Introducing LaTeX Math Typesetting

[chroot]

This is a test of the new latex hierarchy:

$$\vec v \cdot \vec u = 100$$

- Warren

 

[chroot]

This is a test of the new latex hierarchy:

$$\vec v \cdot \vec u = 20$$

 

[flexten]

Test

$\mbox{\Huge \[ e^{jz} = cosz + jsinz\,\,\,\,\,\,\,\,\,\,\,\,\,\,\,\,\,\,\,\,\left( {e^{jz} } \right)^\nu = e^{j\nu z} = cos\nu z + jsin\nu z \]}$

.

 

[Spinor]

Testing...

Testing...

$\newcommand{\uE}{\mathrm{e}} \newcommand{\uI}{\mathrm{i}} \uE^{\uI\pi}+1 = 0$


$\newcommand{\uE}{\mathrm{e}} \newcommand{\uI}{\mathrm{i}} \uE^{\uI{}x} = \cos{}x+\uI\sin{}x$

 

[Spinor]

Testing 2

Testing . . .

QED Lagrangian Density

$\newcommand{\uI}{\mathrm{i}} \newcommand{\commute}[2]{\left[{#1}\! \mathrel{\vphantom{{#1}},\vphantom{{#2}} \kern-\nulldelimiterspace}\!{#2}\right]} \newcommand{\anticommute}[2]{\left\{{#1}\! \mathrel{\vphantom{{#1}},\vphantom{{#2}} \kern-\nulldelimiterspace}\!{#2}\right\}} \begin{align*} \mathcal{L}_{\text{QED}}(x) =& -\frac{1}{4}F_{\mu\nu}(x)F^{\mu\nu}(x)-\frac{1}{4}\left(\commute{\overline{\psi}(x)\gamma^{\mu}}{\frac{\partial_\mu}{\uI}\psi(x)}-\commute{\frac{\partial_\mu}{\uI}\overline{\psi}(x)\gamma^{\mu}}{\psi(x)}\right) \\ &\quad{} -\frac{1}{2}m_{0}\commute{\overline{\psi}(x)}{\psi(x)}+\frac{1}{4}e_{0}\anticommute{\commute{\overline{\psi}(x)\gamma_{\mu}}{\psi(x)}}{A^{\mu}(x)} \end{align*}$

:zzz:

 

[h8ter]

test...
$$\sqrt{4}=2$$

 

[kioria]

LaTeX

Created in $$\LaTeX$$

 

[Vance]

Can you tell me how I can create a dvi file with images/pictures included ?
Thanks

 

[Tom McCurdy]

$$ax^n$$ hello just testing

 

[robphy]

Can you tell me how I can create a dvi file with images/pictures included ?
Thanks

In LaTeX, you can use \includegraphics
see http://www-group.slac.stanford.edu/techpubs/help/figures/latex2efigs.html
and http://www.linmpi.mpg.de/~daly/latex/grf.htm

 

[h8ter]

test again...
$$\sqrt[3]{27}=3$$

 

[Vance]

In LaTeX, you can use \includegraphics
see http://www-group.slac.stanford.edu/techpubs/help/figures/latex2efigs.html
and http://www.linmpi.mpg.de/~daly/latex/grf.htm

 

[james11]

[ tex ] a^x_n [ /tex ]

 

[chroot]

james11,

Try it without the spaces.

- Warren

 

[poolwin2001]

$$x_1 * x_2 x_3$$

 

[Emc2brain]

[ tex ] a^x_n [ /tex ]

 

[Emc2brain]

[tex]a^x_n[/tex ]

trial 2 (w/o spaces)

 

[Emc2brain]

Eke! Oh Well..i'll Try This Later

 

[chroot]

Emc2brain,

You still have a space in your trial 2.

- Warren

 

[humanino]

That would be great if we could draw Feynman graphs ! Is it too difficult to handle ?

 

[cyber ghega]

$$A=x^_n$$
but
$$f(t)=alpha_n$$

 

[james11]

[ tex ]a^x_n[ /tex ]

 

[james11]

$$a^x_n$$

Trying without the spaces!

 

[james11]

test

$$P=2pieG/3*P^2*R^2$$

 

[james11]

test!

P= \frac{2 \p G}{3}p^2r^2

 

[james11]

Lets try again!

[tex]P= \frac{2 \p G}{3}p^2r^2[\tex]

 

[james11]

Lets try again!

$$P= \frac{2 \p G}{3}p^2r^2$$

 

[james11]

just testing!

$$P= \frac{2 {\p} G}{3}p^2r^2$$

 

[james11]

$$P= \frac{2\pG}{3}p^2r^2$$

 

[james11]

$$P= \frac{2{\pG}}{3}p^2r^2$$

 

[james11]

$$P= \frac{2{\p[G]}}{3}p^2r^2$$

$$P= \frac{2{\p[G]}}{3}p^2r^2$$

 

[james11]

$$P= \frac{2{\p}{G}{3}p^2r^2$$

 

[james11]

$$P= \frac{2\pieG}{3}p^2r^2$$

 

[james11]

$$P= \frac{\2pieG}{3}p^2r^2$$

$$2\pieG}{$$

$$\2pieG$$

 

[chroot]

james11,

Use \pi to represent $\pi$, rather than using "pie."

- Warren