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\[\log(z \log z)\]
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\[\sum_{k}f_{k}= \sum_{k}h_{k}=1\]
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\[h_{xx}=-h_{yy} \neq 0\]
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\[6 \sqrt{3}\]
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\[-4( \gamma+ \log 4)+b+ \frac{4B \pi^{2} \sqrt{1-x}}{ \sqrt{1+3x}}\]
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\[x^{3}x^{4}x^{5}\]
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\[zy^{2}=4x^{3}-g_{2}z^{2}x-g_{3}z^{3}\]
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\[2a_{1}+2a_{2}+2a_{3}+2a_{4}+2a_{5}+2a_{6}\]
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\[k_{a} \neq k_{b} \neq k_{c}\]
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\[1- \sum \alpha_{i}\]
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\[AA\]
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\[F=c+ \alpha x^{2}+ \beta y^{2}+ \gamma x^{2}y^{2}\]
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\[x^{3}x^{4}x^{5}\]
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\[\frac{i}{k+i}=1- \frac{k}{k+i}\]
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\[y \geq 0\]
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\[b_{n}= \lim_{ \alpha \rightarrow 0}b_{n- \alpha}\]
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\[a= \sqrt{ \frac{5}{6}}\]
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\[\frac{+1}{ \sqrt{2}}\]
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\[\frac{x_{n}^{i}}{y_{n}^{b}}\]
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\[foranyroot\]
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\[(001000000)\]
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\[\sqrt{mn}\]
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\[\frac{25}{96} \frac{ \sqrt{ \pi}}{R^{3}}\]
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\[r_{c}= \sqrt{x_{1}^{2}+x_{2}^{2}+x_{3}^{2}}\]
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\[P= \int dz \sqrt{G_{ij}d \phi^{i}/dzd \phi^{j}/dz}\]
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\[\frac{1}{3!1!}\]
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\[\cos(zv)/ \sin(z)\]
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\[X_{9}(X_{2}X_{7}-X_{3}X_{6})\]
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\[2 \pi( \sin \theta_{1}+ \sin \theta_{2})\]
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\[x_{1}^{2}+x_{2}^{2}+x_{3}^{2}=1\]
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\[\alpha \rightarrow \frac{ \alpha}{2} \sqrt{ \frac{5}{3}}\]
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\[\int d^{d}x \sqrt{g}\]
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\[g_{n}(x)=a_{n}x^{2}+b_{n}x+c_{n}\]
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\[\frac{1}{ \sqrt{2}}\]
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\[M \rightarrow \frac{M}{ \sqrt{c}}\]
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\[H_{aa}=H_{xx}+H_{yy}\]
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\[a(t)= \sin(Ht)\]
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\[(2.4.9)-(2.4.10)\]
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\[x^{2}+y^{2}+z^{k+1}\]
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\[\int x^{m}(a+bx^{n})^{p}dx\]
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\[56_{c}+8_{v}+56_{v}+8_{c}\]
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\[\tan( \theta/2) \sin^{2}( \theta/2)\]
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\[- \frac{1}{24}+ \frac{1}{16}= \frac{1}{48}\]
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\[\sum_{i}b^{i}(x_{1}-x_{2})^{i}=0\]
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\[\sqrt{1+z^{2}}\]
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\[x=a(t-t_{0})^{-1}+p(t-t_{0})^{r-1}\]
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\[\frac{6}{ \sqrt{60}}\]
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\[\frac{n}{2}+ \frac{5}{2}\]
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\[(n+1) \times(n+1) \times \ldots \times(n+1)\]
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\[1+ \sqrt{1+m^{2}+q^{2}}\]
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\[x_{k+1}x_{k}-x_{k}x_{k+1}=0\]
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\[x^{4}-x^{5}\]
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\[f^{-1}f=ff^{-1}=1\]
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\[X=L \cos(s) \cos(t)\]
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\[\frac{1}{2} \leq x \leq \frac{3}{2}\]
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\[C= \frac{1}{32}+ \frac{1}{96} \log 2\]
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\[x=- \log(1-y)\]
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\[0=e^{-u}+e^{u-v-t}+e^{-v}+1\]
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\[a=4( \frac{1}{4}- \frac{3}{8})\]
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\[\sin^{2}F\]
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\[\beta= \sqrt{1+b}\]
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\[F(X)= \sqrt[3]{1+X}\]
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\[z= \frac{1}{ \sqrt{2}}(x^{1}+ix^{2})\]
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\[(a-b)-(k-b-c) \times(a-b)=(a-k+c) \times(a-b)\]
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\[\frac{n}{ \sqrt{a_{1}b_{1}}} \leq 1\]
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\[1 \ldots k\]
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\[(x,y)=M( \cos( \alpha), \sin( \alpha))\]
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\[x \frac{P(-x)}{(xP(x))^{2}}\]
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\[2 \pi \sin \alpha\]
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\[3 \times 3 \times 3+10 \times 3+3\]
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\[24-4-2(3+3+2)=4\]
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\[\frac{777}{400}\]
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\[\sin^{2} \theta \leq 1\]
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\[3 \times 3+r-3\]
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\[z \geq \frac{9}{8}\]
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\[\frac{ \pi}{2}+n \pi\]
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\[n \times n\]
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\[2f-e_{1}-e_{3}+2e_{6}+e_{7}+2e_{9}\]
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\[[ab]=ab-ba\]
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\[\frac{(2n-2)(2n-2)}{n-1}+4=4n\]
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\[\frac{d}{dy}(y \frac{dw}{dy})-2w(w^{2}-1)=0\]
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\[(x^{1})^{2}+(x^{2})^{2}+ \ldots+(x^{n+1})^{2}=1\]
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\[\sin(kr)\]
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\[\lim_{z \rightarrow \infty}zs(z)< \infty\]
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\[[3][3][4]\]
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\[\sum q_{i}=- \frac{1}{4}\]
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\[\sin( \pi x)\]
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\[T= \lim_{u \rightarrow \infty}uz\]
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\[e^{-iu/2}(a_{1}+ia_{2})=x_{1}+ix_{2}=e^{iu/2}(b_{1}+ib_{2})\]
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\[c \rightarrow c+da\]
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\[x^{4} \ldots x^{9}\]
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\[\int c_{z}\]
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\[-2x^{-1}+ \frac{1}{2}(1+x^{-2})=0\]
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\[2 \sin^{2} \alpha=1- \cos 2 \alpha\]
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\[ap= \sin(aE)v\]
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\[n+7\]
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\[\sqrt{-M}\]
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\[E^{ \prime}=E_{1}+E_{2}-E_{3}\]
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\[A_{i}\]
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\[\frac{-4}{ \sqrt{360}}\]
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