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11 Apr 2020
Simple Harmonic Motion A point P moving in simple harmonic motion completes 8 cycles every second. If the amplitude of the motion is 50 cm, find an equation that describes the motion of P as a function of time. Assume that the point P is at its maximum displacement when ![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACcAAAAJBAMAAABDKyhAAAAACXBIWXMAAABkAAAAZAAPlsXdAAAAIVBMVEVHcEwAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAt9G3DAAAAC3RSTlMAiES6VRjMM3fdZjFoYvcAAABgSURBVAjXY2AoYUACLE3iYFoKWZCNIRJMpyILKjOwFQApx4kKSILCDMwgLosAAwOrIBAIIAkyOjBgqmQLgKpsAAk6Q8xkYwKKKgEBiMMQxsDJ4M7AwOyErJ2roYXBkAEAI8gKHct5P70AAAAASUVORK5CYII=)
Simple Harmonic Motion A point P moving in simple harmonic motion completes 8 cycles every second. If the amplitude of the motion is 50 cm, find an equation that describes the motion of P as a function of time. Assume that the point P is at its maximum displacement when
Collen VonLv2
25 May 2020