School of Engineering and Computer Science


ENGR 045. Materials Science – Properties and Measurements (4)



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ENGR 045. Materials Science – Properties and Measurements (4)

The dependency of physical, chemical and mechanical properties on microscopic and macroscopic structure of materials. Laboratory experiments on properties of materials such as metals, polymers, composites and ceramics. Prerequisites: CHEM 025 or 027, MATH 053 (Fall, Spring).



ENGR 110. Instrumentation and Experimental Methods (3)

Experimental techniques in the measurement of quantities such as biopotentials, force, pressure, sound, flow, temperature, strain and motion. Statitstical analysis and errors in measurement; data analysis and transmission. Use of instruments in the laboratory; a measurement project. Prerequisites: MATH 057, ENGR 121 or permission of the instructor (Fall, Spring).



ENGR 120. Engineering Mechanics II (Dynamics) (3)

The fundamental principles of particles and bodies in motion under the action of external forces. Prerequisite: ENGR 020 (Fall and Spring).



ENGR 121. Mechanics of Materials (4)

Concepts of stress, strain and deformation, analysis and design of simple elements of structures and machines. Introduction to failure theory and energy methods. Prerequisites: ENGR 020. Prerequisite, may be taken concurrently: MATH 057. (Fall, Spring).



ENGR 122. Thermodynamics I (3)

The first and second laws of thermodynamics for open and closed systems. Properties of gases and liquids and ideal gases. Introduction to cycles for power and refrigeration. Prerequisites: CHEM 025 or 027, PHYS 053 (Fall, Spring).



ENGR 181-185. Professional Practice (1-18)

Cooperative employment in a professional engineering environment. Students may register for a variable number of credits depending upon the length of the work period. Requires satisfactory completion of the work assignment and a written report. Pass/Fail basis.



Mechanical Engineering

MECH 100. Manufacturing Processes (4)

A study of traditional manufacturing processes such as formatting, cutting, joining, casting, and heat treating as well as advanced processing methods. Manufacturing with polymers, composites, and ceramics in addition to metals. Tribology, nondestructive evaluation, and quality control. Laboratory projects on manufacturing skills, reverse engineering, automated machines, geometric dimensioning and tolerancing, and statistical process control. Prerequisite: ENGR 045 or permission of the instructor (Fall).



MECH 104. Introduction to Mechatronics (3)

A broad understanding of the main components of mechatronic systems. Understanding of the general principles involved in computer-controlled machinery, including sensing, actuation and control; practical knowledge of the development of simple embedded computer programs; understanding of the practical application of mechatronic systems in applications such as manufacturing, automobile systems and robotics. Prerequisites: ECPE 041, ENGR 120, MECH 110 or permission of the instructor (Spring).



MECH 110. Instrumentation and Experimental Methods (3)

Experimental techniques in the measurement of quantities such as strain, force, temperature, pressure, flow, motion and noise. Statistical analysis and errors in measurement; data analysis and transmission. Use of instruments in the laboratory; a measurement project. Prerequisite: MATH 057, ENGR 045 or permission of the instructor (Fall).



MECH 120. Machine Design and Analysis I (3)

This course builds on fundamental principles learned in statistics, dynamics, and mechanics of materials, and applies them to the design and analysis of machines. Methods for performing load and stress analysis will be learned along with analytical methods for solving deflection and stability problems. Static, impact, and fatigue failure theories for machines will also be studied. Statistical methods for solving machine design problems will be presented, and engineering design practices will be integrated throughout the course. Prerequisites: ENGR 045, 120, 121 (Fall).



MECH 123. Kinematics and Dynamics of Machinery (3)

Design, analysis and simulation of complex mechanisms with emphasis on high speed and precision applications. Kinematics and dynamics of planar and three dimensional mechanisms; gyroscopic forces in machines and balancing; applications to robotics. Prerequisites: ENGR 120, 121.



MECH 125. Machine Design and Analysis II (3)

Students learn how to design, analyze, and incorporate a variety of standard parts and devices into machines. These parts and devices include fasteners, gear systems, belt drives, chain drives, shafts, couplings, bearings, springs, clutches, and brakes. Principles of tribology (friction, wear, & lubrication) are introduced and applied to the design of machines. Engineering design practices will be integrated throughout the course. Prerequisites: MECH 120 (Spring).



MECH 129. Vibrations (3)

Modeling of physical systems with lumped and distributed parameters. Free and forced vibrations of machines and structures. Excitation and response of single degree of freedom systems. Introduction to multiple degree of freedom systems, finite element formulations and mode superposition techniques. Prerequisites: MATH 057, ENGR 120, ENGR 019 or permission of the instructor (Fall).



