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The following box beam is constructed from four boards that are fastened together using nails. A force P is applied to the end of the beam, 8ft from the fixed support. There is a compressive 500lb force applied horizontally at the bottom of the beam. The nails used to support the bottom board (at A) are spaced every 3 inches and the nails along the top board (at B) are spaced every 2 inches. The nails can support a force F = 350 lb. Based on the strength of the nails, determine the а. maximum allowable force P that can be applied to the beam as shown. b. Point C is located on top surface in the middle of the beam. Identify the state of stress at point C. (No differential needed) P 4 ft C 10in O O O 0 OO 500 lb O O0 O0 0 0 OOO OO - 8 ft 10 in it C T 2in A 8.n lin lin

The following box beam is constructed from four boards that are fastened together using nails. A force P is applied to the end of the beam, 8ft from the fixed support. There is a compressive 500lb force applied horizontally at the bottom of the beam. The nails used to support the bottom board (at A) are spaced every 3 inches and the nails along the top board (at B) are spaced every 2 inches. The nails can support a force F = 350 lb. Based on the strength of the nails, determine the а. maximum allowable force P that can be applied to the beam as shown. b. Point C is located on top surface in the middle of the beam. Identify the state of stress at point C. (No differential needed) P 4 ft C 10in O O O 0 OO 500 lb O O0 O0 0 0 OOO OO - 8 ft 10 in it C T 2in A 8.n lin lin

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
Problem 1.1MA
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The following box beam is constructed from four boards that are fastened together using nails. A force P is applied to the end of the beam, 8ft from the fixed support. There is a compressive 500lb force applied horizontally at the bottom of the beam. The nails used to support the bottom board (at A) are spaced every 3 inches and the nails along the top board (at B) are spaced every 2 inches. a. The nails can support a force F = 350 lb. Based on the strength of the nails, determine the maximum allowable force P that can be applied to the beam as shown. b. Point C is located on top surface in the middle of the beam. Identify the state of stress at point C. (No differential needed) P 4 ft C 10in 500 lb O O O C 8 ft 10in it T 2in A 8.n lin lin
Transcribed Image Text:The following box beam is constructed from four boards that are fastened together using nails. A force P is applied to the end of the beam, 8ft from the fixed support. There is a compressive 500lb force applied horizontally at the bottom of the beam. The nails used to support the bottom board (at A) are spaced every 3 inches and the nails along the top board (at B) are spaced every 2 inches. a. The nails can support a force F = 350 lb. Based on the strength of the nails, determine the maximum allowable force P that can be applied to the beam as shown. b. Point C is located on top surface in the middle of the beam. Identify the state of stress at point C. (No differential needed) P 4 ft C 10in 500 lb O O O C 8 ft 10in it T 2in A 8.n lin lin
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