AC BC BD Figure of Question 2 Beam AC is subjected to a uniformly distributed load of w= 4.8 kN/m. The beam, which has a moment of inertia of 246(106) mm², is fixed at A and supported by rod BD. The rod BD is pinned at both of its ends, and has a cross-sectional area of 24 mm². Both beam AC and rod BD has a Young's modulus of 216 GPa. Given lengths AC = 4.0 m, BC= 1.0 m, and BD = 1.5 m. Find the vertical displacement at point C due to the distributed load w
AC BC BD Figure of Question 2 Beam AC is subjected to a uniformly distributed load of w= 4.8 kN/m. The beam, which has a moment of inertia of 246(106) mm², is fixed at A and supported by rod BD. The rod BD is pinned at both of its ends, and has a cross-sectional area of 24 mm². Both beam AC and rod BD has a Young's modulus of 216 GPa. Given lengths AC = 4.0 m, BC= 1.0 m, and BD = 1.5 m. Find the vertical displacement at point C due to the distributed load w
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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![AC
D
BC
BD
C
Figure of Question 2
Beam AC is subjected to a uniformly distributed
load of w= 4.8 kN/m. The beam, which has a
moment of inertia of 246(106) mm¹, is fixed at A
and supported by rod BD. The rod BD is pinned at
both of its ends, and has a cross-sectional area of
24 mm². Both beam AC and rod BD has a Young's
modulus of 216 GPa. Given lengths AC = 4.0 m,
BC = 1.0 m, and BD = 1.5 m.
Find the vertical displacement
at point C due to the
distributed load w](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff059c920-905a-444b-a41d-eeba95dbbb29%2Feb5eb2ce-7c70-4e2b-a74d-236389c6cf92%2F5f3eju_processed.png&w=3840&q=75)
Transcribed Image Text:AC
D
BC
BD
C
Figure of Question 2
Beam AC is subjected to a uniformly distributed
load of w= 4.8 kN/m. The beam, which has a
moment of inertia of 246(106) mm¹, is fixed at A
and supported by rod BD. The rod BD is pinned at
both of its ends, and has a cross-sectional area of
24 mm². Both beam AC and rod BD has a Young's
modulus of 216 GPa. Given lengths AC = 4.0 m,
BC = 1.0 m, and BD = 1.5 m.
Find the vertical displacement
at point C due to the
distributed load w
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