Which of the following simulations can be done as a rigid-body analysis? O 1) Checking whether a pressure vessel will fail under service load O2) Calculating the reaction force at the base of a robot arm when it carries a light object O 3) Find the maximum deformation of a bike crank under service load O4) Simulating a crack propagation in an airplane

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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3. Question
Which of the following simulations can be done as a rigid-body analysis?
O 1) Checking whether a pressure vessel will fail under service load
O 2) Calculating the reaction force at the base of a robot arm when it carries a light object
O 3) Find the maximum deformation of a bike crank under service load
4) Simulating a crack propagation in an airplane
4. Question
What would an engineer do when converting the helicopter pitch arm to a numerical model and conducting the
simulation? (Select all applicable)
1) Conduct hand calculation to solve the governing equations and obtain the stress distribution
2) Determine the boundary condition of the pitch arm
3) Choose a proper material model for the pitch arm
4) Include all the details of the geometry to make the model accurate
5. Question
Select the correct statement/s about the helicopter pitch arm simulation
O 1) The engineering design has the lightest weight thus is the best design
2) The topology optimized design has a good balance between weight and stiffness and stress distribution
and thus is the best option
O 3) The raw design has the highest stiffness and thus should be used
O
4) The topology optimized design has the best overall performance and should be used for massive
production
Transcribed Image Text:3. Question Which of the following simulations can be done as a rigid-body analysis? O 1) Checking whether a pressure vessel will fail under service load O 2) Calculating the reaction force at the base of a robot arm when it carries a light object O 3) Find the maximum deformation of a bike crank under service load 4) Simulating a crack propagation in an airplane 4. Question What would an engineer do when converting the helicopter pitch arm to a numerical model and conducting the simulation? (Select all applicable) 1) Conduct hand calculation to solve the governing equations and obtain the stress distribution 2) Determine the boundary condition of the pitch arm 3) Choose a proper material model for the pitch arm 4) Include all the details of the geometry to make the model accurate 5. Question Select the correct statement/s about the helicopter pitch arm simulation O 1) The engineering design has the lightest weight thus is the best design 2) The topology optimized design has a good balance between weight and stiffness and stress distribution and thus is the best option O 3) The raw design has the highest stiffness and thus should be used O 4) The topology optimized design has the best overall performance and should be used for massive production
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