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Question 13.2.2: Often motors are mounted to a base with an isolator consisti......

Often motors are mounted to a base with an isolator consisting of an elastic pad. The pad serves to reduce the motor’s rotating unbalance force transmitted to the base. A particular motor weighs 10 lb and runs at 3200 rpm. Neglect damping in the pad and calculate the pad stiffness required to provide a 90% reduction in the force transmitted from the motor to the base.

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A 90% force reduction corresponds to a transmissibility ratio of T_r = 0.1. Using the approximate formula (13.2.13), we obtain

r^2=\frac{1  +  T_r}{T_r}                 (13.2.13)

r^2=\frac{1  +  T_r}{T_r}=\frac{1.1}{0.1}=11

From the definition of r and the fact that ω_n = \sqrt{k/m}, we have,

r^2=\frac{\omega^2}{\omega_n^2}=\omega^2 \frac{m}{k}

Thus,

k=\frac{\omega^2}{r^2} m=\frac{[3200(2 \pi) / 60]^2}{11} \frac{10}{32.2}=3170  lb / ft

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