procedu Mnnjos io aun d au Problem 3. What do you think you have to do now? Yes. An equilibrium 2D problem! Do not use decimals. Distances should be integers between 1 to 6 meters. The body is a cylinder of known radius (integer number) and known mass (you decide). You will decide the type of supports that are holding the body at rest. Two known external non-parallel forces and a known external couple are applied at the body. One external force must be a diagonal and its slope marked with a known triangle (So sorry, again). Write 3 equations for equilibrium and solve them numerically. Draw the free body diagram and show the procedure of the solution.
procedu Mnnjos io aun d au Problem 3. What do you think you have to do now? Yes. An equilibrium 2D problem! Do not use decimals. Distances should be integers between 1 to 6 meters. The body is a cylinder of known radius (integer number) and known mass (you decide). You will decide the type of supports that are holding the body at rest. Two known external non-parallel forces and a known external couple are applied at the body. One external force must be a diagonal and its slope marked with a known triangle (So sorry, again). Write 3 equations for equilibrium and solve them numerically. Draw the free body diagram and show the procedure of the solution.
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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Hello, i am asked to create my own statics problem, here are the specifications. Thank you very much!!!!
Transcribed Image Text:procedu
Mnnjos io aun d au
Problem 3. What do you think you have to do now? Yes. An equilibrium 2D problem!
Do not use decimals.
Distances should be integers between 1 to 6 meters.
The body is a cylinder of known radius (integer number) and known mass (you decide).
You will decide the type of supports that are holding the body at rest.
Two known external non-parallel forces and a known external couple are applied at the body.
One external force must be a diagonal and its slope marked with a known triangle (So sorry, again).
Write 3 equations for equilibrium and solve them numerically.
Draw the free body diagram and show the procedure of the solution.
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