Mechanics of Materials
11th Edition
ISBN: 9780137605460
Author: Russell C. Hibbeler
Publisher: Pearson Education (US)
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Textbook Question
Chapter 12, Problem 5RP
Determine the maximum deflection between the supports A and B. Use the method of integration. El is constant.
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Chapter 12 Solutions
Mechanics of Materials
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- Solve for the moments and reactions at the fixed supports. You MUST use the slope deflection method.arrow_forwardKindly solve the slope and deflection at each point using Area Moment Method (show solutions and diagrams) some answers: ΔC = 16.19 mmΔD = 13.65 mmarrow_forwardDetermine the position and magnitude of the maximum deflection in the beam P -2a- A -X- Rc RAarrow_forward
- Determine the maximum deflection within region AB. EI is constant.arrow_forwardDetermine the magnitude of the maximum deflection using doubleintegration method. Use E = 200 x10^6 KPa and I = 1.440 x10^-5 m4arrow_forwardQ1: Using the double-integration method, find the deflection C and the slope at B. Assume that El is constant for the beam. 3Larrow_forward
- Determine the slope at point B and the deflection at point C by Moment-Area methodarrow_forwardGiven the 200mm x 400mm beam with the loading shown, determine: a. the amount of load P applied on the beam if the deflection on the midspan is 5 mm downward. b. by this same load P, what is the deflection and slope on the beam at point D? Set the parameters as a = 3m, L = 9m , E = 200 GPa. EI is constant.arrow_forwardThe beam carries varrying load as shown. Determine the following. Use Double Integration Method in solving the required. 1. Deflection midway between the two supports 2. Deflection at the overhang 4kN/m 5m 3marrow_forward
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Solids: Lesson 53 - Slope and Deflection of Beams Intro; Author: Jeff Hanson;https://www.youtube.com/watch?v=I7lTq68JRmY;License: Standard YouTube License, CC-BY