Post Beautiful Equations

>maclaurin

fucking 10/10 fell for the bait

taylor series centered around zero are often called maclaurin series

>the infinite sum should indeed equal the function
No
en.wikipedia.org/wiki/Non-analytic_smooth_function

thanks for pointing that out

[eqn] \tan \alpha \tan \beta + \tan \beta \tan \gamma + \tan \gamma \tan \alpha = 1 [/eqn]
if [math] \alpha + \beta + \gamma = \frac{\pi}{2} [/math]

[math]i \partial_t \psi = \hat{H} \psi[/math]

y=mx+b; y2-y1/x2-x1

weak...

[eqn]|G|=[G:H]|H| [/eqn]

How about when f is of two variables
[eqn]f(x, y) = \sum _{i=0}^{\infty } \frac{1}{i!}\sum _{j=0}^i \binom{i}{j} \left(y-y_0\right){}^j \left(x-x_0\right){}^{i-j} \frac{\partial f^i}{\partial x^{i-j}\partial y^{j}}\left(x_0,y_0\right)[/eqn]
Here's a picture of [eqn]\exp \left(-\frac{1}{4} (x-2)^2-\frac{1}{4} (y-3)^2\right) \cos (2 x+y-7)[/eqn] and its 4th degree Taylor expansion about (2, 3) in orange and blue, respectively.

How about isomorphisms instead?

[math]{\operatorname{Hom} _{{\mathcal{O}_X}}}\left( {\mathcal{F},\mathcal{G}} \right) \cong {\operatorname{Hom} _{{\mathcal{O}_X}^{an}}}\left( {{\mathcal{F}^{an}},{\mathcal{G}^{an}}} \right)[/math]

What does ^{an} do

...

It is GAGA. Says (over a complex projective variety) there is a correspondence between sheaves in the Zariski topology (standard topology for a variety) and sheaves in the analytic topology (the more traditional topology of a complex manifold).

Being analytic is a very beautiful property to have

That's just a more "complicated" way to state the properties of logarithms.

Use multiindices and it will not look like such a mess.

I don't know how.

Everything is a more complicated way of saying something else

[math]\frac {\mathrm d} {\mathrm d x} x^2 = 2 x[/math]

*blocks your path*