MECH 140. Engineering Design/Senior Project I (3)

Methods of initiating, planning, conceptualizing, and configuring engineering designs are discussed. The student will use these methods to develop an engineering design for a product or process involving mechanical engineering. Product realization methods, project management, materials selection, manufacturing for designers, guided iteration, communication skills, economics, ethics, liability, and safety issues are put into practice through class activities. Prerequisite, may be taken concurrently: MECH 120 or 150 (Fall).



MECH 141. Engineering Design/Senior Project II (3)

The student will complete the design phase of their project. Parametric design techniques such as guided iteration, optimization, and Taguchi’s methods will be used to complete the detailed design of a product or process involving mechanical engineering. Manufacturing necessary to complete the product or process is a requirement. Weekly oral and written progress reports are required along with final comprehensive oral and written reports. Prerequisites: MECH 100, MECH 140 (Spring).



MECH 150. Heat Transfer (3)

Heat transfer by conduction in one, two and three dimensions in transient and steady state. Heat transfer in extended surfaces. Solutions by numerical methods. Convection in external and internal flow; free convection, radiation. Prerequisite: ENGR 122 and MATH 057 (Spring).



MECH 151. Applied Heat Transfer (3)

Applications and extensions of the topics in MECH 150. Multimode heat transfer; heat exchangers. Heat transfer with phase change. Prerequisite: MECH 150.



MECH 155. Solar Energy Engineering (3)

Introduction to solar energy, sun-earth geometry, radiation measurement, insulation on surfaces, principles of solar collectors, applications such as space heating and solar ovens, photovoltaics, laboratory experiments. Prerequisites: MECH 150, ENGR 122.



MECH 157. Thermodynamics II (3)

Continuation of topics in Thermodynamics I. Availability, chemical reactions, combustion, and fuels. Processes involving air and water mixtures relating to heating, cooling and ventilating for human comfort. Introduction to the thermodynamics of the flow of ideal gases. Prerequisite: ENGR 122 (Fall).



MECH 158. Air Conditioning (3)

Introduction to air conditioning purpose, terminology and typical systems. Study of analysis and design of air conditioning as applied to residential and small commercial buildings. Use codes and standards applicable to this field. Prerequisites: ENGR 122 and permission of the instructor.



MECH 160. Fluid Dynamics (3)

Equations of continuity, energy, and momentum as applied to fluid flow. One dimensional compressible flow. Introduction to more advanced topics, such as turbomachinery, viscous flow and potential flow. Prerequisites: CIVL 130, ENGR 122.



MECH 175. Systems Analysis and Control (4)

Dynamic analysis and control of systems composed of mechanical, electrical, hydraulic and thermal components. Use of system modeling and simulation techniques to predict transient and steady state response; lumped parameter approximations and linearization. Use of feedback to enhance system performance and stability. Design of linear control systems in the time and frequency domains. Prerequisites: ECPE 041, MECH 110, 129 or permission of the instructor (Spring).



MECH 178. Finite Element Methods (3)

Introduction to the finite element method for engineering problems. Matrix formulation of finite element models for problems in solid mechanics, heat transfer and fluid flow. Solution of finite element equilibrium equations. Development of computer algorithms and applications using commercial finite element computer programs. Some familiarity with matrix methods is desirable. Prerequisite: ENGR 121, CIVL 130, MECH 150, or permission of the instructor (Fall).



MECH 191. Independent Study (1-4)

Special individual projects are undertaken under the direction of one or more faculty members knowledgeable in the particular field of study. Permission must be received by the department chairperson and the faculty members involved.



MECH 193. Special Topics (1-4)

Special courses will be organized and offered from time to time to meet the needs or interests of a group of students.

MECH 197. Undergraduate Research (2-4)

Applied or basic research in mechanical engineering under faculty supervision. Projects may be experimental, mathematical or computational in nature. Approval by the faculty supervisor and department chairperson is required. Student must be in good academic standing.



School of Engineering and Computer Science Faculty

Ravi K. Jain, 2000, Dean and Professor, B.S., California State University, Sacramento, 1961; M.S., 1968; Ph.D., Texas Tech University, 1971; MPA, Management and Public Policy, Harvard University, 1980.

Gary R. Martin, 1983, Assistant Dean of Administration and Professor of Cooperative Education, B.A., University of California, Davis, 1981; M.S., California State University, Hayward, 1982; Ed.D., University of the Pacific, 1987. Educational counseling and psychology, Pupil Personnel Services Credential.

