User:Pfafrich/Blahtex ^\sqrt bugs

User:Pfafrich/Blahtex en.wikipedia fixup

This page is part a set of pages devoted to fixing latex bugs in the english wikipedia so that they will be compatable with the Blahtex MathML project.

Below are pages which contain x^\sqrt,x^\acute etc. Each occurence x^\sqrt{a} should be replaced by x^{\sqrt{a}}' and when fixed the pages should be moved to the done section. Feel free to fix as necessary.

The combinations affected are for i in acute hat ldots left mbox overline sqrt underline ; do grep "\\^\\\\$i" eqnsJan06.txt >> raise.txt done
 * x^\overline{y}
 * x^\left(y\right)
 * x^\acute{n}
 * x^\hat{n}
 * x^\mbox{n}
 * x^\sqrt{n}
 * x^\ldots
 * x^\overline{y}

Undone

 * Asymptotic expansion      $$\zeta(s) \sim \sum_{n=1}^{N-1}n^{-s} + \frac{N^{1-s}}{s-1} + N^{-s} \sum_{m=1}^\infty \frac{B_{2m} s^\overline{2m-1}}{(2m)! N^{2m-1}}$$
 * Asymptotic expansion      $$s^\overline{2m-1}$$
 * Band gap  $$e^\left(\frac{-E_g}{kT}\right)$$
 * Coupled cluster   $$\vert{\Psi}\rangle = e^\hat{T} \vert{\Phi_0}\rangle$$
 * Difference quotient       $$=\frac{\sum_{I=0}^{\acute{N}}{-1\choose I}{\acute{N}\choose I}F(P_\acute{n}-I\Delta_1P)}{\Delta_1P^\acute{n}};\,\!$$
 * Difference quotient       $$=\frac{\sum_{I=0}^{\acute{N}}{-1\choose\acute{N}-I}{\acute{N}\choose I}F(P_0+I\Delta_1P)}{\Delta_1P^\acute{n}};\,\!$$
 * Difference quotient       $$\Delta^\acute{n}F(P_0)\,\!$$
 * Difference quotient       $$\frac{D^\acute{n}F(P_0)}{DP^\acute{n}}\,\!$$
 * Difference quotient       $$\frac{\Delta^\acute{n}F(P_0)}{\Delta_1P^\acute{n}}\,\!$$


 * Difference quotient       $$\frac{\nabla^\acute{n}F(P_\acute{n})}{\Delta_1P^\acute{n}}\,\!$$
 * Difference quotient       $$\frac{d^\acute{n}F(P_0)}{dP^\acute{n}}\,\!$$
 * Gelfond<80><93>Schneider constant     $$2^\sqrt{2}=2.6651441...$$
 * Gelfond<80><93>Schneider constant     $$\sqrt{2}^\sqrt{2}=1.6325269...$$
 * Googol    $${10}^\mbox{googol}$$
 * Googolplex $${10}^\mbox{10,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000}$$
 * Googolplex $${10}^\mbox{googol}$$
 * Irrational number $$\pi^\sqrt{2}$$
 * Limit ordinal     $$\omega^3, \omega^4, \ldots, \omega^\omega, \omega^{\omega^\omega}, \ldots, \epsilon_0 = \omega^{\omega^{\omega^\ldots}}, \ldots$$
 * Nonconstructive proof     $$\left (\sqrt{2}^\sqrt{2}\right )^\sqrt{2} = \sqrt{2}^{(\sqrt{2} \cdot \sqrt{2})} = \sqrt{2}^2 = 2$$
 * Nonconstructive proof     $$\sqrt{2}^\sqrt{2}$$
 * Nonconstructive proof     $$q = \sqrt{2}^\sqrt{2}$$
 * Proof of Bertrand's postulate     $$(2n)^\sqrt{2n}$$
 * Proof of Bertrand's postulate     $$\frac {4^n} {2n+1} \le (2n)^\sqrt{2n} 4^{\frac {2n} {3}}$$
 * Proof of Bertrand's postulate     $$\frac {4^n}{2n+1} \le {2n \choose n} \le (2n)^\sqrt{2n} \prod_{p \in \mathbb{P} }^{\frac {2n} {3}} p = (2n)^\sqrt{2n} e^{\theta(\frac {2n} {3})}$$
 * Rigid rotor       $$P_l^\left |m \right | (\cos \theta)$$
 * Rigid rotor       $$Y_{l,m}(\theta,\phi) = \left [ \sqrt{ {(2l+1) \over 2} {( l - \left |m \right |)! \over (l + \left |m \right |)!} } P_l^\left |m \right | (\cos \theta) \right ] \left [ \sqrt  \exp (im\phi) \right ]$$
 * Schwarzschild coordinates $$d\sigma^\hat{m} = -{\omega^\hat{m}}_\hat{n} \, \wedge \sigma^\hat{n}$$
 * Schwarzschild coordinates $${\Omega^\hat{m}}_\hat{n} = d{\omega^\hat{m}}_\hat{n} \wedge \sigma^\hat{n} - {\omega^\hat{m}}_\hat{\ell} \wedge {\omega^\hat{\ell}}_\hat{n}$$
 * Schwarzschild coordinates $${\Omega^\hat{m}}_\hat{n} = {R^\hat{m}}_{\hat{n}|\hat{i}\hat{j}|} \, \sigma^\hat{i} \wedge \sigma^\hat{j}$$
 * Schwarzschild coordinates $${\omega^\hat{m}}_\hat{n}$$
 * Space charge      $$i = (1-\tilde{r})A_0T^2e^\left(\frac{-e\phi}{kT}\right)$$
 * User:Bkell/Sandbox $${}^\underline{355}_{113}$$
 * User:Neocapitalist $$(\sqrt{2}^\sqrt{2})^\sqrt{2}=\sqrt{2}^2=2$$
 * User:Neocapitalist $$\sqrt{2}^\sqrt{2}$$
 * User:Neocapitalist $$a=(\sqrt{2}^\sqrt{2})$$
 * User:Neocapitalist $$k^n=\sqrt{2}^\sqrt{2}$$
 * User:Pjacobi/Scratchpad
 * User:Stendhalconques      $$\zeta(s) \sim \sum_{n=1}^{N-1}n^{-s} + \frac{N^{1-s}}{s-1} + N^{-s} \sum_{m=1}^\infty \frac{B_{2m} s^\overline{2m-1}}{(2m)! N^{2m-1}}$$
 * User:Stendhalconques      $$s^\overline{2m-1}$$

Update
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No, "x^\frac{a}{b}" is perfectly okay! On both blahtex and regular LaTeX!

Even "x^\frac a b" is fine.

The reason: "\frac" is a macro in LaTeX, and "x^\frac a b" gets expanded as "x^{a \over b}" (well maybe something more complicated, but you get the idea).

Blahtex knows this about "\frac".

So leave this page alone and go onto the next one!!! Dmharvey 03:55, 11 February 2006 (UTC)

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