The winch in the figure is used to move the 135 kg uniform log. The coefficient of static friction between the log and the plane is 0.40. @ Compute the tension T for impending sliding. 2 Compute the tension T for impending tipping. 3 Compute the max. tension that can be applied for which the log remains at rest. @ Compute the normal reaction between log and plane. 5 Compute the location of the normal reaction from A. T- log 60 B 2.4 m-

The winch in the figure is used to move the 135 kg uniform log. The coefficient of static friction between the log and the plane is 0.40. @ Compute the tension T for impending sliding. 2 Compute the tension T for impending tipping. 3 Compute the max. tension that can be applied for which the log remains at rest. @ Compute the normal reaction between log and plane. 5 Compute the location of the normal reaction from A. T- log 60 B 2.4 m-

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

The winch in the figure is used to move the
135 kg uniform log. The coefficient of static
friction between the log and the plane is 0.40.
@ Compute the tension T for impending
sliding.
2 Compute the tension T for impending
tipping.
3 Compute the max. tension that can be
applied for which the log remains at rest
@ Compute the normal reaction between log
and plane.
5 Compute the location of the normal
reaction from A.
T-
log
60
B
-2.4 m

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