=smallcir] (#4:#5) circle (#3);
path[name intersections={of=cir and smallcir},fill=#1,draw=#2] (intersection-1) circle (#3) (intersection-2) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (-8:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=3mm] (150:2.5);
pairelec[fill=white,draw=red,radius=1mm] (78:3);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-111:3.5);
end{tikzpicture}
end{document}
You may see the electrons are out of its orbits. This is for testing purpose only!
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
add a comment |
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1 Answer
1
active
oldest
votes
1 Answer
1
active
oldest
votes
active
oldest
votes
active
oldest
votes
A TikZ solution:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
path[fill=red,draw=black] (85:2) circle (1.5mm);
path[fill=red,draw=black] (95:2) circle (1.5mm);
path[fill=red,draw=black] (-85:2) circle (1.5mm);
path[fill=red,draw=black] (-95:2) circle (1.5mm);
path[fill=red,draw=black] (5:2) circle (1.5mm);
path[fill=red,draw=black] (-5:2) circle (1.5mm);
path[fill=red,draw=black] (175:2) circle (1.5mm);
path[fill=red,draw=black] (-175:2) circle (1.5mm);
end{tikzpicture}
end{document}
Edit 1
We only have to define a new command. I can use newcommand but I prefer def because I can have that command in form of a TikZ command:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[fill=#1,draw=#2] ({#4-5}:#5) circle (#3);
path[fill=#1,draw=#2] ({#4+5}:#5) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (0:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=1.5mm] (180:2);
pairelec[fill=white,draw=red,radius=1.5mm] (90:2);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-90:2);
end{tikzpicture}
end{document}
You can choose the fill color as well as the draw color and the radius.
Edit 2
At first I thought I would have to use maths, but I realize that I have intersections library :)
documentclass[tikz,border=5mm]{standalone}
usetikzlibrary{intersections}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[name path=cir] (0,0) circle (#5cm);
path[name path=smallcir] (#4:#5) circle (#3);
path[name intersections={of=cir and smallcir},fill=#1,draw=#2] (intersection-1) circle (#3) (intersection-2) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (-8:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=3mm] (150:2.5);
pairelec[fill=white,draw=red,radius=1mm] (78:3);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-111:3.5);
end{tikzpicture}
end{document}
You may see the electrons are out of its orbits. This is for testing purpose only!
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
add a comment |
A TikZ solution:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
path[fill=red,draw=black] (85:2) circle (1.5mm);
path[fill=red,draw=black] (95:2) circle (1.5mm);
path[fill=red,draw=black] (-85:2) circle (1.5mm);
path[fill=red,draw=black] (-95:2) circle (1.5mm);
path[fill=red,draw=black] (5:2) circle (1.5mm);
path[fill=red,draw=black] (-5:2) circle (1.5mm);
path[fill=red,draw=black] (175:2) circle (1.5mm);
path[fill=red,draw=black] (-175:2) circle (1.5mm);
end{tikzpicture}
end{document}
Edit 1
We only have to define a new command. I can use newcommand but I prefer def because I can have that command in form of a TikZ command:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[fill=#1,draw=#2] ({#4-5}:#5) circle (#3);
path[fill=#1,draw=#2] ({#4+5}:#5) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (0:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=1.5mm] (180:2);
pairelec[fill=white,draw=red,radius=1.5mm] (90:2);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-90:2);
end{tikzpicture}
end{document}
You can choose the fill color as well as the draw color and the radius.
Edit 2
At first I thought I would have to use maths, but I realize that I have intersections library :)
documentclass[tikz,border=5mm]{standalone}
usetikzlibrary{intersections}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[name path=cir] (0,0) circle (#5cm);
path[name path=smallcir] (#4:#5) circle (#3);
path[name intersections={of=cir and smallcir},fill=#1,draw=#2] (intersection-1) circle (#3) (intersection-2) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (-8:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=3mm] (150:2.5);
pairelec[fill=white,draw=red,radius=1mm] (78:3);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-111:3.5);
end{tikzpicture}
end{document}
You may see the electrons are out of its orbits. This is for testing purpose only!
