- #1
Kev1n
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1. A mass attached to the lower end of a vertical spring causes the spring to extend 25mm to its equilibrium position. The mass is then displaced a further 20mm and released. A trace of the vibration and time measurements are taken. From these measurements it can be seen that the displacement from equilibrium position is 19.2 when the time is 0.05s
A. Calculate the expected frequeny of vibration, B. Calculate the maximm velocity of the mass. I have struggled here as ther is no (k) for the spring or mass
It would be appreciated if anyone could havea look over at my attempt and comment, thanks
2. w=sqrt(k/m), mg=kl, m=kl/g
3. A. w=sqrt (k/m), l = 25mm so 0.25m, g =9.81
m = l/g = 0.025
Basically now can see where to go without k
A. Calculate the expected frequeny of vibration, B. Calculate the maximm velocity of the mass. I have struggled here as ther is no (k) for the spring or mass
It would be appreciated if anyone could havea look over at my attempt and comment, thanks
2. w=sqrt(k/m), mg=kl, m=kl/g
3. A. w=sqrt (k/m), l = 25mm so 0.25m, g =9.81
m = l/g = 0.025
Basically now can see where to go without k