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148 Engineering

110 120 131
COMPUTER AIDED DESIGN 3D PRINTING AND MODELING ELECTRONICS AND ELECTRICAL
AUTOCAD 2 2.0 Units CIRCUITS
3.0 Units ENGR 120 provides students with the basic 3.0 Units
ENGR 110 is an advanced course in computer knowledge of 3D printing (i.e., additive ENGR 131 is intended for students wishing
aided design. Advanced techniques and manufacturing; rapid prototyping) and to major in engineering at the university
concepts of computer-aided design will modeling, as well as its impact within the level. It provides an introduction to the
be presented with an emphasis on three- engineering and manufacturing community. basic concepts and theory of electricity and
dimensional design and modeling for both Students have the opportunity to explore the magnetism with an emphasis on passive
architectural and engineering applications. interaction between computer aided design electrical elements such as resistors, capaci-
Lecture 1.5 hours/Laboratory 4.5 hours. (CAD), computer aided manufacturing tors and inductors (RCL) and their applica-
Prerequisite: ENGR 109 or equivalent. Trans- (CAM), and additive manufacturing systems tions in alternating current (AC) or direct
fer Credit: CSU, UC, USC. by participating in the design and prototyp- current(DC) circuits. Students also learn
ing of an actual part. Emphasis is placed on how to build, test and analyze simple RCL
111 Fused Deposition Modeling (FDM) technol- circuits in the laboratory, and use simulation
COMPUTER AIDED DESIGN ogy using the Stratasys Fortus modeling software and test equipment such as power
SOLIDWORKS I system and accompanying Insight software supply, multimeter, signal/function genera-
3.0 Units
platform. Lecture 1 hour/Laboratory 3 hours. tor, oscilloscope, and spectrum analyzer.
ENGR 111 is a basic course in engineering, Recommended Preparation: ENGR 109, Related mathematics and physics concepts
drafting and design, utilizing SOLIDWORKS ENGR 111, CAM 230, ARCH 250, ART 230 are developed alongside these concepts of
software, with an emphasis on three-dimen- or equivalent. electrical engineering Lecture 2 hours/Labo-
sional design, modeling, and engineering ratory 3 hours. Recommended Preparation:
applications. Lecture 1.5 hours/Laboratory 121 MATH 102 or 110. Course Typically Oﬀ ered:
4.5 hours. Prerequisite: ENGR 101 or equiva- SOLID IMAGING TECHNOLOGY Fall/Winter. Transfer Credit: CSU, UC, USC.
lent. Transfer Credit: CSU. 3.0 Units
ENGR 121 provides students with compre- 132
112 hensive and working knowledge of solid INTRODUCTION TO DIGITAL
COMPUTER AIDED DESIGN imaging applications and procedures with ELECTRONICS
SOLIDWORKS II relationship to the engineering, manufactur- 3.0 Units
3.0 Units
ing and design community. Fabrication of ENGR 132 is intended for students planning
ENGR 112 teaches the advanced concepts three-dimensional models from students’ to major in engineering at the university
of the SOLIDWORKS software, its use as a computer aided designs will demonstrate level. It provides an introduction to the basic
mechanical engineering design and manu- various types of imaging software currently concepts and theory of digital electronics.
facturing tool, and the ability to fabricate, being used. Three-dimensional printing Students also learn how to build, test, and
design, and create parts and assemblies. and fused deposition modeling techniques analyze simple digital circuits in the labora-
Topics include mechanical design modeling are features. Lecture 2 hours/Laboratory 4 tory, and use simulation software and test
in the 3D environment, complex solid and hours. Prerequisite: ENGR 110 or CAM 211, equipment such as power supply, multime-
surface modeling, digital input and output, ART 231 or equivalent. ter, signal/function generator, oscilloscope,
analysis, and integrating SOLIDWORKS and logic analyzer. Related mathematics
with other Computer Aided Design (CAD) 130 and physics is contextualized within the
and Computer Aided Manufacturing (CAM) INTRODUCTION TO ROBOTICS development of these electrical engineer-
programs for a productive design workﬂ ow. 2.0 Units ing concepts. Lecture 2 hours/Laboratory 3
Lecture 1.5 hours/Laboratory 4.5 hours. ENGR 130 provides an introductory study hours. Recommended Preparation: MATH
Prerequisite: ENGR 111 or equivalent. Trans- of the fundamentals of mobile robotics 102 or 110. Transfer Credit: CSU, UC, USC.
fer Credit: CSU. and the associated engineering concepts.
It prepares students for more advanced 140
studies in robotics and related technologies. MATERIALS SCIENCE AND
Students gain experience with fundamental ENGINEERING
concepts in robot design, computer aided 3.0 Units
design and drafting, sensors and actuators, ENGR 140 is a study of the manufacture and
programming, and electronics. The vast properties of materials including ferrous and
majority of the course experience consists of non-ferrous alloys, ceramic products, wood,
implementation of and experimentation with cements, plastics, fuels, glass, concrete, and
these skills through hands-on labs. Lecture rubber. Their uses, adaptability, and limita-
1 hour/Laboratory 3 hours. Prerequisite: tions in industry will be studied. Current
None. Transfer Credit: CSU. methods of manufacture and technique will
be covered. The course covers the testing of
materials by destructive and nondestructive
methods and by the testing of their physical
properties. Lecture 3 hours. Prerequisite:
CHEM 101 and PHY 101 and MATH 103 or
equivalent. Transfer Credit: CSU, UC.

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