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The boom is intended to support two vertical loads, F1 and F2. If the cable CB can sustain a maximum load of 1440 N before it fails, determine the critical loads if F1 = 3.5F2. Also, what is the magnitude of the maximum reaction at pin 4? (round all answers to two decimal points) The geometry of the problem is as bellow: L1 = 1.6 m, L2 = 1.4 m, angle of A = 35 degrees %3D Fi is: Maximum Tension T kN F2 is: kN FA (magnitude of maximum reaction at point A) is: D. kN Angle A

The boom is intended to support two vertical loads, F1 and F2. If the cable CB can sustain a maximum load of 1440 N before it fails, determine the critical loads if F1 = 3.5F2. Also, what is the magnitude of the maximum reaction at pin 4? (round all answers to two decimal points) The geometry of the problem is as bellow: L1 = 1.6 m, L2 = 1.4 m, angle of A = 35 degrees %3D Fi is: Maximum Tension T kN F2 is: kN FA (magnitude of maximum reaction at point A) is: D. kN Angle A

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The boom is intended to support two vertical loads, F1 and F2. If the cable CB can sustain a maximum load of 1440 N before it fails, determine the critical loads if F1 = 3.5F. Also, what is the magnitude of the maximum reaction at pin A? (round all answers to two decimal points) The geometry of the problem is as bellow: L1 = 1.6 m, L2 = 1.4 m, angle of A = 35 degrees %3D Fi is: Maximum Tension T kN F2 is: kN L2 FA (magnitude of maximum reaction at point A) is: L1 kN Angle A
Transcribed Image Text:The boom is intended to support two vertical loads, F1 and F2. If the cable CB can sustain a maximum load of 1440 N before it fails, determine the critical loads if F1 = 3.5F. Also, what is the magnitude of the maximum reaction at pin A? (round all answers to two decimal points) The geometry of the problem is as bellow: L1 = 1.6 m, L2 = 1.4 m, angle of A = 35 degrees %3D Fi is: Maximum Tension T kN F2 is: kN L2 FA (magnitude of maximum reaction at point A) is: L1 kN Angle A
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