**Problem 4:**Assume the loads applied to the beam result in a uniformly horizontally distributed load once transferred to the cable. The loads have magnitudes \( P_1 = 8 \, \text{k} \) and \( P_2 = 10 \, \text{k} \). What is the distributed load acting on the cable \( w_y \) and what are the vertical support reactions at \( A \) and \( C \)?**Diagram Explanation:**- The diagram shows a beam supported at points \( A \) and \( C \) with vertical supports labeled \( A_y \) and \( C_y \).- The beam is subjected to loads \( P_1 \) and \( P_2 \) located between points \( A \) and \( C \).- The distance between \( A \) and the point of application of \( P_1 \) is 3 ft vertically. - The load \( P_1 = 8 \, \text{k} \) acts downward from the beam.- The load \( P_2 = 10 \, \text{k} \) acts downward from a point 4 ft horizontally from the point where load \( P_1 \) acts.- There are horizontal reactions \( B_x \) and \( E_x \) at points \( B \) and \( E \), respectively.- The beam structure has multiple interconnecting rods, giving it an architectural truss-like appearance.- The diagram includes dimensions marking the spacing between supports and loads, highlighting key measurements for analysis.

Problem 4) Assume the loads applied to the beam result in a uniformly horizontally distributed load once transferred to the cable. The loads have magnitudes P = 8 k and P2 = 10 k. What is the distributed load acting on the cable w and what are the vertical support reactions at A and C? E D 4 ft l space 8 ft dest est A B P1 P2 cy Ay 3 ft 4 ft 8 ft 14 ft 3 ft 8 ft

Problem 4) Assume the loads applied to the beam result in a uniformly horizontally distributed load once transferred to the cable. The loads have magnitudes P = 8 k and P2 = 10 k. What is the distributed load acting on the cable w and what are the vertical support reactions at A and C? E D 4 ft l space 8 ft dest est A B P1 P2 cy Ay 3 ft 4 ft 8 ft 14 ft 3 ft 8 ft

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

**Problem 4:**
Assume the loads applied to the beam result in a uniformly horizontally distributed load once transferred to the cable. The loads have magnitudes \( P_1 = 8 \, \text{k} \) and \( P_2 = 10 \, \text{k} \). What is the distributed load acting on the cable \( w_y \) and what are the vertical support reactions at \( A \) and \( C \)?

**Diagram Explanation:**

- The diagram shows a beam supported at points \( A \) and \( C \) with vertical supports labeled \( A_y \) and \( C_y \).
- The beam is subjected to loads \( P_1 \) and \( P_2 \) located between points \( A \) and \( C \).
- The distance between \( A \) and the point of application of \( P_1 \) is 3 ft vertically.
- The load \( P_1 = 8 \, \text{k} \) acts downward from the beam.
- The load \( P_2 = 10 \, \text{k} \) acts downward from a point 4 ft horizontally from the point where load \( P_1 \) acts.
- There are horizontal reactions \( B_x \) and \( E_x \) at points \( B \) and \( E \), respectively.
- The beam structure has multiple interconnecting rods, giving it an architectural truss-like appearance.
- The diagram includes dimensions marking the spacing between supports and loads, highlighting key measurements for analysis.

Expert Solution

Given data and to determine

A loaded beam is given in the as shown and it has been asked to determine intensity of uniformly distributed load, reaction at C and A.

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