MET 316 Lecture Notes - Lecture 6: Pneumatics, Gantt Chart, Centroid
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3. research and generate ideas
4. identify criteria and specify constraints
5. explore possibilities
6. develop a design proposal
7. make a model or prototype
8. test and evaluate the design using specifications
9. refine the design
10. create or make a solution
11. communicate processes and results
define a problem
identify a problem that exists
determine the root cause
gather information
brainstorm
present ideas in group
generate and record ideas
seek quantity not quality
keep the mind alert through rapidly paced sessions
research and generate ideas
analyze the reasons for the need, want, or problem
investigate who/what is affected
research existing solutions
identify criteria and specify constraints
identify the end use
identify what the solution must do
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explore possibilities
initiate further development of brainstorming ideass
develop a design proposal
develop detailed and annotated sketches
make a model or prototype
make study models
test and evaluate the design using specifications
test the prototype under controlled conditions
refine the design
reassess the validity of the design criteria and make adjustments to the design brief
communicate processes and results
present oral presentations with visual aids
develop written reports with appropriate graphic documentation
parametric equations
geometric constraints, parametric constraints, assembly constraints
geometric constraints
perpendicular, parallel, tangent, coincident, concentric, collinear, horizontal, vertical, equal, fix,
symmetric
parametric constraints
used to control the size and location of geometry and may take the form of abstract algebraic formulas
assembly constraints
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