Determine the force and moment reactions at the support A of the cantilever beam subjected to the load distribution shown. The reaction force RA is positive if up, negative if down. The reaction moment MA is positive if counterclockwise, negative if clockwise.
Assume l1 = 1.8b, l2 = 1.3b.
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A propped cantilever beam is loaded as shown. Assume that EI = 250,000 kN-m2, and use discontinuity functions to determine (a) the reactions at A and B. (b) the beam deflection at C. The reaction forces are positive if up and negative if down. The reaction moment is positive if counterclockwise and negative if clockwise. Assume LAB = 5.4 m, LBC = 2.9 m, MC = 700 kN-m. V Mc X A B LAB LBC Answers: (a) Ay = KN...
The cantilever beam shown is subjected to a moment at A and a distributed load that acts over segment BC, and is fixed at C. Determine the reactions at the support located at C. Then write expressions for shear and bending moment as a function of their positions along the beam. Finally, use these expressions to construct shear and bending moment diagrams Draw a free-body diagram of the beam on paper. Use your free-body diagram to determine the reactions at...
Chapter 5, Practice Problem 5/11 xIncorrect Calculate the supporting force RA and moment M acting on the loaded cantilever beam at A. The force reaction is positive if upward, negative if downward. The moment reaction is positive if counterclockwise, negative if 270 lb/f 6.8' 6.8 Answers: 135 lb MA- Ib-ft
A propped cantilever beam is loaded as shown. Determine the reactions at A and D (positive if the force is up and if the moment is counterclockwise) for the beam. Assume EI = 8.1 x 106 lb-inf. Assume L 66 in., w 29 lb/in., P-440 lb Answers: lb, MA--37752 Ib-in A 1144 572 D= lb.
To determine the reactive forces and moments acting on a beam; express the shear and bending moment as functions of their positions along the beam; and construct shear and bending moment diagrams. The cantilever beam shown is subjected to a moment at A and a distributed load that acts over segment BC, and is fixed at C. Determine the reactions at the support located at C. Then write expressions for shear and bending moment as a function of their positions...
(35 points) (a) Draw the shear and bending moment diagrams for the cantilever beam shown. (b) Specify the maximum positive and negative shear force and bending moment. Take L1 300 mm, L2 -300 mm, q 100 N/m. 2.
Consider the beam shown in Figure 1). Assume the support at A is red and B is a roller. Take 20(10) ksi and 24k/ft. The moment of inertia for each segment is shown in the figure Determine they component of reaction at A Express your answer using three significant figures. AED Ivec ? Submit Best Am - Part Determine the moment of reaction A Express your answer using three significant figures. Enter positive value of the moment is counterclockwise and...
The cantilever beam shown is subjected to a moment at A and a distributed load that acts over segment BC, and is fixed at C. Determine the reactions at the support located at C. Then write expressions for shear and bending moment as a function of their positions along the beam. Finally, use these expressions to construct shear and bending moment diagrams. Part A - Reactions at support C Draw a free-body diagram of the beam on paper. Use your...
Problem 1. For the beam below, use either the "tabulated values" method or the influence-line equations" method to: (a) Draw the influence lines for reactions A, and MA. (b) Draw the influence lines for the reaction at C. (c) Draw the influence lines for the moment at C. (d) Determine the maximum positive and negative values of the reactions at A and C if the span can be loaded with a 1.2kips/ft uniform load of variable length and a Skips...
Q5. The cantilever beam, AC, is subjected to the load case shown in Figure 5. For the loading shown, do the following: [10 Marks] a) Calculate the magnitude and direction of the reactions at A b) Using the Macaulay function, determine the displacement in y of the point B of the beam (x 2.4 m from the support at A) [10 Marks] c) Determine the slope at B. [5 Marks] The beam has a Young's modulus of E-200 GPa and...