Difference between revisions of "TU Wien:Analysis UE (diverse)/Übungen SS19/Beispiel 106"

Latest revision as of 21:52, 7 March 2019

Mit Hilfe der Stirling'schen Approximationsformel zeige man, dass
${\binom {3n}{n}}\sim \left({\frac {27}{4}}\right)^{n}{\sqrt {\frac {3}{4\pi n}}}$ .

Lösungsvorschlag[edit]

Stirling-Formel: $n!\sim {\sqrt {2\pi n}}\;\left({\frac {n}{\mathrm {e} }}\right)^{n}$

oder: $n!\sim {\sqrt {2\pi n}}\;n^{n}\;{\mathrm {e} }^{-n}$

${\binom {3n}{n}}={\frac {(3n)!}{(3n-n)!\;n!}}\sim {\frac {3^{3n}\;n^{3n}\;e^{-3n}\;{\sqrt {6\pi n}}}{2^{2n}\;n^{2n}\;e^{-2n}\;{\sqrt {4\pi n}}\;n^{n}\;e^{-n}{\sqrt {2\pi n}}}}={\frac {3^{3n}\;{\sqrt {3}}}{2^{2n}\;{\sqrt {4\pi n}}}}=\left({\frac {27}{4}}\right)^{n}{\sqrt {\frac {3}{4\pi n}}}$

q.e.d.

Difference between revisions of "TU Wien:Analysis UE (diverse)/Übungen SS19/Beispiel 106"

Latest revision as of 21:52, 7 March 2019

Lösungsvorschlag[edit]

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Revision as of 21:29, 7 March 2019 (edit) Gittenborg (talk \| contribs) (beispiel_fixer.py) ← Older edit	Latest revision as of 21:52, 7 March 2019 (edit) (undo) Gittenborg (talk \| contribs) m (Gittenborg verschob die Seite TU Wien:Analysis UE (diverse)/Übungen SS18/Beispiel 106 nach TU Wien:Analysis UE (diverse)/Übungen SS19/Beispiel 106: verschiebe ins aktuelle Semester (bsp_mover.py))
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