Differential equation with laplace transform and springs

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Homework Help Overview

The discussion revolves around solving a differential equation involving Laplace transforms and periodic functions, specifically in the context of a spring system with given parameters such as amplitude and a constant.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the setup of the differential equation and the application of Laplace transforms. Questions are raised about the significance of amplitude in relation to periodic functions and the Laplace transform.

Discussion Status

Some participants have provided links to resources on periodic functions and their Laplace transforms, suggesting that understanding these concepts is crucial for addressing the problem. There is an ongoing exploration of how amplitude and period relate to the function f(t).

Contextual Notes

There are indications of confusion regarding the role of amplitude in the context of the Laplace transform and periodic functions, as well as the need for clarity on how to derive f(t) from the given differential equation.

Sneakatone
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Homework Statement


I do not know how to find f(t) with the given Ampliture 40 and a=pi
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Homework Equations

The Attempt at a Solution


I have the solution above.

my set up was 1/2y''+y'+5=f(t)

1/2S^2* Y(s) + Y(s)+5=f(t)
 
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Have you studied periodic functions? Do you know how to obtain the Laplace transform of a periodic function?

Here is a brief article discussing how:

http://academic.udayton.edu/LynneYengulalp/Solutions219/LaplacePeriodicSolutions.pdf
 
Last edited by a moderator:
SteamKing said:
Have you studied periodic functions? Do you know how to obtain the Laplace transform of a periodic function?

Here is a brief article discussing how:

http://academic.udayton.edu/LynneYengulalp/Solutions219/LaplacePeriodicSolutions.pdf

From the looks of this does amplitude not matter , only the period?
 
Last edited by a moderator:
Sneakatone said:
From the looks of this does amplitude not matter , only the period?
Wrong. There is an ##f(t)## in the formula for the transform, so everything about ##f(t)## matters.
 

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