Unresolved Detail In Plotted Equations

Sometimes the calculator detects that an equation is too complicated to plot perfectly in a reasonable amount of time. When this happens, the equation is plotted at lower resolution.

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• Liueri

Also, compare \frac{\left(\sin x\right)}{\left(\sin y\right)\left(\tan y\right)}=\frac{\left(\cos x\right)}{\left(\cos y\right)\tan x} TO \sin \left(\left|y\right|\right)=\frac{\left(\left|\frac{\sin x}{\sin y}\right|\right)}{\left(\left|\frac{\cos x}{\cos y}\right|\right)}

• Daniela Martin

omg try xyxyyx=xyyxyx

• Nebbybear21

This one is amazing! \sin \left(x\right)\cdot \cos \left(x\right)\cdot \sin \left(xy\right)=0

• Cbushofsky

Excuse me. Try this \sqrt{x}\frac{d}{dx}v\operatorname{abs}\left(x^3\right)=\operatorname{mod}\left(\frac{\left(\left(\operatorname{floor}\left(xy^{x!x}!\int _2^vxdx\sum _{n=x}^3y\operatorname{ceil}\left(\operatorname{stdev}\left(x,3\right)\operatorname{abs}\left(x\cot \left(y\right)\right)\right)\right)\prod _{n=0}^vx^y!y\beta +\sin x\right)^{\operatorname{floor}\left(xy^{x!x}!\int _2^vxdx\sum _{n=x}^3y\operatorname{ceil}\left(\operatorname{stdev}\left(x,3\right)\operatorname{abs}\left(x\cot \left(y\right)\right)\right)\right)\prod _{n=0}^vx^y!y\beta +\sin x}\right)}{\sqrt{x}\frac{d}{dx}v\operatorname{abs}\left(x^3\right)+\frac{\left(-b+\sqrt{b^2-4ac}\right)}{2a}},2\sqrt{x}\frac{d}{dx}v\operatorname{abs}\left(x^3\right)+\frac{\left(-b+\sqrt{b^2-4ac}\right)}{2a}\right)

b=5

a=-3.4

c=4.1

beta=5.2

v=8.58

Edited by Cbushofsky
• cubong

no sin(x^2+y^2)=cos(xy) is far worse

• $y=\log _{\left(\sin \left(\left|x\right|\right)\right)}\left(\left(\left|x\right|\right)^{\sin y}\right)$ pretty crazy! also,

$y=\log _xx^y$

• IAnthonyIsAwesome

1-\left(x-\operatorname{floor}\left(x\right)\right)=1-\left(y-\operatorname{floor}\left(y\right)\ \right) is another example.

• Gerbersnail

Get on my level. y=0.4x^{\frac{x}{\frac{yxxxxxxxxxxx}{\frac{y^2}{xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx+\frac{\frac{x}{y}}{x}}}}^{y^{yx^{xxxxxxxxx\frac{y}{x}}}}}

• INiklus 123

y=x-(absolute value of x+absolute value of y) also works

• Xinli Dai the Pi Guy

for all those who did not understand the /left things and such, here is a website for latex equations. just copy and paste the equation without the dollar signs.

Online LaTeX Equation Editor - create, integrate, and download

• Jakesoliman

https://www.desmos.com/calculator/rlwwax8alc has like ALL of these.

KRAZY!!

• Alexanderaschneider64

x^(2y)=((sin(y)/cos(x^(2))tan(x/y^(2))3.0*10^(8)

• Maxim

y!=\frac{\sqrt{\pi }\cdot \left(2x\right)!}{4^x\cdot \left(x-.5\right)!}

• Maxim

y!=\frac{\sqrt{\pi }\cdot \left(2x\right)!}{4^x\cdot \left(x-.5\right)!}

• Jakesoliman

(xy)!=1

• Jakesoliman

mod(h,|x|). the tunnel of doom!

• Michal Nemecek

(x!)^(y!)=1

• Michal Nemecek

x!=y!

zoom in at (0.46163215,0.46163215)

• Jakesoliman

\tan x=\tan y & ZOOM OUT

• Cldonkin

https://www.desmos.com/calculator/baryjxe3d2
a whole bunch of trig equations

• Maxim

\sum _{n=1}^{1000}\left(\frac{1}{x}\cos \left(nx\right)\right)

• Az

x!=y! is another one

• Dwisell18

\frac{5\left(x-y\right)}{\left(x-y\right)}=5

• DANTE S.K.

y^{xa}=\sin \left(x^2\right)

Set a to slider and click play. The transitions are awesome.

• 17dstephan

y^a+x^a=4

a=\left[-100,\ -99,...,\ 100\right]

• Jericho Hakurei

\sin ^2x+2

• Luke

I did (sin x^2) + cos y^2 = 1. RIP computer

• Aidan Hansen

y=\prod _{n=x}^6y

ok

• Bob Ralker

\cos x^y=\sin \left(\cot \left(y^x\right)\right) is absolutely insane!!!!

• Alvin Yang

x\tan \left(\sqrt{x^2+y^2}\right)=y

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