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or the beam shown below, given that AC = 18 ft, BC = 5 ft, P =  2 kips, and w = 3 kips/ft, calculate the internal bending moment at cross section of C of the beam: ____k-ft. Input the negative sign "-" if it is negative, and calculate your answer to 1 decimal place.

or the beam shown below, given that AC = 18 ft, BC = 5 ft, P =  2 kips, and w = 3 kips/ft, calculate the internal bending moment at cross section of C of the beam: ____k-ft. Input the negative sign "-" if it is negative, and calculate your answer to 1 decimal place.

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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For the beam shown below, given that AC = 18 ft, BC = 5 ft, P =  2 kips, and w = 3 kips/ft, calculate the internal bending moment at cross section of C of the beam: ____k-ft.

Input the negative sign "-" if it is negative, and calculate your answer to 1 decimal place.

  

**Problem Statement:** For the beam shown below, given that AC = 18 ft, BC = 5 ft, P = 2 kips, and w = 3 kips/ft, calculate the internal bending moment at the cross-section of C of the beam: _____ k-ft. Input the negative sign "-" if it is negative, and calculate your answer to 1 decimal place. **Diagram Explanation:** The diagram shows a horizontal beam fixed at point C and extending to point A. The total length from A to C is 18 ft, with a portion from B to C measuring 5 ft. There is a point load P = 2 kips applied at point 8 ft from A, and a uniformly distributed load (UDL) w of 3 kips/ft along the length of the beam from A to C. The task is to calculate the internal bending moment at point C.
Transcribed Image Text:**Problem Statement:** For the beam shown below, given that AC = 18 ft, BC = 5 ft, P = 2 kips, and w = 3 kips/ft, calculate the internal bending moment at the cross-section of C of the beam: _____ k-ft. Input the negative sign "-" if it is negative, and calculate your answer to 1 decimal place. **Diagram Explanation:** The diagram shows a horizontal beam fixed at point C and extending to point A. The total length from A to C is 18 ft, with a portion from B to C measuring 5 ft. There is a point load P = 2 kips applied at point 8 ft from A, and a uniformly distributed load (UDL) w of 3 kips/ft along the length of the beam from A to C. The task is to calculate the internal bending moment at point C.
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