(ii) Determine the natural frequency of the mass-spring system.
natural frequency = _________________________________________
(1)
(c) The student connects the thread to a mechanical oscillator. The oscillator is set in
motion using a signal generator and this causes the mass–spring system to undergo
forced oscillations.
A vertical ruler is set up alongside the mass–spring system as shown in Figure 2.
The student measures values of A, the amplitude of the oscillations of the mass as f,
the frequency of the forcing oscillations, is varied.
A graph for the student’s experiment is shown in Figure 3.
(i) Add a suitable scale to the frequency axis.
You should refer to your answer in part (b)(ii) and note that the scale starts at
0 Hz.
(1)
(ii) Deduce from Figure 3 the amplitude of the oscillations of X, the point where
the mass–spring system is joined to the thread.
You should assume that the length of the thread is constant.
amplitude of X = _________________________________________
(1)
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