Free Fall Time (Q4496): Difference between revisions

Revision as of 19:54, 5 December 2024

The free-fall time is the characteristic time that would take a body to collapse under its own gravitational attraction, if no other forces existed to oppose the collapse.

Language	Label	Description	Also known as
English	Free Fall Time	The free-fall time is the characteristic time that would take a body to collapse under its own gravitational attraction, if no other forces existed to oppose the collapse.

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https://en.wikipedia.org/wiki/Free-fall_time

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subclass of

time

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defining formula

t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)

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Identifiers

Wikidata QID

Q5499609

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Revision as of 19:54, 5 December 2024 T4schmidt (talk \| contribs) Administrators 539 edits ‎Changed claim: defining formula (P29): t(y)= \sqrt{ \frac{ {y_0}^3 }{2G(m+M)} } \left(\sqrt{\frac{y}{y_0}\left(1-\frac{y}{y_0}\right)} + \arccos{\sqrt{\frac{y}{y_0}}} \right) Tags: Manual revert Reverted ← Older edit		Revision as of 19:54, 5 December 2024 T4schmidt (talk \| contribs) Administrators 539 edits ‎Changed claim: defining formula (P29): t(y)= \sqrt{ \frac{ {y_0}^3 }{2G} } \left(\sqrt{\frac{y}{y_0}\left(1-\frac{y}{y_0}\right)} + \arccos{\sqrt{\frac{y}{y_0}}} \right) Tags: Manual revert Reverted Newer edit →
Property / defining formula		Property / defining formula
	$t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G(m+M)}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)$ `t(y)= \sqrt{ \frac{ {y_0}^3 }{2G(m+M)} } \left(\sqrt{\frac{y}{y_0}\left(1-\frac{y}{y_0}\right)} + \arccos{\sqrt{\frac{y}{y_0}}} \right)`		$t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)$ `t(y)= \sqrt{ \frac{ {y_0}^3 }{2G} } \left(\sqrt{\frac{y}{y_0}\left(1-\frac{y}{y_0}\right)} + \arccos{\sqrt{\frac{y}{y_0}}} \right)`

Free Fall Time (Q4496): Difference between revisions

$t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G(m+M)}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)$

$t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)$

Revision as of 19:54, 5 December 2024

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mathematics(0 entries)

Free Fall Time (Q4496): Difference between revisions

t ( y ) = y 0 3 2 G ( m + M ) ( y y 0 ( 1 − y y 0 ) + arccos ⁡ y y 0 ) {\displaystyle t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G(m+M)}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)}

t ( y ) = y 0 3 2 G ( y y 0 ( 1 − y y 0 ) + arccos ⁡ y y 0 ) {\displaystyle t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)}

Revision as of 19:54, 5 December 2024

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mathematics(0 entries)

$t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G(m+M)}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)$

$t(y)={\sqrt {\frac {{y_{0}}^{3}}{2G}}}\left({\sqrt {{\frac {y}{y_{0}}}\left(1-{\frac {y}{y_{0}}}\right)}}+\arccos {\sqrt {\frac {y}{y_{0}}}}\right)$