MyWikiBiz, Author Your Legacy — Friday November 29, 2024
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, 17:14, 30 July 2009
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| Notice that, with rooted trees like these, drawing the arrows is optional, since singling out a unique node as the root induces a unique orientation on all the edges of the tree, ''up'' being the same as ''away from the root''. | | Notice that, with rooted trees like these, drawing the arrows is optional, since singling out a unique node as the root induces a unique orientation on all the edges of the tree, ''up'' being the same as ''away from the root''. |
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− | We have already seen various forms of the axiom that is formulated in string form as <math>{}^{\backprime\backprime} \texttt{(~(~)~)} = \quad {}^{\prime\prime}.</math> For the sake of comparison, let's record the planar and dual forms of the axiom that is formulated in string form as <math>{}^{\backprime\backprime} \texttt{(~)(~)} = \texttt{(~)} {}^{\prime\prime}.</math> | + | We have treated in some detail various forms of the initial equation or logical axiom that is formulated in string form as <math>{}^{\backprime\backprime} \texttt{(~(~)~)} = \quad {}^{\prime\prime}.</math> For the sake of comparison, let's record the plane-embedded and topological dual forms of the axiom that is formulated in string form as <math>{}^{\backprime\backprime} \texttt{(~)(~)} = \texttt{(~)} {}^{\prime\prime}.</math> |
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| First the plane-embedded maps: | | First the plane-embedded maps: |
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| |} | | |} |
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− | Next the planar maps and their dual trees superimposed: | + | Next the plane-embedded maps and their dual trees superimposed: |
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| {| align="center" cellpadding="10" | | {| align="center" cellpadding="10" |