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tanferret677Lv1
27 Apr 2020
Simple Harmonic Motion A mass suspended from a spring oscillates in simple harmonic motion at a frequency of 4 cycles per second. The distance from the highest to the lowest point of the oscillation is 100 cm. Find an equation that describes the distance of the mass from its rest position as a function of time. Assume that the mass is at its lowest point when ![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACcAAAAJBAMAAABDKyhAAAAACXBIWXMAAABkAAAAZAAPlsXdAAAAIVBMVEVHcEwAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAt9G3DAAAAC3RSTlMAiES6VRjMM3fdZjFoYvcAAABgSURBVAjXY2AoYUACLE3iYFoKWZCNIRJMpyILKjOwFQApx4kKSILCDMwgLosAAwOrIBAIIAkyOjBgqmQLgKpsAAk6Q8xkYwKKKgEBiMMQxsDJ4M7AwOyErJ2roYXBkAEAI8gKHct5P70AAAAASUVORK5CYII=)
Simple Harmonic Motion A mass suspended from a spring oscillates in simple harmonic motion at a frequency of 4 cycles per second. The distance from the highest to the lowest point of the oscillation is 100 cm. Find an equation that describes the distance of the mass from its rest position as a function of time. Assume that the mass is at its lowest point when
Tod ThielLv2
22 May 2020