Mechanics of Materials
11th Edition
ISBN: 9780137605460
Author: Russell C. Hibbeler
Publisher: Pearson Education (US)
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Determine the moment reactions at the supports A and B. Use the method of integration. EI is constant.
Assume the equilibrium equations below.
x-equation: A - BE() + CD = 0
y-equation: Ay - BE() = 0
Moment about point A: BE··6-CD-10 = 0
Use CD from the original diagram.
Determine the support reaction in lb at A in the x-direction. (Give the answer to 0 decimal places.)
.
For the following calculate the reactions at A and B.
2 kN-m
6 kN-m
60°
2 m
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- Problem 2. SOLVE FOR RA AND RB USING THE SUM OF MOMENTS METHOD (SOLVE FOR ALL REACTIONS) - 5K per footarrow_forwardDraw the correct Free Body Diagram (FBD). Solve the moment at B.arrow_forwardFor the following question, choose the correct answers Section Determine the components of the support reactions at the fixed support A on the cantilevered beam. 6 kN 30° 130° 1.5 m 4 kN -1.5 m 1.5 m- =The x component of the reaction at A is Ax 8.46 kN 3.46 kN O -9 kN -3.46 kN Oarrow_forward
- Find the deformation and the reaction at A and B.arrow_forward8 kN/m 9m 6 m B C 4 kN/m Show Transcribed Text Determine the reactions at the supports using the force method. Moreover, draw the moment diagram. El is constant.arrow_forward2nd 4m Mmax=6060 kN.m 6m -2ndo -1600kN.m 4m 2. From the moment diagram shown, assuming there are no variable loads a. What is the value of the reaction at B. b. What is the value of the load from A to B? c. What is the value of the load from B to C?arrow_forward
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