Question In the equilibrium position, the 30 kg cylinder causes a static deflection of [4] mm in the coiled spring. If the cylinder is depressed an additional [B] mm and released from rest, calculate: a) The resulting natural frequency f, of the vertical vibration of the cylinder in Hz, b) The position , velocity and acceleration of the cylinder at t= 1.2 s. The specific values of A and B are given in a separate excel sheet. A = 46 B = 32 30 kg

Question In the equilibrium position, the 30 kg cylinder causes a static deflection of [4] mm in the coiled spring. If the cylinder is depressed an additional [B] mm and released from rest, calculate: a) The resulting natural frequency f, of the vertical vibration of the cylinder in Hz, b) The position , velocity and acceleration of the cylinder at t= 1.2 s. The specific values of A and B are given in a separate excel sheet. A = 46 B = 32 30 kg

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