Problem 6. The truss below was designed to hang a one-of-a-kind sign that weighs 1000 lb. The sign is attached to the truss by two cables at attached at pin H of the truss and a rod that is attached at pin G of the truss; the rod is pin connected at both ends. The truss is attached to the wall by a pin at A and another cable (there are 3 cables at point H). Find the internal force in members AE, CH, EC, and EF. H cable cable 8' pin B с cable 8' 3' 3' rod E F 6' 1' 1.5' 2'> sign: 6'x 8', 1000 lb
Problem 6. The truss below was designed to hang a one-of-a-kind sign that weighs 1000 lb. The sign is attached to the truss by two cables at attached at pin H of the truss and a rod that is attached at pin G of the truss; the rod is pin connected at both ends. The truss is attached to the wall by a pin at A and another cable (there are 3 cables at point H). Find the internal force in members AE, CH, EC, and EF. H cable cable 8' pin B с cable 8' 3' 3' rod E F 6' 1' 1.5' 2'> sign: 6'x 8', 1000 lb
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter5: Three-dimensional Equilibrium
Section: Chapter Questions
Problem 5.26P: The figure shows the FBD of a portion of the space truss shown in Fig. P5.25. Use this FBD to find...
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