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Introduction To Mechanical Engineering Design

Instructions:

Answer 47 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Settling into place
Reliability
Black box/transparent box
Norming
Dissection/Reverse engineering

2. A way to measure achievement of an objective
Final documentation
Metrics
6-3-5 method
Clients problem statement

3. Values for attributes
Prescriptive requirements
Conceptual design
Adjourning
Dimensional consistency

4. In a design with multiple systems the points where systems could interact with each other are known as boundaries.
Interface requirements
Preliminary design
Dissection/Reverse engineering
Gallery method

5. Take apart a similar item asking - 'How does it do that?'
Client
Dissection/Reverse engineering
Final documentation
Problem definition

6. Absolute limits - what the design MUST do
Parallel system
Requirements
Adjourning
Prescriptive requirements

7. Those who want the product
Problem definition
Symbolic analogy
Client
Parallel system

8. 'If I were the object...'
Dissection/Reverse engineering
Manufacturability
Metrics
Personal analogy

9. ANY part must function for the system to work
Storming
C- sketch method
Conceptual design
Parallel system

10. How an attribute or behavioral will be calculated
Procedural requirements
Performance requirements
Reliability
Storming

11. Drawings showing how individual parts should fit together
Interface requirements
Performance requirements
Client
Assembly drawings

12. Something related that serves a different purpose
Clients problem statement
Final documentation
Continguous solutions
Dimensional consistency

13. Understanding of manufacturing processes - Design for manufacturing process
Manufacturability
Prescriptive requirements
Client
Procedural requirements

14. Generaly vague - possibly biased toward a particular solution - will need to be revised
Procedural requirements
Clients problem statement
Reliability
Contrasting solutions

15. Size is proportional to how many designs there are
Forming
Design space
Norming
Performance requirements

16. Things that the design must NOT be or do
C- sketch method
Contrasting solutions
Performing
Constraints

17. Presentation - report
Design communication
Performance requirements
Reliability
Client

18. Team is called together
Problem definition
Interface requirements
Forming
Final documentation

19. ALL parts must function for system to work
Direct analogy
Final documentation
Designer
Series system

20. Model and analyze the chosen design - test and evaluate the chosen design
Function
Contrasting solutions
Preliminary design
Problem definition

21. Project finished
Enumeration
Parallel system
Objectives
Adjourning

22. Actual work
Performing
Forming
Procedural requirements
Continguous solutions

23. Everyone comments on the sketches
User
Interface requirements
Gallery method
Continguous solutions

24. Establish funcions - establish requirements - establish means for functions - generate design alternatives - refine and apply metrics to design alternatives - choose a design
Conceptual design
C- sketch method
Metrics
Detailed design

25. What if I were to do the opposite?
Dimensional consistency
Metrics
Designer
Contrasting solutions

26. Written ideas are replaced with sketches
Storming
Affordability
Function
C- sketch method

27. List functions as they come to you
Enumeration
Reliability
Dimensional consistency
Function

28. Drawings of individual parts with every detail filled in
Detail drawings
Black box/transparent box
Storming
Metrics

29. Clarify objectives - establish metrics for objectives - identify constraints - revise clients problem statement
Fantasy analogy
Function means tree
Detailed design
Problem definition

30. Presentation - report
Final documentation
Preliminary design
Forming
Design space

31. # of group members - # of ideas - (# of group members -1)
Gallery method
6-3-5 method
Preliminary design
Black box/transparent box

32. Refine and optimize chosen design - assign and fix design details
Performance requirements
Detailed design
User
Continguous solutions

33. Specific units in yeild specific units out
User
Enumeration
Dimensional consistency
Prescriptive requirements

34. Engineering economics
Affordability
Function
Problem definition
Adjourning

35. If this were a sci- fi scenario
Dissection/Reverse engineering
Requirements
Symbolic analogy
Fantasy analogy

36. The task that the object has to perform
Function
Parallel system
Affordability
Designer

37. Who will lead
Dimensional consistency
Constraints
Storming
Symbolic analogy

38. A box that list the various inputs and outputs to a system.
Black box/transparent box
Direct analogy
Interface requirements
Procedural requirements

39. Those who will use the final product
Fantasy analogy
User
Metrics
Problem definition

40. What should it be?
Designer
Layout drawings
Objectives
Personal analogy

41. Something is physically like something else
Direct analogy
Designer
Personal analogy
Preliminary design

42. Describe successful functional behavior
Layout drawings
Performance requirements
Assembly drawings
Detail drawings

43. Probablility that a system will not fail
Reliability
Metrics
6-3-5 method
Function

44. Using metaphors and similies
Personal analogy
Reliability
User
Symbolic analogy

45. Start with one function - expand each branch until it is no longer practical
Symbolic analogy
Function means tree
6-3-5 method
Storming

46. Those who create the desired design
Storming
Designer
Reliability
Personal analogy

47. Working drawings showing major parts - without tolerances
Conceptual design
Affordability
Function means tree
Layout drawings