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Consider a 6 m beam pinned at A with a roller support at B. The beam is subjected to a uniform distributed load W-6.6 kN/m applied between 0 m and 2 m, concentrated loads P=11 kN and Q-10 kN. In section 0 m to 2 m of the beam, determine the location in meters of the maximum internal bending moment. Consider point A having a position of 0 m. Provide 2-decimal place precision in your answer. ↓² (m) 0 W

Consider a 6 m beam pinned at A with a roller support at B. The beam is subjected to a uniform distributed load W-6.6 kN/m applied between 0 m and 2 m, concentrated loads P=11 kN and Q-10 kN. In section 0 m to 2 m of the beam, determine the location in meters of the maximum internal bending moment. Consider point A having a position of 0 m. Provide 2-decimal place precision in your answer. ↓² (m) 0 W

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Question 8 Consider a 6 m beam pinned at A with a roller support at B. The beam is subjected to a uniform distributed load W=6.6 kN/m applied between 0 m and 2 m, concentrated loads P=11 kN and Q-10 kN. In section 0 m to 2 m of the beam, determine the location in meters of the maximum internal bending moment. Consider point A having a position of 0 m. Provide 2-decimal place precision in your answer. W Q
Transcribed Image Text:Question 8 Consider a 6 m beam pinned at A with a roller support at B. The beam is subjected to a uniform distributed load W=6.6 kN/m applied between 0 m and 2 m, concentrated loads P=11 kN and Q-10 kN. In section 0 m to 2 m of the beam, determine the location in meters of the maximum internal bending moment. Consider point A having a position of 0 m. Provide 2-decimal place precision in your answer. W Q
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