For the cantilever beam shown below: (Neglect self weight of the beam) (A) Using the fourth-order differential equation EI(d*y/dx*)=w,, find the deflection curve. (B) Given that L=3 m, El=6000 kN.m², P=60 kN and M,=20 kN.m, determine the maximum deflection. P L M.

For the cantilever beam shown below: (Neglect self weight of the beam) (A) Using the fourth-order differential equation EI(dy/dx)=w,, find the deflection curve. (B) Given that L=3 m, El=6000 kN.m², P=60 kN and M,=20 kN.m, determine the maximum deflection. P L M.

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter6: Applications Of Newton's Laws

Section: Chapter Questions

Problem 132CP: An airplane flying at 200.0 m/s makes a turn that takes 4.0 mm. What bank angle is required? What is...

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Question

For the cantilever beam shown below: (Neglect self weight of the beam)
(A) Using the fourth-order differential equation EI(d*y/dx*)=w,, find the
deflection curve.
(B) Given that L=3 m, El=6000 kN.m², P=60 kN and M,=20 kN.m, determine
the maximum deflection.
P
L
M.
y

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