A disk of radius R = 3.5 cm and mass M = 740 g is placed on the top of an air table making an angle of o with the horizontal. The M-mass disk can rotate freely about the axis passing through it. A rope is wrapped around this disk and its second free end is connected to another disk of mass of m = 540 g as shown in Figure 1. We fix the frequency of the spark timer to f = 10 Hz and we release the system at t = 0. The M-mass disk starts to rotate with increasing angular speed and the m-mass disk moves down with a constant acceleration according to the following law of motion: y (cm) t (s) t (s')
A disk of radius R = 3.5 cm and mass M = 740 g is placed on the top of an air table making an angle of o with the horizontal. The M-mass disk can rotate freely about the axis passing through it. A rope is wrapped around this disk and its second free end is connected to another disk of mass of m = 540 g as shown in Figure 1. We fix the frequency of the spark timer to f = 10 Hz and we release the system at t = 0. The M-mass disk starts to rotate with increasing angular speed and the m-mass disk moves down with a constant acceleration according to the following law of motion: y (cm) t (s) t (s')
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