Brandon is trying to create a cool shelf bracket using pipes like he saw on Instagram. He is concerned about the pipe unscrewing from the wall bracket at A. He wants to know how likely it is that it will unscrew. Using some combination of drawings and written statements, answer the following questions. 1) What moment direction/axis would be critical to the pipe unscrewing at A? 2) Based on the current geometry, which force direction of F is most likely to create the moment described in part 1? 3) If the weight of the books acts only downwards, how could he modify his bracket so it cannot unscrew? You can use any combination of the parts shown (no need to use all of them). Show where the now vertical load F will be applied. Explain why your new design will be less likely to get unscrewed at A. x 0.5 m 0.4 m 0.3 m 0.3 m

Brandon is trying to create a cool shelf bracket using pipes like he saw on Instagram. He is concerned about the pipe unscrewing from the wall bracket at A. He wants to know how likely it is that it will unscrew. Using some combination of drawings and written statements, answer the following questions. 1) What moment direction/axis would be critical to the pipe unscrewing at A? 2) Based on the current geometry, which force direction of F is most likely to create the moment described in part 1? 3) If the weight of the books acts only downwards, how could he modify his bracket so it cannot unscrew? You can use any combination of the parts shown (no need to use all of them). Show where the now vertical load F will be applied. Explain why your new design will be less likely to get unscrewed at A. x 0.5 m 0.4 m 0.3 m 0.3 m

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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Concept explainers

Free Body Diagram

The system of forces acting on a body tends to either rotate it or make the body undergo motion. In general, when an external agent exerts a force on a body, the body undergoes translational motion and rotational motion. The body has six degrees of freedom under the influence of that force. Here, three degrees of freedom are from the translational motion while the other three are from the rotation motion. However, sometimes the bodies are not allowed to undergo any motion and are fixed, under such conditions the body is said to be constrained.

Question

Brandon is trying to create a cool shelf bracket using pipes like he saw on Instagram. He is concerned
about the pipe unscrewing from the wall bracket at A. He wants to know how likely it is that it will
unscrew.
Using some combination of drawings and written statements, answer the following questions.
1)
What moment direction/axis would be critical to the
pipe unscrewing at A?
2) Based on the current geometry, which force direction
of F is most likely to create the moment described in part 1?
3) If the weight of the books acts only downwards, how
could he modify his bracket so it cannot unscrew? You can use
any combination of the parts shown (no need to use all of them).
Show where the now vertical load F will be applied. Explain why
your new design will be less likely to get unscrewed at A.
x
B
0.5 m
0.4 m
A
0.3 m
0.3 m

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