A rigid horizontal bar ABC is supported by three vertical rods. There is no strain in the rods before load P is applied. After load P is applied, the axial strain in rod (1) is & = 580.00 µɛ 3800 mm (1) Determine the deflection of the rigid bar at B and the normal 2100 mm (2) strain in rods (2) if there is a 0.70-mm clearance in the 2100 mm (2) connection between rod (1) and the rigid bar before the load is applied. Try one mm E2

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A rigid horizontal bar ABC is supported by three vertical rods.
There is no strain in the rods before load P is applied. After
load P is applied, the axial strain in rod (1) is ɛ = 580.00 µe
3800 mm
(1)
Determine the deflection of the rigid bar at B and the normal
2100 mm
strain in rods (2) if there is a 0.70-mm clearance in the
2100 mm
(2)
(2)
connection between rod (1) and the rigid bar before the load
is applied.
Try One
|VB|
mm
E2
Transcribed Image Text:A rigid horizontal bar ABC is supported by three vertical rods. There is no strain in the rods before load P is applied. After load P is applied, the axial strain in rod (1) is ɛ = 580.00 µe 3800 mm (1) Determine the deflection of the rigid bar at B and the normal 2100 mm strain in rods (2) if there is a 0.70-mm clearance in the 2100 mm (2) (2) connection between rod (1) and the rigid bar before the load is applied. Try One |VB| mm E2
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