Why Does S.H.M. Have Two Functions for Displacement?

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In simple harmonic motion (SHM), displacement can be represented by two functions: x(t) = A.Sin(wt + phi) and x(t) = A.Cos(wt + phi). Both forms are valid solutions to the differential equation of SHM, with the phase constant "phi" differing between the sine and cosine representations. The choice between sine and cosine depends on the initial conditions of the motion. Understanding this relationship clarifies why both functions are used in physics and textbooks. The discussion highlights the flexibility in representing SHM mathematically.
creativeassault
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Hello,
this is my first post on this forum and it is about simple harmonic motion. I can't seem to understand why the displacement x has two functions. What I mean is, x(t)=A.Sin(wt+phi) is the solution of differential equation of s.h.m; which is used by our physics teacher to derive the velocity and acceleration of a particle performing s.h.m; BUT in many textbooks I found that x(t)=A.Cos(wt+phi) ... my question is how can there be two values for x ?

Any help would be very helpfull,
Thank You.
Rohit Arondekar.
 
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Both versions are perfectly acceptable, as long as you remember that the "phi" in the sine representation will differ from the "phi" in the cosine representation, since we have, in general:
\cos(\theta-\frac{\pi}{2})=\sin(\theta)
 
Yay! cheers arildno :)
 

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