Solution Found!
Answer: In 1–5 solve equation (4) subject to the
Chapter 5, Problem 1E(choose chapter or problem)
In Problems 1–5 solve equation (4) subject to the appropriate boundary conditions. The beam is of length L, and \(w_{0}\) is a constant.
(a) The beam is embedded at its left end and free at its right end, and \(w(x)=w_{0}, 0<x<L\).
(b) Use a graphing utility to graph the deflection curve when \(w_{0}=24 E I\) and \(L=1\).
Text Transcription:
w_0
w(x)=w_0,0<x<L
w_0=24EI
L=1
Questions & Answers
QUESTION:
In Problems 1–5 solve equation (4) subject to the appropriate boundary conditions. The beam is of length L, and \(w_{0}\) is a constant.
(a) The beam is embedded at its left end and free at its right end, and \(w(x)=w_{0}, 0<x<L\).
(b) Use a graphing utility to graph the deflection curve when \(w_{0}=24 E I\) and \(L=1\).
Text Transcription:
w_0
w(x)=w_0,0<x<L
w_0=24EI
L=1
ANSWER:Step 1 of 5
(a) It is given that
The required differential equation will be
Now solving the differential equation for homogeneous solution
So
but
.