Deriving acceleration from velocity equation

10 visualizaciones (últimos 30 días)

Casey el 20 de Mayo de 2023

Comentada: Star Strider el 20 de Mayo de 2023

v=sqrt(2*g*H)*tanh((sqrt((2*g*H)/(2*L)))*t)

Star Strider el 20 de Mayo de 2023

Editada: Star Strider el 20 de Mayo de 2023

The gradient function could be helpful.

EDIT — (20 May 2023 at 12:46)

If this is symbolic, of course, just take the derivative with respect to t —

syms g H L t

v = sqrt(2*g*H)*tanh((sqrt((2*g*H)/(2*L)))*t)

v =

a = diff(v,t)

a =

Torsten el 20 de Mayo de 2023

My guess is that H is a function of t.

Star Strider el 20 de Mayo de 2023

Your guess is likely much better than mine.

In that instance, the syms call becomes:

syms g H(t) L t

and the resulting derivative difficult to work with.

However if the result is numeric, gradient would likely still work.

Mathematics and Optimization Symbolic Math Toolbox Mathematics Calculus

Más información sobre Calculus en Help Center y File Exchange.

Find the treasures in MATLAB Central and discover how the community can help you!

Translated by