B. A load W is to be lifted using the crane which is hinged at B as shown in figure 2. Neglecting the weight of thecrane.1. Determine the force of cable AC.2. Determine the resultant reaction at B.3. Determine the largest load that can be lifted if the maximum force of cable AAC is 50 kN.x=10 mx=8 m20 KN18 mI E. To transfer loads from frame A to one end of the river to frame C at the other end, high strengthcables are used. When the load W is at a distance x₁ = 10m and x₂ = 15m, the sag in the cable atB = 3m. (Figure 5)1. What maximum load W (kN) can be transported if the max. tensile of the cable AB is 195kN?x-102. What is the total length (m) of the cable at the given location of the load W?3. Find the tension (kN) in the cable segment DC if W = 40kN.25 mB*15I

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B. A load W is to be lifted using the crane which is hinged at B as shown in figure 2. Neglecting the weight of the crane. 1. Determine the force of cable AC. 2. Determine the resultant reaction at B. 3. Determine the largest load that can be lifted if the maximum force of cable AAC is 50 kN. x₁ = 10 m x = 8 m 20 KN 3 18 m I

B. A load W is to be lifted using the crane which is hinged at B as shown in figure 2. Neglecting the weight of the crane. 1. Determine the force of cable AC. 2. Determine the resultant reaction at B. 3. Determine the largest load that can be lifted if the maximum force of cable AAC is 50 kN. x₁ = 10 m x = 8 m 20 KN 3 18 m I

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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