identify the largest positive shear force. Assume a = 5.3 ft, b = 10.6 ft, c = 21.2 ft, w = 1150 lb/ft, and P = 1300 lb. Construct the shear force diagram for the beam. Determine the shear force at the following points: x = 5.3 ft. (-) (i.e.

identify the largest positive shear force. Assume a = 5.3 ft, b = 10.6 ft, c = 21.2 ft, w = 1150 lb/ft, and P = 1300 lb. Construct the shear force diagram for the beam. Determine the shear force at the following points: x = 5.3 ft. (-) (i.e.

Architectural Drafting and Design (MindTap Course List)

7th Edition

ISBN:9781285165738

Author:Alan Jefferis, David A. Madsen, David P. Madsen

Publisher:Alan Jefferis, David A. Madsen, David P. Madsen

Chapter14: Legal Descriptions And Site Plan Requirements

Section: Chapter Questions

Problem 14.34Q

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Question

Construct the shear-force diagram and identify the largest positive shear force. Assume a = 5.3 ft, b = 10.6 ft, c = 21.2 ft, w = 1150 lb/ft, and P = 1300 lb.

Construct the shear force diagram for the beam. Determine the shear force at the following points:

x = 5.3 ft. (-) (i.e. just to the left of point B)
x = 5.3 ft. (+) (i.e. just to the right of point B)
x = 15.9 ft. (-) (i.e. just to the left of point C)
x = 15.9 ft. (+) (i.e. just to the right of point C

Answer:

V_{x = 5.3 ft. (-)} = lb
V_{x = 5.3 ft. (+)} = lb
V_{x = 15.9 ft. (-)} = lb
V_{x = 15.9 ft. (+)} = lb

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