Can you please explain clearly on how to calculate that maximum bending moment. QUESTION 1A beam of T cross section (flange 200mm x 12mm and web 320mm x 12mm) is loadedas shown. Determine:1,1 the position of the neutral axis, from the bottom, X-X1.2 the positions of the centroids of sections 1 and 2 from the neutral axis1.3 the second moment of inertia "T" of the cross section1.4 the maximum tensile bending stress at any location along the length of the beam1.5 the maximum compressive bending stress at any location along the length of the be1.6 Draw the stress distribution diagram at the position of maximum bending momentS0KNDe30002000500012kNX-

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QUESTION 1 A beam of T cross section (flange 200mm x 12mm and web 320mm x 12mm) is loaded as shown. Determine: 1.1 the position of the neutral axis, from the bottom, X-X 1.2 the positions of the centroids of sections 1 and 2 from the neutral axis 1.3 the second moment of inertia "I" of the cross section 1.4 the maximum tensile bending stress at any location along the length of the beam 1.5 the maximum compressive bending stress at any location along the length of the be 1.6 Draw the stress distribution diagram at the position of maximum bending moment

QUESTION 1 A beam of T cross section (flange 200mm x 12mm and web 320mm x 12mm) is loaded as shown. Determine: 1.1 the position of the neutral axis, from the bottom, X-X 1.2 the positions of the centroids of sections 1 and 2 from the neutral axis 1.3 the second moment of inertia "I" of the cross section 1.4 the maximum tensile bending stress at any location along the length of the beam 1.5 the maximum compressive bending stress at any location along the length of the be 1.6 Draw the stress distribution diagram at the position of maximum bending moment

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Combined Loading

Any functioning component, such as machine parts, structural members, pressure vessels, and so on, are all under the influence of more than one force. When anybody is under the influence of more than one force such as shear forces, bending moments, axial forces, torsion, and so on, then such body is said to be under combined loading. A very practical example of combined loading is the crankshaft of an internal combustion engine (IC engine). The crankshaft of the IC engine is under high rpm, which is caused due to the torsional forces. Due to the presence of piston, counterbalances, and internal imbalances, the crankshaft experiences lateral forces and due to the rise in temperature, the crankshaft undergoes thermal expansion, which pulls the crankshaft along the axial direction and lateral direction. The presence of unbalanced loads along the periphery of the crankshaft also induces a bending moment.

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Can you please explain clearly on how to calculate that maximum bending moment.

QUESTION 1
A beam of T cross section (flange 200mm x 12mm and web 320mm x 12mm) is loaded
as shown. Determine:
1,1 the position of the neutral axis, from the bottom, X-X
1.2 the positions of the centroids of sections 1 and 2 from the neutral axis
1.3 the second moment of inertia "T" of the cross section
1.4 the maximum tensile bending stress at any location along the length of the beam
1.5 the maximum compressive bending stress at any location along the length of the be
1.6 Draw the stress distribution diagram at the position of maximum bending moment
S0KN
De
3000
2000
5000
12kN
X-

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Part 1 For the simply supported beam subjected to the loading shown, derive equations for the shear force V and the bending moment M for any location in the beam. (Place the origin at point A.) Let w=6.0 kips/ft, a=5.0 ft, and b-17.0 ft. Construct the shear-force and bending-moment diagrams on paper and use the results to answer the questions in the subsequent parts of this GO exercise. Calculate the reaction forces B, and C, acting on the beam. Positive values for the reactions are indicated by the directions of the red arrows shown on the free-body diagram below. (Note: Since B, = 0, it has been omitted from the free-body diagram.) A Answers: By= C₂ = i a Save for Later Part 2 B, eTextbook and Media Answers: B B (a) V= (b) V= # (c) V= (d) V= kips Determine the shear force acting at each of the following locations: (a) x = 5.0-ft (i.e., just to the left of support B) (b)x= 5.0+ ft (i.e.. just to the right of support B) (c)x=21.0ft (d) x = 22.0-ft (i.e., just to the left of support C)…
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Pravinbhai
What is required to relate the stress distribution to the resultant bending moment?
Why should the moment at the section be equivalent to the moment caused by the stress distribution?