Determine a) the maximum shear stress, along the beam, b) the maximum tensile bending stress along the beam, c) the maximum compressive bending stress along the beam. d) If the top board (20 mm x 60 mm) is connected with the nails to the below part, determine the maximum allowable spacing s, if each nail can resist a shear force of 1.5 kN.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Determine
a) the maximum shear stress, along the beam,
b) the maximum tensile bending stress along the
beam,
c) the maximum compressive bending stress along
the beam.
d) If the top board (20 mm x 60 mm) is connected
with the nails to the below part, determine the
maximum allowable spacing s, if each nail can
resist a shear force of 1.5 kN.

8000 N
Q1. Determine
1500 N/m
a) the maximum shear stress, along the beam,
b) the maximum tensile bending stress along the
beam,
c) the maximum compressive bending stress along
the beam.
- 0.3 m
-0.4 m-
-0.4 m
d) If the top board (20 mm x 60 mm) is connected
with the nails to the below part, determine the
maximum allowable spacing s, if each nail can
resist a shear force of 1.5 kN.
Cross Section
-60 mm-
INA = 1.36 (10)-6 m*
A
20 mm
30 mm
|N.A.
60 mm
y = 50 mm
A2
20 mm
Transcribed Image Text:8000 N Q1. Determine 1500 N/m a) the maximum shear stress, along the beam, b) the maximum tensile bending stress along the beam, c) the maximum compressive bending stress along the beam. - 0.3 m -0.4 m- -0.4 m d) If the top board (20 mm x 60 mm) is connected with the nails to the below part, determine the maximum allowable spacing s, if each nail can resist a shear force of 1.5 kN. Cross Section -60 mm- INA = 1.36 (10)-6 m* A 20 mm 30 mm |N.A. 60 mm y = 50 mm A2 20 mm
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