Three boards, each 50 mm thick, are nailed together to form a beam that is subjected to a 1200-N vertical shear. Knowing that the allowable shearing force in each nail is 740 N, determine the largest permissible spacing s between the nails.

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ajeigbeibraheem ajeigbeibraheem · Answer 1 · 2020-05-01T04:37:49+02:00

Answer:

100.49 mm

Explanation:

Given that :

The vertical shear force = 1200 N

Allowable shearing force in each nail = 740 N

From the diagram attached below, We first determine the horizontal force per unit length on the lower surface of the upper flange

[tex]q = \frac{VQ_{1-1}}{I_{NA}} \ \ \ N/mm[/tex]

where;

[tex]I_{NA} = \frac{50*100^3}{12}+2[\frac{150*50^3}{12}+ (150*50)*( \bar {y}^2][/tex]

[tex]I_{NA} = \frac{50*100^3}{12}+2[\frac{150*50^3}{12}+ (150*50)*( 75)^2][/tex]

[tex]I_{NA} = 91.667*10^6 \ mm^4[/tex]

Also;

[tex]Q_{1-1} = A \bar{y}[/tex]

where A = area above (1-1)

[tex]Q_{1-1} = 50*150*75[/tex]

[tex]Q_{1-1} =56.25*10^4 \ \ \ mm^3[/tex]

Therefore ;

[tex]q = \frac{1220*56.25*10^4}{91.667*10^6}[/tex]

[tex]q = 7.3636 \ N/mm[/tex]

Now; the largest permissible spacing s between the nails. [tex]S_{max} = \frac{740}{7.3636} = 100.49 \ \ \ mm[/tex]