Why is there a jagged line when I plot this function?

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Hi guys,
I am trying to plot an implicit function and am getting strange results. I understand the smooth part of the function, but not the jagged part. Why is the jagged part there at all? Also, what can I do to eliminate it?
Here's the code:
f1=(@(x,y) (5.*y.^(1./2) -3)./(2.5.*y.^(1./2)+2.5.*x.^(1./2)-3)-y);
fimplicit(f1,[0 4 0 4],'black')

Answers (2)

tmarske
tmarske on 16 Mar 2020
It's because fimplicit is using too few evaluation points, resulting in too coarse an interpolation (by default it uses 151). You can override this using the 'MeshDensity' argument:
f1=(@(x,y) (5.*y.^(1./2) -3)./(2.5.*y.^(1./2)+2.5.*x.^(1./2)-3)-y);
fimplicit(f1,[0 4 0 4],'black', 'MeshDensity', 5000)
  6 Comments
econogist
econogist on 17 Mar 2020
Thanks for that! I see what you mean. So is there anyway I can get rid of that part of the plot completely? I tried limiting the range, but that gets rid of the part I want as well.
Walter Roberson
Walter Roberson on 17 Mar 2020
Edited: Walter Roberson on 17 Mar 2020
If you have the symbolic toolbox, you can solve f1 for x in term of y to get a single x for each y. you can then linspace() for y and put those through the equation to derive x, and then plot(x,y)

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econogist
econogist on 17 Mar 2020
I do have the symbolic toolbox. I'm trying to do what you said but still having some trouble as I'm new to matlab. I think I'm on the right track, but it's coming up with an error message.
Here is what I have so far:
syms x y
eqn=(5.*y.^(1/2) -3)./(2.5.*x.^(1./2)+2.5.*y.^(1/2)-3)==y;
S=solve(eqn, x);
y=linspace(0,100);
plot(S,y)

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