It is obtained by fixing 4 wooden planks to each other with nails. given as a cross section. 2 verticals forming the section plank 20 mm X 80 mm, the other two planks 20 mm X 120 mm in size. between the nails fastening the planks the distance is s = 50 mm. allowed on each nail The safe cutting force is 300 N. a) The highest vertical that the beam can safely carry What is shear force? b) The maximum amount formed in the section corresponding to this shear force. What is high shear stress?
It is obtained by fixing 4 wooden planks to each other with nails. given as a cross section. 2 verticals forming the section plank 20 mm X 80 mm, the other two planks 20 mm X 120 mm in size. between the nails fastening the planks the distance is s = 50 mm. allowed on each nail The safe cutting force is 300 N. a) The highest vertical that the beam can safely carry What is shear force? b) The maximum amount formed in the section corresponding to this shear force. What is high shear stress?
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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It is obtained by fixing 4 wooden planks to each other with nails.
given as a cross section. 2 verticals forming the section
plank 20 mm X 80 mm, the other two planks 20 mm X 120 mm
in size. between the nails fastening the planks
the distance is s = 50 mm. allowed on each nail
The safe cutting force is 300 N.
a) The highest vertical that the beam can safely carry
What is shear force?
b) The maximum amount formed in the section corresponding to this shear force.
What is high shear stress?
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