1. Define
working drawings. p. 580
2. Describe
how working drawings are used in industry. pp. 582-592
3. List the
major components of a complete set of working drawings. p. 582
4. Describe the differences between detail and assembly drawings. pp. 582-592
5. Describe how part numbers, zoning, and tables are used on working
drawings. pp. 582-592
6. Draw standard representations of threads.
p. 604
7. Specify a metric or English thread in a note. p. 597
8. Use the graphic language of mechanisms such as gears, cams,
bearings, and linkages. pp. 610-612
9. Interpret the specialized graphic language used in welding
drawings. pp. 612-615
10. Describe the process
of creating assembly models in modern CAD systems. p. 576
11. Differentiate between top-down modeling and
bottom-up modeling techniques for assembly. pp. 617-619
12. Describe file formats used in current model
data exchange and archival practices. pp. 617-619
1. Define working drawings.
2. List the types of drawings commonly found in a complete set of
working drawings.
3. List the types of assembly drawings.
4. Describe
a family of parts.
5. What
type of drawing is used for a family of parts?
6. Define a
subassembly.
7. What is
zoning?
8. List the
important items in a parts list.
9. List the
important items in a title block.
10. What is a
revision block?
11. Describe
how CAD is used to create working drawings.
12. Define
fastening.
13. Identify the different parts of the following thread note: ½-13UNC-2B.
14. Sketch and identify the three methods of representing threads on
engineering drawings.
15. Describe how CAD can
be used to represent fasteners on a drawing.
16. Sketch the five basic types of welded joints and name them.
17. There are eight basic parts to a welding symbol. Sketch and name the
eight parts.
18. Describe
three CAD neutral files for data exchange.
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