0.007 m2X30.1 m30.1 mIf a 7 meter simply supported beam carrying a uniformly distributed load of 20 KN/m all throughoutits length is made using the given section with modulus of elasticity equal to 200 GPa, determine thedeflection at the midspan. (mm)If the maximum deflection at the midspan is set to 3 mm, determine the maximum uniformlydistributed load that a 7 meter simply supported beam could carry if it is made using the given sectionwith modulus of elasticity equal to 200 GPa. (KN/m)If the maximum deflection at the midspan is set to 5 mm, determine the longest possible simplysupported beam that could carry a uniformly distributed load of 20 KN/m. The beam is made usingthe given section with modulus of elasticity equal to 200 GPa. (m)

D (total depth of section) = (0.1 + 2*0.007)*1000 = 114mm b (width) = 0.1*1000 = 100mm t (thickness)…

Answered: If a 7 meter simply supported beam…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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A built-in cantilever beoam with a hollow rectangular cross-section is subjected to a uniformly distributed load as shown in Figure Q1 below. Which of the following statements best describes the shear force variation along the length, in the x direction, using the sign conventions provided in lectures? Figure Q1 For the same beam and loading case in Figure Q1, what steps could be taken from the following options, in the order defined, to find the maximum value of shear stress WHEN CONSIDERING ANY DIRECTION IN THE X-Y PLANE (not just those aligned with x and y) at any location within the beam? i Use the shoar stress equation to find 1xy- i. Uso the bending stress oquation to find ox- i. Consider loading along the longth of the beam to establish the maximum shoar force and bending moment. iv. Find the partial derivative of the bending moment with respect to w. v. Choose key locations within the cross-section for separate analysis. vi. Apply Castigliano's theorem and solve. vii. Uso…
Consider a uniform 10mlong beam, with flexural rigidity of 15,000Nm2that is clamped on the left hand side and with a roller support on the right hand side.1.What are the boundary conditions for this beam?2.Calculate Green’s function for this beam.

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