% % jordan.tex % % (c) 2021 Prof Dr Andreas Müller, OST Ostschweizer Fachhochschule % \bgroup \definecolor{darkgreen}{rgb}{0,0.6,0} \def\L#1{ \node at ({#1-0.5},{0.5-#1}) {$\lambda$}; } \def\E#1{ \node at ({#1-0.5},{1.5-#1}) {$1$}; } \begin{frame}[t] \frametitle{Jordan Normalform} \vspace{-15pt} \begin{columns}[t,onlytextwidth] \begin{column}{0.40\textwidth} \begin{block}{Wahl der Basis} \begin{enumerate} \item<2-> Zerlegung in verallgemeinerte Eigenräume \begin{align*} V &= \mathcal{E}_{{\color{blue}\lambda}}(A) \oplus \mathcal{E}_{{\color{darkgreen}\lambda}}(A) \oplus \mathcal{E}_{{\color{red}\lambda}}(A) %\oplus %\dots \\ \llap{$A\mathcal{E}_{{\color{blue}\lambda}}$}(A) &\subset \mathcal{E}_{{\color{blue}\lambda}}(A) \\ \llap{$A\mathcal{E}_{{\color{darkgreen}\lambda}}$}(A) &\subset \mathcal{E}_{{\color{darkgreen}\lambda}}(A) \\ \llap{$A\mathcal{E}_{{\color{red}\lambda}}$}(A) &\subset \mathcal{E}_{{\color{red}\lambda}}(A), \dots \end{align*} \item<3-> In jedem Eigenraum: Zerlegung in Jordan-Blöcke \end{enumerate} \end{block} \end{column} \begin{column}{0.56\textwidth} \begin{center} \begin{tikzpicture}[>=latex,thick,scale=0.33] \fill[color=gray!20] (0,-20) rectangle (20,0); \node[color=white] at (10,-10) [scale=12] {$A$}; \uncover<2->{ \fill[color=blue!20,opacity=0.5] (0,0) rectangle (8,-8); \fill[color=darkgreen!20,opacity=0.5] (8,-8) rectangle (15,-15); \fill[color=red!20,opacity=0.5] (15,-15) rectangle (20,-20); \fill[color=blue!20] (0,0) rectangle (8,2); \fill[color=blue!20] (-2,-8) rectangle (0,0); \fill[color=darkgreen!20] (8,0) rectangle (15,2); \fill[color=darkgreen!20] (-2,-15) rectangle (0,-8); \fill[color=red!20] (15,0) rectangle (20,2); \fill[color=red!20] (-2,-20) rectangle (0,-15); } \uncover<3->{ \draw[color=gray] (0,0) rectangle (5,-5); \draw[color=gray] (5,-5) rectangle (8,-8); \draw[color=gray] (8,-8) rectangle (15,-15); \draw[color=gray] (15,-15) rectangle (16,-16); \draw[color=gray] (16,-16) rectangle (17,-17); \draw[color=gray] (17,-17) rectangle (20,-20); } \uncover<2->{ \draw[color=gray] (8,0) -- (8,-20); \draw[color=gray] (15,0) -- (15,-20); \draw[color=gray] (0,-8) -- (20,-8); \draw[color=gray] (0,-15) -- (20,-15); \node at (0,-4) [above,rotate=90] {$\mathcal{E}_{{\color{blue}\lambda}}(A)$}; \node at (4,0) [above] {$\mathcal{E}_{{\color{blue}\lambda}}(A)$}; \node at (0,-11.5) [above,rotate=90] {$\mathcal{E}_{{\color{darkgreen}\lambda}}(A)$}; \node at (11.5,0) [above] {$\mathcal{E}_{{\color{darkgreen}\lambda}}(A)$}; \node at (0,-18.5) [above,rotate=90] {$\mathcal{E}_{{\color{red}\lambda}}(A)$}; \node at (18.5,0) [above] {$\mathcal{E}_{{\color{red}\lambda}}(A)$}; } \uncover<2->{ {\color{blue} \foreach \x in {1,...,8}{ \L{\x} } } {\color{darkgreen} \foreach \x in {9,...,15}{ \L{\x} } } {\color{red} \foreach \x in {16,...,20}{ \L{\x} } } } \uncover<3->{ \E{2} \E{3} \E{4} \E{5} \E{7} \E{8} \E{10} \E{11} \E{12} \E{13} \E{14} \E{15} \E{19} \E{20} } \draw (0,-20) rectangle (20,0); \end{tikzpicture} \end{center} \end{column} \end{columns} \end{frame} \egroup