F=(X+4) kN |B L=Y+1 m L=Y+1 m S=1YX mm 30 mm 1 H=2X0 mm -H- 300mm - - 30 mm 30 mm 30 mm The cantilevered beam is constructed from four boards which are nailed together. The nails are on both sides of the beam. Each nail can resist a shear force of 4 kN. Determine the maximum load P that can be applied to the end of the beam. X=6 Y=3

F=(X+4) kN |B L=Y+1 m L=Y+1 m S=1YX mm 30 mm 1 H=2X0 mm -H- 300mm - - 30 mm 30 mm 30 mm The cantilevered beam is constructed from four boards which are nailed together. The nails are on both sides of the beam. Each nail can resist a shear force of 4 kN. Determine the maximum load P that can be applied to the end of the beam. X=6 Y=3

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter5: Stresses In Beams (basic Topics)

Section: Chapter Questions

Problem 5.10.12P: The T-beam shown in the figure has cross-sectional dimensions: b = 210 mm, t = 16 mm, h = 300 mm,...

See similar textbooks

Similar questions

All the pins are in double shear, and they each have a diameter of 14 mm. The average shear stress in each pin CANNOT exceed 70 MPa. What is the max magnitude of P that the beam can support
A loaded beam, 60 mm wide by 100 mm high and 6 m long, has the shear and moment diagrams as shown below. Determine (a) the magnitude, type and location of the maximum flexural stress (in MPa) (b) the stress (specify the type) in a fiber 30 mm from the top of the beam at a section 3.5 m from the left end. I = bh3/12
A beam made of timber is required to span 5m and has dimensions of 75mm x 250mm. If the beam is simply supported and carries a point load of 40KN. Determine the safe allowable stress due to bending. Let: M max= WL/4 Mr= fz Z=bd2/6
If the beam has a rectangular cross-section, then the shear-stress distribution will be parabolic. True or False?
The double-web girder is constructed from two plywood sheets that are secured to wood members at its top and bottom. The allowable bending stress for the wood is σallow = 8 ksi and the allowable shear stress is τallow = 3 ksi. The fasteners are spaced s = 6 in. and each fastener can support 400 lb in single shear. Determine the maximum load P that can be applied to the beam.
The piston of an automobile engine is held to the connecting rod by a wrist pin having an external diameter of 20 mm and internal diameter of 11 mm. The length of the bearing in the rod end is 25 mm and the bearing in each boss of the piston is 15 mm. The maximum load transmitted is 14.50 kN. (a) Determine the bearing pressure between the rod end and the wrist pin. (b) Compare the maximum bending stress in the pin, assuming that it is a simple beam with a uniform load. Please solve completely ?
All pins are in double shear, each has a diameter of 13mm, and the average shear stress in each pin is not to exceed 65 MPa. Determine the maximum magnitude P of the loads that the beam can support
The simply supported joist is used in the construction of a floor for a building. In order to keep the floor low with respect to the sill beams C and D, the ends of the joists are notched as shown. If the allowable shear stress is tallow = 350 psi and the allowable bending stress is sallow = 1500 psi, determine the height h that will cause the beam to reach both allowable stresses at the same time. Also, what load P causes this to happen? Neglect the stressconcentration at the notch.
per the attached figure: the T-beam is constructed as shown. if each nail can support a shear force of 800 lb, determine the maximum shear force V that the beam can support and the corresponding maximum nail spacing s to the nearest 1/8 in. the allowable shear stress for the wood is Tallow = 430 psi.
The simply supported joist is used in the construction of a floor for a building. In order to keep the floor low with respect to the sill beams C and D, the ends of the joist are notched as shown. If the allowable shear stress is tallow = 350 psi and the allowable bending stress is s allow = 1700 psi, determine the smallest height h so that the beam will support a load of P = 600 lb. Also, will the entire joist safely support the load? Neglect the stress concentration at the notch.
The beam is constructed from two boards fastened together at the top and bottom with three rows of nails spaced every 8 in. If an internal shear force of V = 800 lb is applied to the boards, determine the shear force resisted by each nail.
The joint proposed provides the connection (pivot) between the clevis 1 and the tie rod 2 by means of a shaft 3 stopped in translation by two elastic rings 4. the admissible resistance to shearing of shaft 3 is equal to 80 MPa. If the diameter d of the pin is equal to 50 mm, determine the maximum force F that can be transmitted by the connection