8) The 1-meter long, tapered bar with circular cross section illustrated below has large diameter of 0.5 m (at the top), small diameter of 0.25 m (at the bottom) and modulus E = 20 x 10⁹ Pa. It is subject to a point axial load of F =10 kN. Use the finite element method to calculate the bar's resulting change in length. Compare your answer to the analytical solution (it's in the notes). Use at least 3 elements. TE F
8) The 1-meter long, tapered bar with circular cross section illustrated below has large diameter of 0.5 m (at the top), small diameter of 0.25 m (at the bottom) and modulus E = 20 x 10⁹ Pa. It is subject to a point axial load of F =10 kN. Use the finite element method to calculate the bar's resulting change in length. Compare your answer to the analytical solution (it's in the notes). Use at least 3 elements. TE F
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
Related questions
Question
Please show all work!!
![8) The 1-meter long, tapered bar with circular cross section illustrated below has large diameter
of 0.5 m (at the top), small diameter of 0.25 m (at the bottom) and modulus E = 20 x 10⁹ Pa. It is
subject to a point axial load of F =10 kN. Use the finite element method to calculate the bar's
resulting change in length. Compare your answer to the analytical solution (it's in the notes). Use
at least 3 elements.
TE
F](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5ea01508-f9b6-4a19-b038-56e12c298daf%2F40dd6542-44fc-4a37-a17e-b2f2c92f1900%2Fxy142c_processed.png&w=3840&q=75)
Transcribed Image Text:8) The 1-meter long, tapered bar with circular cross section illustrated below has large diameter
of 0.5 m (at the top), small diameter of 0.25 m (at the bottom) and modulus E = 20 x 10⁹ Pa. It is
subject to a point axial load of F =10 kN. Use the finite element method to calculate the bar's
resulting change in length. Compare your answer to the analytical solution (it's in the notes). Use
at least 3 elements.
TE
F
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