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First we will analyze the situation when P-500 N. The connection at A is a pin and the connection at E is a roller. The free-body diagram is: 3360 N

First we will analyze the situation when P-500 N. The connection at A is a pin and the connection at E is a roller. The free-body diagram is: 3360 N

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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IMPORTANT NOTE: PLEASE ANSWER PART 4 ONLY ASAP!! Answer in part 1: 2950.23N Answer in part 2: -1321.27N Answer in part 3: 2438.72N
Part 1 First we will analyze the situation when P- 500 N. The connection at A is a pin and the connection at E is a roller. The free-body diagram is: A₂ # E₂ Find the force Ex Answer: Ex-1 Part 4 3360 N Part 2 Next, find the force Ax. 500 N Answer: Ax= Part 3 N Save for Later Find the force Ay. Answer: Ay= i Answer: Pmaxi Save for Later Save for Later What is the maximum value which P may have for static equillibrium? Note that P is no longer equal to 500 N for this part of the question. eTextbook and Media N N N
Transcribed Image Text:Part 1 First we will analyze the situation when P- 500 N. The connection at A is a pin and the connection at E is a roller. The free-body diagram is: A₂ # E₂ Find the force Ex Answer: Ex-1 Part 4 3360 N Part 2 Next, find the force Ax. 500 N Answer: Ax= Part 3 N Save for Later Find the force Ay. Answer: Ay= i Answer: Pmaxi Save for Later Save for Later What is the maximum value which P may have for static equillibrium? Note that P is no longer equal to 500 N for this part of the question. eTextbook and Media N N N
Determine the reactions at A and E if P = 500 N. What is the maximum value which P may have for static equilibrium? Neglect the weight of the structure compared with the applied loads. 3360 N 29% B $ D E - 3.5 mi 3.5 m 2.3 m C P
Transcribed Image Text:Determine the reactions at A and E if P = 500 N. What is the maximum value which P may have for static equilibrium? Neglect the weight of the structure compared with the applied loads. 3360 N 29% B $ D E - 3.5 mi 3.5 m 2.3 m C P
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