2. A concrete beam is shown below. A. Determine the magnitude of the resultant force acting on the beam (2 decimal places) B. The distance of resultant force from the left edge (3 decimal places) C. If the loads will be replaced by a single force located at the left edge, what moment must be paired with it (Clockwise positive) to be equivalent to the original loads? (2 decimal places) w, w, M Given W1 = 11 kN/m %3D W2 = 14 kN/m M = 4.3 kNm L1 = 4.1 m %3D L2 =1.9 m

2. A concrete beam is shown below. A. Determine the magnitude of the resultant force acting on the beam (2 decimal places) B. The distance of resultant force from the left edge (3 decimal places) C. If the loads will be replaced by a single force located at the left edge, what moment must be paired with it (Clockwise positive) to be equivalent to the original loads? (2 decimal places) w, w, M Given W1 = 11 kN/m %3D W2 = 14 kN/m M = 4.3 kNm L1 = 4.1 m %3D L2 =1.9 m

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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Question

2. A concrete beam is shown below.
A. Determine the magnitude of the resultant force acting on the beam (2 decimal places)
B. The distance of resultant force from the left edge (3 decimal places)
C.If the loads will be replaced by a single force located at the left edge, what moment must be
paired with it (Clockwise positive) to be equivalent to the original loads? (2 decimal places)
w,
w,
M
Given
W1 = 11 kN/m
W2 = 14 kN/m
%3D
M = 4.3 kNm
L1 = 4.1 m
L2 =1.9 m

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