The vertical structure ABCD shown in Figure 1(a) is subjected to a system of coplanar forces and a moment. The structure is simply supported at D with a frictionless pin and is roller-supported at A. 1. (a) i. Sketch the free body diagram (FBD). Take moments about D and hence find the reaction force at support A. ii. 35 kNA 25m 05m 80 kN 60 75 KN 100 Nm 2m C. 05m 45 Fiqure 1(a)
The vertical structure ABCD shown in Figure 1(a) is subjected to a system of coplanar forces and a moment. The structure is simply supported at D with a frictionless pin and is roller-supported at A. 1. (a) i. Sketch the free body diagram (FBD). Take moments about D and hence find the reaction force at support A. ii. 35 kNA 25m 05m 80 kN 60 75 KN 100 Nm 2m C. 05m 45 Fiqure 1(a)
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter1: Tension, Compression, And Shear
Section: Chapter Questions
Problem 1.3.24P: A plane frame is constructed by using a pin connection between segments ABC and CDE. The frame has...
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![The vertical structure ABCD shown in Figure 1(a) is subjected to a
(a)
system of coplanar forces and a moment. The structure is simply supported at
D with a frictionless pin and is roller-supported at A.
1.
i.
Sketch the free body diagram (FBD).
Take moments about D and hence find the reaction force at support A.
ii.
35 kNA
25m
05m
80 kN+
60
100 KNm
75 KN
2m
05 m
D
45
Figure 1(a)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F72c6123d-db2c-43fa-bb4d-ef3d2a416cdd%2F38a90d1a-af5b-4bfe-93c2-78cfdef5d19f%2Fh30ypxc_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The vertical structure ABCD shown in Figure 1(a) is subjected to a
(a)
system of coplanar forces and a moment. The structure is simply supported at
D with a frictionless pin and is roller-supported at A.
1.
i.
Sketch the free body diagram (FBD).
Take moments about D and hence find the reaction force at support A.
ii.
35 kNA
25m
05m
80 kN+
60
100 KNm
75 KN
2m
05 m
D
45
Figure 1(a)
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