Consider the Fink truss shown in Figure Q1.1 with forces and dimensions as shown. The truss is supported at A by a roller and at G by a pin The truss is subjected to 4 applied loads at joints D, E, F, and G as shown. The loads at joints D, F, and G are perpendicular as shown. 1000 N D. 90° 2000 N F. 90° 1000 N 90° G 90 30 30 12 m C 12 m E 12 m
Consider the Fink truss shown in Figure Q1.1 with forces and dimensions as shown. The truss is supported at A by a roller and at G by a pin The truss is subjected to 4 applied loads at joints D, E, F, and G as shown. The loads at joints D, F, and G are perpendicular as shown. 1000 N D. 90° 2000 N F. 90° 1000 N 90° G 90 30 30 12 m C 12 m E 12 m
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 1.3.13P: A space truss has three-dimensional pin supports at joints 0, B, and C, Load P is applied at joint A...
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![Consider the Fink truss shown in Figure Q1.1 with forces and
dimensions as shown. The truss is supported at A by a roller
and at G by a pin The truss is subjected to 4 applied loads at
joints D, E, F, and G as shown. The loads at joints D, F, and G
are perpendicular as shown.
1000 N
90
2000 N
F
90°
B.
90
1000 N
90°
30°
12 m zmm
30
12 m
C
12 m
E
1000 N
Figure Q1.1
(0)
(ii)
Calculate the length of members GF and FD.
Draw a free body diagram of the truss showing all the
forces and moments acting on the member and all
reaction forces and moments.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffbeade3a-e408-4aef-a7a5-72ba541be59f%2Fd2ce64f1-ae14-4208-a95b-57858a108726%2Fmztsoo_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider the Fink truss shown in Figure Q1.1 with forces and
dimensions as shown. The truss is supported at A by a roller
and at G by a pin The truss is subjected to 4 applied loads at
joints D, E, F, and G as shown. The loads at joints D, F, and G
are perpendicular as shown.
1000 N
90
2000 N
F
90°
B.
90
1000 N
90°
30°
12 m zmm
30
12 m
C
12 m
E
1000 N
Figure Q1.1
(0)
(ii)
Calculate the length of members GF and FD.
Draw a free body diagram of the truss showing all the
forces and moments acting on the member and all
reaction forces and moments.
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