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
add a comment |
A TikZ solution:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
path[fill=red,draw=black] (85:2) circle (1.5mm);
path[fill=red,draw=black] (95:2) circle (1.5mm);
path[fill=red,draw=black] (-85:2) circle (1.5mm);
path[fill=red,draw=black] (-95:2) circle (1.5mm);
path[fill=red,draw=black] (5:2) circle (1.5mm);
path[fill=red,draw=black] (-5:2) circle (1.5mm);
path[fill=red,draw=black] (175:2) circle (1.5mm);
path[fill=red,draw=black] (-175:2) circle (1.5mm);
end{tikzpicture}
end{document}
Edit 1
We only have to define a new command. I can use newcommand but I prefer def because I can have that command in form of a TikZ command:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[fill=#1,draw=#2] ({#4-5}:#5) circle (#3);
path[fill=#1,draw=#2] ({#4+5}:#5) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (0:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=1.5mm] (180:2);
pairelec[fill=white,draw=red,radius=1.5mm] (90:2);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-90:2);
end{tikzpicture}
end{document}
You can choose the fill color as well as the draw color and the radius.
Edit 2
At first I thought I would have to use maths, but I realize that I have intersections library :)
documentclass[tikz,border=5mm]{standalone}
usetikzlibrary{intersections}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[name path=cir] (0,0) circle (#5cm);
path[name path=smallcir] (#4:#5) circle (#3);
path[name intersections={of=cir and smallcir},fill=#1,draw=#2] (intersection-1) circle (#3) (intersection-2) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (-8:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=3mm] (150:2.5);
pairelec[fill=white,draw=red,radius=1mm] (78:3);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-111:3.5);
end{tikzpicture}
end{document}
You may see the electrons are out of its orbits. This is for testing purpose only!
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
A TikZ solution:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
path[fill=red,draw=black] (85:2) circle (1.5mm);
path[fill=red,draw=black] (95:2) circle (1.5mm);
path[fill=red,draw=black] (-85:2) circle (1.5mm);
path[fill=red,draw=black] (-95:2) circle (1.5mm);
path[fill=red,draw=black] (5:2) circle (1.5mm);
path[fill=red,draw=black] (-5:2) circle (1.5mm);
path[fill=red,draw=black] (175:2) circle (1.5mm);
path[fill=red,draw=black] (-175:2) circle (1.5mm);
end{tikzpicture}
end{document}
Edit 1
We only have to define a new command. I can use newcommand but I prefer def because I can have that command in form of a TikZ command:
documentclass[tikz,border=5mm]{standalone}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[fill=#1,draw=#2] ({#4-5}:#5) circle (#3);
path[fill=#1,draw=#2] ({#4+5}:#5) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (0:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=1.5mm] (180:2);
pairelec[fill=white,draw=red,radius=1.5mm] (90:2);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-90:2);
end{tikzpicture}
end{document}
You can choose the fill color as well as the draw color and the radius.
Edit 2
At first I thought I would have to use maths, but I realize that I have intersections library :)
documentclass[tikz,border=5mm]{standalone}
usetikzlibrary{intersections}
begin{document}
begin{tikzpicture}
defpairelec[fill=#1,draw=#2,radius=#3] (#4:#5); {
path[name path=cir] (0,0) circle (#5cm);
path[name path=smallcir] (#4:#5) circle (#3);
path[name intersections={of=cir and smallcir},fill=#1,draw=#2] (intersection-1) circle (#3) (intersection-2) circle (#3);
}
node[align=center,fill=black,circle] (o) at (0,0) {color{yellow}P:10\color{blue!50}N:10};
draw (0,0) circle (1.25cm) circle (2cm);
path[fill=red,draw=black] (90:1.25) circle (1.5mm);
path[fill=red,draw=black] (-90:1.25) circle (1.5mm);
pairelec[fill=red,draw=black,radius=1.5mm] (-8:2);
% Remember fill -> draw -> radius - you must have all three options!
pairelec[fill=green,draw=blue,radius=3mm] (150:2.5);
pairelec[fill=white,draw=red,radius=1mm] (78:3);
pairelec[fill=yellow,draw=blue,radius=1.5mm] (-111:3.5);
end{tikzpicture}
end{document}
You may see the electrons are out of its orbits. This is for testing purpose only!
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
edited 8 mins ago
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
answered Feb 18 at 5:48
JouleVJouleV
4,91611139
4,91611139
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
add a comment |
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
is it possible to put two pair of electron as a single picture and put at any angle and in different radius?
– sandu
Feb 18 at 5:52
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
({#4-5}:#5) Here adding or subtracting 5 degree will increase the gap between electrons when radius increases.. Is it possible to have same gap (or no gap) between electrons irrespective of radius...
– sandu
Feb 18 at 8:39
add a comment |
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