A cantilever beam, 3.5 m long, carries a concentrated load, P, at mid-length Given: P = 200 kN E = 200 GPa I = 60.8 x 10^6 mm^4 How much is the deflection (mm)at mid-length What force (kN) should be applied at the free end to prevent deflection? To limit the deflection at mid-length to 9.5 mm, how much force (kN) should be applied at the free end?

A cantilever beam, 3.5 m long, carries a concentrated load, P, at mid-length Given: P = 200 kN E = 200 GPa I = 60.8 x 10^6 mm^4 How much is the deflection (mm)at mid-length What force (kN) should be applied at the free end to prevent deflection? To limit the deflection at mid-length to 9.5 mm, how much force (kN) should be applied at the free end?

Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)

5th Edition

ISBN:9781305084766

Author:Saeed Moaveni

Publisher:Saeed Moaveni

Chapter7: Length And Length-related Variables In Engineering

Section: Chapter Questions

Problem 42P

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Concept explainers

Beams

In structural engineering, a beam is a component made of a variety of materials (including steel alloys, and wood) that can resist loads applied laterally to the beam axis. Members, elements, rafters, shafts, and purlins are all terms used to describe beams.

Question

A cantilever beam, 3.5 m long, carries a concentrated
load, P, at mid-length
Given:
P = 200 kN
E = 200 GPa
I = 60.8 x 10^6 mm^4

How much is the deflection (mm)at mid-length

What force (kN) should be applied at the free end to prevent
deflection?

To limit the deflection at mid-length to 9.5 mm, how much force
(kN) should be applied at the free end?

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