San Francisco State University



San Francisco State University

School of Engineering

Course Outline for ENGR 101: Engineering Graphics Lab

Required

Civil and Mechanical Engineering

Bulletin Description

ENGR 101: Engineering Graphics (1 unit)

Prerequisite: Must be taken concurrently with ENGR 100

Engineering drawing as means of communication. Principals of engineering graphics. Free hand sketching, and introduction to hand drawings. In addition, introducing AutoCAD and AutoCAD commands. Engineering drawing with AutoCAD; orthographic projection; lines and dimensioning; reading blueprints; normal, inclined and cylindrical surfaces; sectional views.

Textbooks

• Gary R. Bertoline, Introduction to Graphics Communications for Engineers. 4th ed.

McGraw–Hill, 2002. ISBN 978-0-07-352264-7

• Mark Dix. Introduction to AutoCAD. 2nd ed. Prentice Hall, 2000–2005. (optional)

References

• James D. Bethune. Engineering Graphics with AutoCAD 2004. Pearson Prentice Hall, 2004.

• Mark N. Horenstein. Design Concepts For Engineers. Prentice Hall, 1999.

References are available in the library reserve room.

Coordinator

Amir M. Tabrizi, Lecturer and Computing Facility manager

Prerequisites by Topics

High school algebra and trigonometry

Basic knowledge of math and geometric functions

Student Learning Objectives[1]

1. To develop visual thinking skills associated with common graphic

projections. [k]

2. To familiarize students with the principles of engineering hand drawing

(Sketching, Orthographic, Normal Surface, Cylindrical Surface, Inclined Surface,

and Sectional Views). [k]

3. To teach the elementary use of computer drafting by using CAD software (lines,

dimensions, curves, tolerance and isometric drawings). [k]

4. To familiarize students with the basic reading and interpreting of blue prints. [k]

Topics

1. Principles of Engineering Graphics

2. Free–hand lettering

3. Free–hand sketching

4. Orthographic projection

5. Normal surfaces

6. Inclined surfaces

7. Cylindrical surfaces

8. Sectional views

9. Lines and dimensions

10. Tolerances

11. CAD drawings

12. Drafting geometry with CAD software

13. Isometric drawings using CAD software

14. Interpreting blueprints

Evaluations

1. Homework…..…………………………….50%

2. One midterm exams………………………25%

3. Final exam.………………………………..25%

Performance Criteria[2]

Objective 1

1.1 Students will have a basic knowledge of orthographic projections and sectional views. [1, 2]

Objective 2

2.1 Students will have a basic knowledge of isometric projection. [1, 2]

Objective 3

3.1 Students will use AutoCAD software to generate drawings. [1, 2]

Objective 4

1. Students will learn drafting geometry, dimensions, engineering graphics, tolerances, and the interpretation of blueprints. [1, 2, 3]

Spring Semester, 2016

Instructor: Amir Tabrizi

Office: SCI-144

Phone: (415) 338-6181

E-mail: atabrizi@sfsu.edu

Class/Laboratory Schedule

One 2-hour 45 minute lab session/week

Prepared by

Amir Tabrizi, Spring, 2011

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[1] Numbers in brackets refer to objectives and Abet outcomes of the School of Engineering

[2] Numbers in brackets refer to evaluation methods used to assess student performance.

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