Homework SourseThe Flexure Formula Learning Goal To apply the flexure formu
The Flexure Formula
Learning Goal:
To apply the flexure formula to beams under load and find unknown stresses, moments, and forces.
max=McI
where M is the magnitude of the internal moment with respect to the neutral axis, c is the perpendicular distance from the neutral axis to the point farthest from the neutral axis, and I is the moment of inertia of the cross-section about the neutral axis. The maximum normal stress will always occur on the top or bottom surface of the beam; in fact, one of these surfaces will experience a maximal tensile stress while the other experiences the same magnitude of stress in compression.
For points not on a surface of the beam, we can use
max/c=/y
to rewrite the flexure formula in the more general form
=MyI.
Part A - Moment Required to Produce a Given Stress
(Figure 1)
Determine the magnitude of the moment M that must be applied to the beam to create a compressive stress ofD=20 MPa at point D. Also calculate the maximum stress developed in the beam. The moment M is applied in the vertical plane about the geometric center of the beam.
Express your answers, separated by a comma, to three significant figures.
Part B - Minimum Allowable Cross-Section
(Figure 2)
Determine the smallest allowable diameter of the rod, d, if x=1.6 m, w0=8.2 kN/m, and the maximum allowable bending stress is allow=185 MPa.
Express your answer to three significant figures and include the appropriate units.
Part C - Absolute Maximum Bending Stress
(Figure 3)
The beam has a square cross-section of 115 mm on each side, is 3 m long, and the initial value of the distributed load isw0=6 kN/m.
Express your answer to three significant figures.
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| The Flexure Formula Learning Goal: To apply the flexure formula to beams under load and find unknown stresses, moments, and forces. For straight members having a constant cross-section that is symmetrical with respect to an axis with a moment applied perpendicular to that axis, the maximum normal stress in the cross-section can be calculated using the flexure formula:max=McI where M is the magnitude of the internal moment with respect to the neutral axis, c is the perpendicular distance from the neutral axis to the point farthest from the neutral axis, and I is the moment of inertia of the cross-section about the neutral axis. The maximum normal stress will always occur on the top or bottom surface of the beam; in fact, one of these surfaces will experience a maximal tensile stress while the other experiences the same magnitude of stress in compression. For points not on a surface of the beam, we can use max/c=/y to rewrite the flexure formula in the more general form =MyI. | Part A - Moment Required to Produce a Given Stress The cross-section of a wooden, built-up beam is shown below. The dimensions are L=190 mm and w=35 mm.(Figure 1) Determine the magnitude of the moment M that must be applied to the beam to create a compressive stress ofD=20 MPa at point D. Also calculate the maximum stress developed in the beam. The moment M is applied in the vertical plane about the geometric center of the beam. Express your answers, separated by a comma, to three significant figures.
Part B - Minimum Allowable Cross-Section The rod shown in the figure below is supported by smooth journal bearings at A and B that exert only vertical reactions on the shaft.(Figure 2) Determine the smallest allowable diameter of the rod, d, if x=1.6 m, w0=8.2 kN/m, and the maximum allowable bending stress is allow=185 MPa. Express your answer to three significant figures and include the appropriate units.
Part C - Absolute Maximum Bending Stress Find the absolute maximum bending stress in the beam shown in the figure below.(Figure 3) The beam has a square cross-section of 115 mm on each side, is 3 m long, and the initial value of the distributed load isw0=6 kN/m. Express your answer to three significant figures.
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Solution
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