A harmonic osciallation is represented b...

A harmonic osciallation is represented by `x=0.25 cos ( 6000t + 0.85)` ,where x and t are in mm and second respectively . Deduce (i) amplitude , (ii) frequency (iii) angular frequency
Hint `: ` Compare with `x= A cos ( omega t + phi)` a is amplitude frequency , `v = ( omega)/(2pi) , omega = 6000 rad s^(-1)`

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To solve the problem step by step, we need to analyze the given harmonic oscillation equation: **Given:** \[ x = 0.25 \cos(6000t + 0.85) \] ### Step 1: Identify the Amplitude The general form of the harmonic oscillation equation is: \[ x = A \cos(\omega t + \phi) \] ...

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