The pole in Figure is at a 90.0∘ bend in a power line and is therefore subjected to more shear force than poles in straight parts of the line. The tension in each line is 5.00×104 N, at the angles shown. The pole is 15.0 m tall, has an 16.0 cm diameter, and can be considered to have half the stiffness of hardwood. (a) Calculate the compression of the pole (in mm).
The pole in Figure is at a 90.0∘ bend in a power line and is therefore subjected to more shear force than poles in straight parts of the line. The tension in each line is 5.00×104 N, at the angles shown. The pole is 15.0 m tall, has an 16.0 cm diameter, and can be considered to have half the stiffness of hardwood. (a) Calculate the compression of the pole (in mm).
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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The pole in Figure is at a 90.0∘ bend in a power line and is therefore subjected to more shear force than poles in straight parts of the line.
The tension in each line is 5.00×104 N, at the angles shown. The pole is 15.0 m tall, has an 16.0 cm diameter, and can be considered to have half the stiffness of hardwood.
(a) Calculate the compression of the pole (in mm).
(b) Find how much it bends ( in mm)
and in what direction does it bend ?
To the right
To the left
(c) Find the tension in a guy wire used to keep the pole straight if it is attached to the top of the pole at an angle of 30.0∘ with the vertical. (Clearly, the guy wire must be in the opposite direction of the bend.)?
Transcribed Image Text:90°
Tgw
80°
30°
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