Prove that the particle is moving with simple harmonic motion

AI Thread Summary
The discussion revolves around proving that a particle described by the displacement equation x = 5cos(2t) + 12sin(2t) is undergoing simple harmonic motion (SHM). To demonstrate SHM, a trigonometric identity is suggested to combine the cosine and sine functions into a single trigonometric function, revealing the periodic nature of the motion. The user is also guided to differentiate the displacement function twice to confirm the relationship between acceleration and displacement, which is characteristic of SHM. Additionally, the conversation touches on finding the amplitude, angular frequency, period, velocity, and acceleration of the particle at a specific displacement. The user expresses gratitude after receiving assistance, indicating successful resolution of their queries.
itsmissnerdtoyo
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ok, so I've had a look around the forums and all that nd i can't find anything that will help me with what I am stuck on...nd if I'm about you ask a question that's already being asked I am sorry for posting a new thread...just point me in the right direction!

Homework Statement


a particle is moving such that its displacement from equilibrium in metres is given by:
x = 5cos2t + 12sin2t

(i) prove that the particle is moving with simple harmonic motion
(ii) find the amplitude, angular frequency and period of the motion.
(iii) what is the velocity and acceleration of the particle as x = 12m?

Homework Equations



so i know usually you compare it to the equation x=Acos(wt+phase) but i just don't understand what to do in this case! and also...how do you prove the particle is moving with shm?! is it a=-w^2x?

cheers everyone*

oh nd sorry for just calling this post 'please help'...i should of perhaps called it something more specific! eep!
 
Last edited:
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hey differentiate x w.r.t t twice and find ur answer
 
for s.h.m, d2x/dt2 =-constant*x
 
thanks so much! i got the answers, cheers*
 

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