The Flexure Formula Learning Goal: To find the centroid and moment of inertia of an I-beams cross section, and to use the flexure formula to find the stress at a point on the cross section due to an internal bending moment. When a beam is subjected to an intemal bending moment M (Figure 1), the stress distribution acting on a cross section can be related to the moment at that section and the geometric properties of the cross section using the flexure formula. The relationship can be written in terms of the maximum stress, Me, where c is the perpendicular distance max from the neutral axis to the farthest point in the section It can also be written in tems of the vertical distance My from the neutral axis, y, or-- n each equation. I is the moment of inertia of the cross-sectional area about the same neutral axis. The neutral axis of the section passes through the centroid. Figure Consider an I-beam section with unequal flanges (Figure 2), where wi 0 in., h x8 in. wo 5 in. f 1.5 in. and w 1 in. The beam is subjected to a moment so that the internal moment on the section is about the 2-axis Part A Locate the centroid Since the widths of the two flanges are not the same, the centroid is not readily apparent. What is the distance y from the bottom of the section to the centroid? (Figure 3) Express your answer with appropriate units to three significant figures. Value Unis Submit Hints My Answers Give Up Review Part Part B Calculate the moment of inertia Once the position of the centroid is known, the moment of inertia can be calculated. What is the moment of inertia of the section for bending around the 2-axis? Express your answer to three significant figures and include the appropriate units. Value Units Submit Hints My Answers Give Up Review Part Part C Maximum bending stress Include the sign of the stress in your answer Express your answer in psi to three significant figures.The Flexure Formula Learning Goal: To find the centroid and moment of inertia of an I-beams cross section, and to use the flexure formula to find the stress at a point on the cross section due to an internal bending moment. When a beam is subjected to an intemal bending moment M (Figure 1), the stress distribution acting on a cross section can be related to the moment at that section and the geometric properties of the cross section using the flexure formula. The relationship can be written in terms of the maximum stress, Me, where c is the perpendicular distance max from the neutral axis to the farthest point in the section It can also be written in tems of the vertical distance My from the neutral axis, y, or– n each equation. I is the moment of inertia of the cross-sectional area about the same neutral axis. The neutral axis of the section passes through the centroid. Figure Consider an I-beam section with unequal flanges (Figure 2), where wi 0 in., h x8 in. wo 5 in. f 1.5 in. and w 1 in. The beam is subjected to a moment so that the internal moment on the section is about the 2-axis Part A Locate the centroid Since the widths of the two flanges are not the same, the centroid is not readily apparent. What is the distance y from the bottom of the section to the centroid? (Figure 3) Express your answer with appropriate units to three significant figures. Value Unis Submit Hints My Answers Give Up Review Part Part B Calculate the moment of inertia Once the position of the centroid is known, the moment of inertia can be calculated. What is the moment of inertia of the section for bending around the 2-axis? Express your answer to three significant figures and include the appropriate units. Value Units Submit Hints My Answers Give Up Review Part Part C Maximum bending stress Include the sign of the stress in your answer Express your answer in psi to three significant figures.

The Flexure Formula Learning Goal: To find the centroid and moment of inertia of an I-beam’s cross section, and to use the flexure formula to find the stress at a point on the cross section due to an internal bending moment. When a beam is subjected to an internal bending moment M (Figure 1), the stress distribution acting on a cross section can be related to the moment at that section and the geometric properties of the cross section using the

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