Learning Goal: To determine the equation for the elastic curve of a beam that is subjected to an applied moment and distributed load and to use this equation to determine the deflection of the beam at given locations along the beam's length. The cantilever beam shown below has an applied moment of M = 28.0 kip - in at point B and a distributed load of wo = 6.0 kip/in centered at point C. The beam is fixed to a wall at point A, has a modulus of elasticity of E = 28000 ksi , and a moment of inertia of I = 55.0 in . Assume EI is constant. The measurements corresponding to the figure are a = 11.5 in , b = 10.5 in , c = 11.0 in , and d = 5.5 in (Figure 1)
Learning Goal: To determine the equation for the elastic curve of a beam that is subjected to an applied moment and distributed load and to use this equation to determine the deflection of the beam at given locations along the beam's length. The cantilever beam shown below has an applied moment of M = 28.0 kip - in at point B and a distributed load of wo = 6.0 kip/in centered at point C. The beam is fixed to a wall at point A, has a modulus of elasticity of E = 28000 ksi , and a moment of inertia of I = 55.0 in . Assume EI is constant. The measurements corresponding to the figure are a = 11.5 in , b = 10.5 in , c = 11.0 in , and d = 5.5 in (Figure 1)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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only have to answer part C & D
Transcribed Image Text:Learning Goal:
To determine the equation for the elastic curve of a beam that is subjected to
an applied moment and distributed load and to use this equation to determine
the deflection of the beam at given locations along the beam's length.
The cantilever beam shown below has an applied moment of M = 28.0
kip - in at point B and a distributed load of wo = 6.0 kip/in centered at point
C. The beam is fixed to a wall at point A, has a modulus of elasticity of E =
28000 ksi , and a moment of inertia of I = 55.0 in . Assume EI is constant.
The measurements corresponding to the figure are a = 11.5 in , b = 10.5 in , c
= 11.0 in , and d = 5.5 in (Figure 1)
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