Two forces are applied to an AISI 1050 HR post BD, as indicated. Knowing that the cross section of the vertical part of the post is 1.5 X 2.4 in., 1- Find the state of stress for the most critical point on the round shaft (i.e., point H) 2- build the mohr's circle at point H. 3- Apply the failure theories to find the factor of safety. 4-Calculate the total strain energy in the post BD. 5-Find the deflection of point C using Castigliano's theorem in the direction of force 500 Ib. 6-Find the factor of safety of the post BD using the langer-static criterion, 7-Draw the the langer static criterion and locate the load line. 6000 lb 4 in. 1 in. 1.5 in. 3.25 in. D B 2.4 in. 1.75 in. 500 lb 6 in.
Two forces are applied to an AISI 1050 HR post BD, as indicated. Knowing that the cross section of the vertical part of the post is 1.5 X 2.4 in., 1- Find the state of stress for the most critical point on the round shaft (i.e., point H) 2- build the mohr's circle at point H. 3- Apply the failure theories to find the factor of safety. 4-Calculate the total strain energy in the post BD. 5-Find the deflection of point C using Castigliano's theorem in the direction of force 500 Ib. 6-Find the factor of safety of the post BD using the langer-static criterion, 7-Draw the the langer static criterion and locate the load line. 6000 lb 4 in. 1 in. 1.5 in. 3.25 in. D B 2.4 in. 1.75 in. 500 lb 6 in.
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
Related questions
Question
Calculate the total strain energy in the post BD
![Two forces are applied to an AISI 1050 HR post BD, as indicated. Knowing that the
cross section of the vertical part of the post is 1.5 X 2.4 in.,
1- Find the state of stress for the most critical point on the round shaft (i.e., point H)
2- build the mohr's circle at point H.
3- Apply the failure theories to find the factor of safety.
4-Calculate the total strain energy in the post BD.
5-Find the deflection of point C using Castigliano's theorem in the direction of force 500
Ib.
6-Find the factor of safety of the post BD using the langer-static criterion,
7-Draw the the langer static criterion and locate the load line.
6000 lb
Z
4 in.
1 in.
y
1.5 in.
3.25 in.
D
B
2.4 in.
1.75 in.
H
500 lb
6 in.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc033db38-df94-4ad4-b846-3ba4b6b381f8%2F9b2a4a4f-af5c-4c59-8720-e693d1633822%2Fd5kua7k_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Two forces are applied to an AISI 1050 HR post BD, as indicated. Knowing that the
cross section of the vertical part of the post is 1.5 X 2.4 in.,
1- Find the state of stress for the most critical point on the round shaft (i.e., point H)
2- build the mohr's circle at point H.
3- Apply the failure theories to find the factor of safety.
4-Calculate the total strain energy in the post BD.
5-Find the deflection of point C using Castigliano's theorem in the direction of force 500
Ib.
6-Find the factor of safety of the post BD using the langer-static criterion,
7-Draw the the langer static criterion and locate the load line.
6000 lb
Z
4 in.
1 in.
y
1.5 in.
3.25 in.
D
B
2.4 in.
1.75 in.
H
500 lb
6 in.
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