Free Fall Equation (Non-Uniform Gravitation) (Q4406): Difference between revisions

Latest revision as of 19:26, 5 December 2024

a free fall is any motion of a body where gravity is the only force acting upon it, hence neglecting the aerodynamic drag but allowing for a non-uniform gravitational field. Moreover, assuming the falling object to be a point mass. Note that Q stands here for the quantile function of the Beta distribution.

Language	Label	Description	Also known as
English	Free Fall Equation (Non-Uniform Gravitation)	a free fall is any motion of a body where gravity is the only force acting upon it, hence neglecting the aerodynamic drag but allowing for a non-uniform gravitational field. Moreover, assuming the falling object to be a point mass. Note that Q stands here for the quantile function of the Beta distribution.

Statements

community

MathModDB

0 references

instance of

mathematical expression

0 references

defining formula

y(t)=y_{0}~Q\left(1-{\frac {t}{t_{\mathrm {ff} }}};{\frac {3}{2}},{\frac {1}{2}}\right)

0 references

described at URL

https://en.wikipedia.org/wiki/Free_fall

0 references

in defining formula

y

symbol represents

Free Fall Height

0 references

y_{0}

symbol represents

Free Fall Initial Height

0 references

t

symbol represents

time

0 references

t_{\mathrm {ff} }

symbol represents

Free Fall Time

0 references

description

Note that Q stands here for the quantile function of the Beta distribution

0 references

Identifiers

Wikidata QID

Q38083707

0 references

@@ description / en / description / en @@
-a free fall is any motion of a body where gravity is the only force acting upon it, hence neglecting the aerodynamic drag but allowing for a non-uniform gravitational field. Moreover, assuming the falling object to be a point mass.
+a free fall is any motion of a body where gravity is the only force acting upon it, hence neglecting the aerodynamic drag but allowing for a non-uniform gravitational field. Moreover, assuming the falling object to be a point mass. Note that Q stands here for the quantile function of the Beta distribution.
@@ Property / instance of / Property / instance of @@
-Q3832 (Deleted Item)
+mathematical expression
@@ Property / in defining formula @@
+ $t$ 
t
@@ Property / in defining formula: $t$ / rank @@
+Normal rank
@@ Property / in defining formula: $t$ / qualifier @@
+symbol represents: time
@@ Property / in defining formula @@
+ $t_{\mathrm {ff} }$ 
t_\mathrm{ff}
@@ Property / in defining formula: $t_{\mathrm {ff} }$ / rank @@
+Normal rank
@@ Property / in defining formula: $t_{\mathrm {ff} }$ / qualifier @@
+symbol represents: Free Fall Time
@@ Property / description @@
+Note that Q stands here for the quantile function of the Beta distribution
+Normal rank

Free Fall Equation (Non-Uniform Gravitation) (Q4406): Difference between revisions

$t$

$t_{\mathrm {ff} }$

Latest revision as of 19:26, 5 December 2024

Statements

Identifiers

Sitelinks

mathematics(0 entries)

Free Fall Equation (Non-Uniform Gravitation) (Q4406): Difference between revisions

t {\displaystyle t}

t f f {\displaystyle t_{\mathrm {ff} }}

Latest revision as of 19:26, 5 December 2024

Statements

Identifiers

Sitelinks

mathematics(0 entries)

$t$

$t_{\mathrm {ff} }$