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1. In the CLEVIS shown, find the minimum bolt diameter and the minimum thickness of each yoke that will support a load P=400KN without exceeding a shearing stress of 300MPa and bearing stress of 140MPa. Need Free Body Diagram. Figure, YOKES 2. In the figure shown, the rigid beam BC is supported by rods (1) and (2) that have cross-sectional areas of 175mm² and 300mm², respectively. For a uniformly distributed load of w=15kN/m, determine the normal stress in each rod. Neglect the beam's weight. Need Free Body Diagram. Figure, B w 15 kN/m 1.8 m L=3m (2)

1. In the CLEVIS shown, find the minimum bolt diameter and the minimum thickness of each yoke that will support a load P=400KN without exceeding a shearing stress of 300MPa and bearing stress of 140MPa. Need Free Body Diagram. Figure, YOKES 2. In the figure shown, the rigid beam BC is supported by rods (1) and (2) that have cross-sectional areas of 175mm² and 300mm², respectively. For a uniformly distributed load of w=15kN/m, determine the normal stress in each rod. Neglect the beam's weight. Need Free Body Diagram. Figure, B w 15 kN/m 1.8 m L=3m (2)

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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1. In the CLEVIS shown, find the minimum bolt diameter and the minimum thickness of each yoke that will support a load P=400KN without exceeding a shearing stress of 300MPa and bearing stress of 140MPa. Need Free Body Diagram. Figure, YOKES 2. In the figure shown, the rigid beam BC is supported by rods (1) and (2) that have cross-sectional areas of 175mm² and 300mm², respectively. For a uniformly distributed load of w=15kN/m, determine the normal stress in each rod. Neglect the beam's weight. Need Free Body Diagram. Figure, 'w 15 kN/m 1.8 m L = 3 m 0 (2)
Transcribed Image Text:1. In the CLEVIS shown, find the minimum bolt diameter and the minimum thickness of each yoke that will support a load P=400KN without exceeding a shearing stress of 300MPa and bearing stress of 140MPa. Need Free Body Diagram. Figure, YOKES 2. In the figure shown, the rigid beam BC is supported by rods (1) and (2) that have cross-sectional areas of 175mm² and 300mm², respectively. For a uniformly distributed load of w=15kN/m, determine the normal stress in each rod. Neglect the beam's weight. Need Free Body Diagram. Figure, 'w 15 kN/m 1.8 m L = 3 m 0 (2)
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