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1 m and a cross-sectional area A = 10 cm2. If the bar is fixed at one end and subjected to a uniform distributed load of intensity w = 1 kN/m and a concentrated force F = 5 kN at its free end as shown, what would be the displacement at global node 2?

1 m and a cross-sectional area A = 10 cm2. If the bar is fixed at one end and subjected to a uniform distributed load of intensity w = 1 kN/m and a concentrated force F = 5 kN at its free end as shown, what would be the displacement at global node 2?

Elements Of Electromagnetics
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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Question 6 The following figure represents a bar problem in static equilibrium and the related linear finite element model (The bar is modeled by one linear element). The bar is made of steel with modulus of elasticity E = 200 GPa and it has a length of 1 m and a cross-sectional area A = 10 cm?. if the bar is fixed at one end and subjected to a uniform distributed load of Not yet answered Marked out of 15.00 intensity w = 1 kN/m and a concentrated force F = 5 kN at its free end as shown, what would be the displacement at global node 2? P Flag question w = 1 kN/m %3D
Transcribed Image Text:Question 6 The following figure represents a bar problem in static equilibrium and the related linear finite element model (The bar is modeled by one linear element). The bar is made of steel with modulus of elasticity E = 200 GPa and it has a length of 1 m and a cross-sectional area A = 10 cm?. if the bar is fixed at one end and subjected to a uniform distributed load of Not yet answered Marked out of 15.00 intensity w = 1 kN/m and a concentrated force F = 5 kN at its free end as shown, what would be the displacement at global node 2? P Flag question w = 1 kN/m %3D
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