Models and circuit applications for diodes, transistors, and operational amplifiers are introduced. This course provides primary emphasis on developing models and techniques for analyzing the natural and forced response of passive linear networks. The use of CAD software is an integral part of the course.ĮNGIN-230 Introduction to Circuit AnalysisĤ Units: 54 hours of lecture, 54 hours of laboratory, per term, LR, DG, CSU, UC Assignments develop sketching and 2-D and 3-D CAD skills. Topics include the development of visualization skills, orthographic projections, mechanical dimensioning and tolerancing practices, and the engineering design process. This course covers the principles of engineering drawings in visually communicating engineering designs and an introduction to computer-aided design (CAD). Examples and assignments in the course are drawn from practical applications in engineering, physics, and mathematics.ģ units: 36 hours of lecture, 54 hours of laboratory, per term, SC, DG, CSU, UC It introduces the fundamentals of procedural and object-oriented programming, numerical analysis, and data structures. This course utilizes the MATLAB environment to provide students with a working knowledge of computer-based problem-solving methods relevant to science and engineering. This course introduces the basics of software development using a high level language utilizing programming and the interface of software with the physical world.ĮNGIN-170 Programming for Engineering Science – MATLABĤ Units: 54 hours of lecture, 54 hours of lab, per term, LR, DG, CSU, UC Topics include orientation to the engineering educational system, descriptions of engineering disciplines, employment opportunities, and engineering design and development process.ĮNGIN-160 Programming Concepts and Methodologies for EngineersĤ Units: 54 hours of laboratory, 54 hours of lecture, per term, LR, DG, CSU, UC This course is an introduction to the engineering profession. Topics will be chosen to supplement and serve as additions to current offerings in the area, and will be announced each term in the current schedule of classes.Ģ Units: 36 hours of lecture, per term, LR, DG, CSU This course covers topics in engineering. More information about these resources can be found on the Resources menu on the right.5-4 Units: 9-72 hours of lecture and/or 27-216 hours of laboratory, per term, SC, DG The students are encouraged to consult the eBook that this course is based on. Students taking the course will get a MATLAB Online license free of charge for the duration of the course. Students who successfully complete this course will become familiar with general concepts in computer science, gain an understanding of the general concepts of programming, and obtain a solid foundation in the use of MATLAB. It is an introductory programming course that uses MATLAB to illustrate general concepts in computer science and programming. Nevertheless, this course is not a MATLAB tutorial. Hence, a solid background in MATLAB is an indispensable skill in today’s job market. As a result, MATLAB is being used in a wide variety of domains from the natural sciences, through all disciplines of engineering, to finance, and beyond, and it is heavily used in industry. The problems may be relatively complex, while the MATLAB programs that solve them are relatively simple: relative, that is, to the equivalent program written in a general-purpose language, such as C++ or Java. The design of the language makes it possible to write a powerful program in a few lines. MATLAB is a special-purpose language that is an excellent choice for writing moderate-size programs that solve problems involving the manipulation of numbers. It uses the programming system and language called MATLAB to do so because it is easy to learn, versatile and very useful for engineers and other professionals. This course teaches computer programming to those with little to no previous experience.
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