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I'm trying to learn LaTeX, currently because otherwise, my professors will be nearly unable to read my homework assignments. I've come across something I want to do, but don't seem to be able to, ie. I have searched google (possibly with a poor keyword set) and not found a solution.

The specific case is as follows: I want to put an ams flalign environment inside a box and have multiple such environments side by side. I have achieved this using minipage, but minipage asks for a width. I would like to use the smallest width in which the flalign environment fits. I realize that I can set the width to 0pt, but I can't help wondering if there's something that is intended to do this.

Also, should I be using minipage? Is there another command I don't know?

Thanks for your reply.


An attempted clarification as to what I want to do. I want equations which are standard, known, given, etc. and short on the left. To the right of those, I want relevant derived equations (and maybe their derivations. Further right, I want actual calculations plugged in.

I feel like what I want is a tabular environment with 3 columns, but I don't think I can put an equation environment in a tabular environment.

This looks like what I want when I render it.

\sigma & = F / A&\\
A & = \pi \left(d/2\right)^2&\\
\epsilon &= \frac{\sigma}{E}&\\
\epsilon_{trans} &= - \nu \epsilon_{longi}& \\
\epsilon &= \frac{\Delta l}{l}&\\
l &= \left( \epsilon + 1 \right) \times l_0&
d & = \unit[1.8]{mm} = \unit[1.8\e{-3}]{m} &\\
F_T & = \unit[1300]{N}&\\
E_{\text{stainless steel}}&=\unit[193\e9]{Pa}&\\
l_0 & = \unit[.2530]{m}&\\
\nu & = .33&\\
\sigma &= \frac{\unit[1300]{N}}{\pi \times \unit[3.24\e{-6}]{m^2}}&&= \boxed{\unit[127.7\e6]{Pa}}\\
\epsilon &= \frac{\unit[127.7\e6]{Pa}}{\unit[193\e9]{Pa}} &&= \boxed{6.6\e{-2}}\\
\epsilon_{trans} &= -.33 \times 6.6\e{-2} &&=\boxed{-2.2\e{-2}}\\
l &= \left( 6.6\e{-2} + 1 \right) \times \unit[.2530]{m} &&= \boxed{\unit[.2797]{m}}
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2 Answers 2

up vote 2 down vote accepted

I'm not sure exactly what you're trying to achieve, but amsmath's align* environment might do what you want (without resorting to minipages):




x&=y       & X&=Y       & a&=b+c   & mn&=ab\\
x’&=y’     & X’&=Y’     & a’&=b    & m'n'&=a'b'\\
x+x’&=y+y’ & X+X’&=Y+Y’ & a’b&=c’b & m'&=a'


As to your minipage question: it requires a width because TeX needs to know where to break the lines. If you don't want the line-breaking algorithm to be used, you probably don't want a minipage.


If you want multiple columns and don't care about the vertical alignment of material across the columns, that can be obtained easily enough with the multicols package:


\usepackage{lipsum}% just for some example text


% The * version allows the columns to have ragged bottoms.
% The argument 2 is the number of columns.
\lipsum[1]% one paragraph of Lorem ipsum.. filler text
\vfil% fills the remainder of the column with white space
\columnbreak% force a column break
\lipsum[2]% another paragraph of text
\vfil% fills the remainder of the column with white space

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when I looked at multicols, I didn't realize you could force column breaks. Thank you. –  Alex R Feb 8 '09 at 0:39

You might find something to help you in the empheq and mathtools packages. empheq allows you to box equations and mathtools should provide some useful environments for stacking them horizontally.

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Looking through the empheq documentation, I couldn't see a way to stack two math environments horizontally. It seemed to focus on floating text tags to the right of the equations. It's possible I missed it, though. Is there a specific command I should look at? –  Alex R Feb 7 '09 at 17:02

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