Physics: Principles with Applications (7th Edition)

by Giancoli, Douglas C.

Published by Pearson

ISBN 10: 0-32162-592-7

ISBN 13: 978-0-32162-592-2

Chapter 4 - Dynamics: Newton's Laws of Motion - Problems - Page 101: 14

Answer

The maximum force that the motor should exert on the cable is 50,700 N. The minimum force that the motor should exert on the cable is 44,300 N.

Work Step by Step

Maximum force: $F_T - mg = ma$ $F_T = ma + mg$ $F_T = m(a+g)$ $F_T = (4850 ~kg)(1.0680\times 9.80 m/s^2)$ $F_T = 50,762 ~N$ $F_T \approx 50,762 ~N$ The maximum force that the motor should exert on the cable is 50,700 N. Minimum force: $mg - F_T = ma$ $F_T = mg - ma$ $F_T = m(g-a)$ $F_T = (4850 ~kg)(0.932\times 9.80 m/s^2)$ $F_T = 44,298 ~N$ $F_T \approx 44,300 ~N$ The minimum force that the motor should exert on the cable is 44,300 N.

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