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I am looking to use Mathematica to print equations in TraditionalForm.

While I have been successful for some simple ones, I have not for the 2 below.
enter image description here

enter image description here

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How did you try to enter them, and what went wrong? – acl Dec 17 '11 at 18:05
@acl, like this for example: TraditionalForm[NormalDistribution[Subscript[[Mu], 1], \!(*SubsuperscriptBox[([Sigma]), (1), (2)])]] – 500 Dec 17 '11 at 18:11
this has syntax errors, why should it have worked? I am not sure what the problem is: entering the expression, or why the code you gave doesn't work (in which case, because you have things like Subscript[[Mu],1] etc--note the two brackets) – acl Dec 17 '11 at 18:45
My question is, I guess: Are you trying to find what the correct expression to produce those is, or how to enter them? – acl Dec 17 '11 at 18:49
What constitutes success? – DavidC Dec 17 '11 at 18:58
up vote 10 down vote accepted

The standard way to integrate over a region in MMA is:

Integrate[Boole[x^2 + y^2 < r^2] \[Phi][x,y], {x, -r, r}, {y, -r, r}]

MMA doesn't have a TraditionalForm for that, so you have to make one yourself:

1) Type Integrate[\[Phi][x,y],x,y].
2) Change to Traditional Form (using ctrl shift-T)
3) Select the second integral. Make a subscript using ctrl-_ and x^2+y^2<=r^2 in 2D form


As to the second one, as NormalDistribution hasn't got a TraditionalForm definition you have to type it yourself either following Yoda's recipe or make a definition yourself:

NormalDistribution /: 
   Format[NormalDistribution[m_, s_],TraditionalForm] := \[ScriptCapitalN] [m, s]

enter image description here

or, to make it go both ways, use the Notation package.

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Can't you just cut and paste without going to the underlying cell expression? – Simon Dec 17 '11 at 22:00
@Simon That's indeed faster. Edited – Sjoerd C. de Vries Dec 17 '11 at 22:23
I like this better. I thought that TraditionalForm won't work on mma expressions inside a text cell, but they do. Makes it convenient to just write the function out and hit ctrl-shift-t. However, this is not a good solution inside an input cell, as executing it will evaluate the integral if it were something that could be integrated. – abcd Dec 17 '11 at 22:26
Uhh... I guess our edits overlapped.. – abcd Dec 17 '11 at 22:27
@yoda looks like it – Sjoerd C. de Vries Dec 17 '11 at 22:30

I think you're trying to enter these expressions in your text/notes/presentations in mma. Here's an example

"\!\(\*SubscriptBox[\(\[Integral]\), \(\\\ \)]\)\!\(\*SubscriptBox[\(\
\[Integral]\), \(\*SuperscriptBox[\(x\), \(2\)] + \
\*SuperscriptBox[\(y\), \(2\)] \[LessEqual] \*SuperscriptBox[\(r\), \
\(2\)]\)]\)\[CapitalPhi](x,y)\[DifferentialD]x\[DifferentialD]y" // \

enter image description here

"\!\(\*SubscriptBox[\(X\), \
\(1\)]\)~\[ScriptCapitalN](\!\(\*SubscriptBox[\(\[Mu]\), \
\(1\)]\),\!\(\*SuperscriptBox[SubscriptBox[\(\[Sigma]\), \(1\)], \
\(2\)]\))" // TraditionalForm

enter image description here

The keystrokes for this one are:

X, Ctrl-1, , ~, EscscNEsc, (, EscmEsc, Ctrl-1, , EscsEsc, Ctrl-1, , Ctrl62, , )

I'll leave the other one to you.

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+1 For typing out the keystrokes! – Simon Dec 17 '11 at 23:20

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