PEARSON ETEXT ENGINEERING MECH & STATS
15th Edition
ISBN: 9780137514724
Author: HIBBELER
Publisher: PEARSON
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Problem 3: Determine the internal normal force (P), shear force (V), and moment (M) acting in the beam
at point B.
3 kN/m
6 m
B
-3 m-
Draw the shear and moment diagrams for the beam subjected to the end couple. After you have the diagrams, answer the questions. At a section 1.0 m to the right of A and At a section 2.1 m to the right of A, what is V and M?
Determine the normal forces, shear force, and
moment in the beam at points Dand E. Point Eis
just to the right of the 3-kip load.
-6 ft-
1.5 kip/ft
-6 ft-
B
-4 ft
3 kip
T
E
H
-4 ft
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- Express the internal shear and moment in terms of x, then draw the shear and moment diagrams for the simply-supported beam. The 1500-lb force and 1000-ft-lb moment are applied at a point 5 feet from the left support as shown in the figure. Present a FBD for every analysis performed. 1500 lb 5 ft 11000 ft-lb 5 ft 250 lb/ft -10 ftarrow_forwardA fabric of woven polymer fibers is to be held in tension while drying after a treatment in a chemical bath. Based on the schematic given below, find the force FG required to maintain this tension, the maximum torsion experienced by the shaft and the reactions at A and B. Then draw the shear and bending moment diagrams for the shaft in both the x-y and y-z planes. Finally determine the maximum resultant bending moment and the location along the shaft where it occurs (treat point A as the origin). Treat the force of the sheet as a distributed load over the given length. 0.1 m 0.05 m 0.5 m FG 0.05 m F₂ = 200 N RAX 4 RAZ 0.05 m p 0.05 m p F₂ = 200 N F₁ = 900 N Z F₁ = 900 N 0.075 m x RBX B RB₂ 0.075 m p FGarrow_forward1. Determine the internal normal force, shear force, and bending moment at point C in the beam. 300 Ib/ft B -3 ft -3 ft-arrow_forward
- answer quicklyarrow_forwardProblem 3 Draw the moment diagram for the beam using the method of superposition. 10 kN/m 8 m B 80 kN m + -4 m 25 KN Carrow_forwardDraw the shear diagram for the beam. Set P = 800 lb, a = 5 ft, L = 12 ft. Draw the moment diagram for the beam. Set P = 800 lb, a = 5 ft, L = 12 ft.arrow_forward
- 3. Show complete solution and draw FBDarrow_forwardDetermine the placement distance a of the roller support so that the largest absolute value of the moment is a minimum. Draw the shear and moment diagrams for this condition.arrow_forwardDraw the shear diagram for the beam. Set Mo = 500 N⋅m, L = 8 m. Draw the moment diagram for the beam. Set Mo = 500 N⋅m, L = 8 m.arrow_forward
- Draw the shear and moment diagrams, then anwer the questions. The distance x is measured from point A to the right. Assume w = 520 lb/ft, a = 3.1 ft, b = 2.6 ft. B Questions: Atx = 1.4 ft, V= i Ib, M= i Ib-ft Atx = 4.5 ft, V= i Ib, M= i Ib-ftarrow_forwardL B b D F =141arrow_forwardSketch the free body diagrams of the beam showing all the loading andexternal reactions.arrow_forward
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