How to Solve Pendulum Forces in Component Form?

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Homework Help Overview

The discussion revolves around analyzing the forces acting on a pendulum, specifically in component form. Participants are attempting to understand how to apply relevant equations and concepts related to forces, including gravitational and spring forces, in the context of the pendulum's motion.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Problem interpretation

Approaches and Questions Raised

  • Participants are exploring the decomposition of forces into x and y components and questioning the application of laws such as Hooke's law. There are discussions about the direction of forces and the significance of the radius vector in the context of the pendulum.

Discussion Status

There is an active exchange of ideas regarding the interpretation of the problem and the forces involved. Some participants are providing guidance on how to approach the force decomposition, while others are seeking clarification on specific components and their directions.

Contextual Notes

Participants are grappling with the clarity of the problem statement and the assumptions regarding the forces acting on the pendulum, including the vertical and diagonal components. There is mention of specific terms and conditions that may influence the interpretation of the problem.

JaySean
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Homework Statement


Hi, I need help in solving question c) (a pendulum) The required data, problem and relevant equation is in the picture

The Attempt at a Solution


I am not sure how to solve it but here are my thoughts:
since mg is working at j
y(t)j= mg
does that mean K(r-L0) x(t) direction?
I am not sure how to start/think to solve this problem so any tips will be helpfull, thanks!
 

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Look at the vector attached to the second term. It is not in the i / x direction but rather in the r direction. It acts directed from the radius of the pendulum. What law describes this force?

Also, think why do we divide the r vector by its magnitude?
 
Brian T said:
Look at the vector attached to the second term. It is not in the i / x direction but rather in the r direction. It acts directed from the radius of the pendulum. What law describes this force?

Also, think why do we divide the r vector by its magnitude?
Is it Hookes law?
I assume we divide r vector by its magnitude to determine the direction of the force
 
the rope stretches along its length like a spring. all c) asks you to do is split the diagonal Force into (x,y) components.
 
Is mg=y component correct or is it wrong?
And what force is working in the x direction? Or did I misunderstand what the task is asking for?
 
mg is entirely vertical ... but most folks treat "up" as positive.
That is not the ONLY vertical Force contribution, however. The diagonal (spring) Force has x-component and y-component.
 
So K(r-L0) works both in x and y direction? Am I then supposed to split the force and find which force works in x and y direction?
 
the wording in part c) could not be more explicit.
 
r(t)=(K*r)i-K*L0j would this be correct?
 
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