I am working on restoring LaTex.
Hello, MathGuru!
We're still restricted to certain "monomials" . . . no change.
$\displaystyle 5x^2$
$\displaystyle xy^3$
$\displaystyle \sqrt{x}$
$\displaystyle \sqrt[3]{x}$
$\displaystyle x^{\frac{1}{2}}$
$\displaystyle \frac{a}{b}$
$\displaystyle \dfrac{a}{b}$
$\displaystyle \ln x$
$\displaystyle \log x$
$\displaystyle \int x^2\,dx$
These do not work:
. . [tex]7xy^3[/tex]
. . [tex] x + y[/tex]
. . [tex]\sin\theta [/tex]
Seems that some commands are working only if you don't leave space between the commands and the tags.
\iint, \hat{k}, \equiv, \approx, \leqslant and \sin all don't work if there is a space, but they do otherwise:
$\displaystyle \iint$, $\displaystyle \hat{k}$, $\displaystyle \equiv$, $\displaystyle \approx$, $\displaystyle \leqslant$. But $\displaystyle \cos $, $\displaystyle \infty $, $\displaystyle = $, $\displaystyle \le$, $\displaystyle \ge $, $\displaystyle \Rightarrow $, $\displaystyle \Leftrightarrow $ and many others appear to be working regardless of that.
The LaTeX Commands Quick-Menu could be a great idea - it would definitely help out newbies to LaTeX. Unfortunately, many of the pictures are broken. Hovering over the broken pictures tells me what the command is supposed to be, and clicking it does produce the necessary LaTeX code, so that's nice.
$\displaystyle \lim_{n\to \infty}$ \lim_{n\to \infty}
$\displaystyle \frac{1}{ n^2} $ \frac{1}{ n^2}
$\displaystyle \sum_{n = 0}^\infty $ \sum_{n = 0}^\infty
$\displaystyle \sin $
$\displaystyle \cos $
$\displaystyle \tan $
$\displaystyle \forall x $ \forall x
Nice thing with this Commands Quick-Menu but thought that at least those symbols that is "without code" will work ... since half of those symbols are in code and another half is shown (sorry for bad English) But even those that are shown in menu doesn't work either for example last one that i wrote
Thanks for this greatest math forum and everyone that participate in this
$\displaystyle x^4$
$\displaystyle 3x$
$\displaystyle 3x^4$
$\displaystyle 2x^3$ + $\displaystyle 3x^2$ Well....it as a combination of TWO latex- brackets. When I try to make it inside a single bracket, they do not come.
HEY....I found something very interesting... http://img42.imageshack.us/img42/2333/unledtu.png Try to write only this in your post, and they won't appear!!!
I have even got the following to as opposed to sedam 7.
$\displaystyle \frac{1}{n^2}$
$\displaystyle \forall{x}$