Download - Week 5 Design Lab. Review of Rocket Project Convergent and Divergent thinking Dixon’s Taxonomy
Week 5 Design Lab
Review of Rocket Project
• Convergent and Divergent thinking
• Dixon’s Taxonomy
Converging
• Questions with specific answers
• Optimizing
• Selecting
Unique answer
Answerable QuestionMany Possibilities
Diverging
• Generating new ideas (brainstorming)
New IdeasPosed Problem
Effective Design
• Good design teams go through multiple diverge-converge cycles
• Are effective at transitioning• You must be aware of which process you
are in.
What kind of thinking did you do?
How did divergent thinking apply?
How did convergent thinking apply?
Dixon’s Taxonomy
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
• Describe your final rocket at each state of knowledge
Dixon’s Taxonomy
• Each design problem has initial state and final state of knowledge
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
Dixon’s Taxonomy
• What were the initial and final design states for the last 3 weeks of the rocket project?
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
Dixon’s Taxonomy
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
• What were the initial and final design states for the last 3 weeks of the rocket project?
Dixon’s Taxonomy
• What were the initial and final design states for the first week of the rocket project?
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
Dixon’s Taxonomy
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
• What were the initial and final design states for the first week of the rocket project?
Discussion of Crane Project
• Overview
• Grading
• Necessary Tasks
Crane Base Unit
Two identical base units,one currently located in project lab.
3 HP motor
I-beam pinned
Weights- 70 pounds each
Crane Base Unit
48 inches
Crane Base Unit
Crane Base Unit
Project: Design a truss
•One pulley must be centered above weights at least 36” above the floor.
•Must lift and return the weights to original starting location
Crane Base Unit: Safety Features
These should be considered part of the base unit. Do not remove!
These are a redundant safety feature.
Final “Lift Off”• Last Lab Period of semester- Monday
Dec. 10, Thursday Dec. 13• Two base units operating simultaneously
– ~20 minutes per team, you must be well prepared!
• Three test lifts per team– First lift = 70 pounds– Second lift = your choice– Third lift = your choice- max of 1400 lbs.
Performance Equation
C
WePerformanc
• W = Best weight successfully lifted• C = Cost of materials for crane
C refers to all materials your team takes, whether you end up using it in your crane or not!
Cost and Availability of Materials
• Aluminum is $3 per kilogram.• Price of plastic is $0.80 per kilogram.• Density of each is provided in handout.
• Plastic and aluminum bar stock available in ¼” thickness, various widths.
• Max 75 cu. in. of each material.• Four free “transactions” per team.
Grading•20% of course grade is based on performance•20% of course grade is based on final report
•To earn a passing grade on performance crane must lift 70 lbs.
Grading•20% of course grade is based on performance•20% of course grade is based on final report
•To earn a passing grade on performance crane must lift 70 lbs.
•Lifting the minimum weight with the maximum material will earn a D.
Engineering Tasks
• Truss Design– Compute Forces– Failure Analysis– Optimization– Fabrication
• Materials Testing- Plastic– Select 2 Tests– Conduct Tests– Interpret Results
Engineering Tasks
• Truss Design– Compute Forces– Failure Analysis– Optimization– Fabrication
• Materials Testing- Plastic– Select 2 Tests– Conduct Tests– Interpret Results
CEE and ME are taking statics now, ECE will take in spring
Engineering Tasks
• Truss Design– Compute Forces– Failure Analysis– Optimization– Fabrication
• Materials Testing- Plastic– Select 2 Tests– Conduct Tests– Interpret Results
ChE, CEE and ME students all take one or more courses on materials science
Engineering Tasks
• Truss Design– Compute Forces– Failure Analysis– Optimization– Fabrication
• Materials Testing- Plastic– Select 2 Tests– Conduct Tests– Interpret Results
Rigorous optimization requires programming skills- MATLAB will be used for this project
What kind of thinking will you do?
How will divergent thinking apply?
How will convergent thinking apply?
What kind of project is this?
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
What kind of project is this?
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge
Dixon’s Taxonomy
• Future design problems continue to increase in complexity
Perceived NeedFunctionPhysical PhenomenonEmbodimentArtifact Type
Artifact Instance
Feasibility
States of Knowledge