Louise Stark, 1992, Associate Dean and Professor of Computer Engineering, B.S.CpE, University of South Florida, 1986; M.S.CpE, 1987; Ph.D., Computer Science and Engineering, 1990. Computer vision, artificial intelligence, digital design, computer graphics, virtual reality.

Bioengineering Program

Jeffrey S. Burmeister, 2002, Program Director and Associate Professor of Bioengineering, B.S., Mechanical Engineering, 1988, University of Delaware; Ph.D. 1995, Duke University, Biomedical Engineering.

James C. Eason, 2008, Assistant Professor of Bioengineering, B.S., Electrical Engineering, 1988, North Carolina State University; Ph.D 1995, Duke University, Biomedical Engineering. Cardiovascular electrophysiology, computational modeling, system dynamics.

Chi-Wook Lee, 1998, Associate Professor of Mechanical Engineering, B.S.M.E., Hanyang University (Korea), 1981; M.S.M.E., University of Wisconsin-Madison, 1984; Ph.D., Mechanical Engineering, University of Florida, 1991. Mechatronics, systems dynamics, and bio-mechanics.

Douglas Modlin, 2005, Visiting Assistant Professor, B.S., California State Polytechnic University, 1975; M.S., Stanford University, 1978; Ph.D., Stanford University, 1983.

Camille Troup, 2005, Visiting Assistant Professor, B.A., University of Minnesota, 1986; Ph.D., University of California San Francisco, 1996.

Civil Engineering Department

Mary Kay Camarillo, 2009, Assistant Professor of Civil Engineering, B.S., University of Washington, 1996; M.S., University of California, Davis, 2004; Ph.D., 2009; Registered Professional Engineer. Environmental engineering, physical and chemical treatment of water and wastewater.

Hector Estrada, 2006, Professor and Chair of Civil Engineering, B.S., University of Illinois, 1993; M.S., 1994; Ph.D., 1997. Registered Professional Engineer. Structural engineering and engineering mechanics.

Abel A. Fernandez, 2000, Professor of Civil Engineering and Director of Engineering Management, B.S., Electric Power Engineering, Rensselaer Polytechnic Institute, 1974; M.E., Electric Power Engineering, 1976; M.B.A., 1976; Ph.D., Industrial Engineering, University of Central Florida, 1995. Registered Professional Engineer. Project management, systems engineering, resource management, risk analysis and management, modeling and simulation, optimization.

Luke Lee, 2008, Assistant Professor of Civil Engineering, B.S., University of California, Los Angeles, 1997; M.S., University of California, Berkley, 1998; Ph.D., University of California, San Diego, 2005; Registered Professional Engineer. Structural engineering and rehabilitation and monitoring of infrastructure systems.

Gary M. Litton, 1993, Professor of Civil Engineering, B.S., University of California, Irvine, 1980; M.S., 1990; Ph.D., 1993. Registered Professional Engineer. Environmental engineering, water quality, engineering mechanics.

Camilla M. Saviz, 1999, Associate Professor of Civil Engineering, B.S.M.E., Clarkson University, 1987; M.S.M.E., 1989; M.B.A., New York Institute of Technology, 1991; Ph.D., Civil and Environmental Engineering, University of California, Davis, 2003. Registered Professional Engineer. Environmental engineering, water resources, hydrodynamic and water quality modeling, fluid mechanics.

Computer Science Department

William H. Ford, 1974, Professor and Chair of Computer Science, B.S., Massachusetts Institute of Technology, 1967; Ph.D., University of Illinois, 1972. Discrete mathematics, computing theory, algorithms, numerical methods.

Emma Bowring, 2007, Assistant Professor of Computer Science, B.S., University of Southern California, 2003; Ph.D., University of Southern California, 2007. Artificial Intelligence, multi-agent systems, computer science education.

Daniel Cliburn, 2006, Associate Professor of Computer Science, B.S., Illinois College, 1997; M.S., University of Kansas, 1999; Ph.D., University of Kansas, 2001. Computer graphics, visualization, virtual reality, computer science education.

Michael Doherty, 1998, Associate Professor of Computer Science, B.S., University of Florida, 1983; M.S., University of Rhode Island, 1992; Ph.D. University of Colorado at Boulder, 1998. Simulation, video game technology, database applications, computer graphics.

Jinzhu Gao, 2008, Assistant Professor of Computer Science, B.S. Computer Science and Engineering, Huazhong University of Science and Technology, 1995; M.S. Mechanical Engineering, Huazhong University of Science and Technology, 1998; Ph.D. Computer and Information Science, Ohio State University, 2004. Scientific visualization, computer graphics, large scale data management, data analysis and visualization, data-intensive computing, remote visualization, Web-based applications.

David A. Lundy, 1983, Senior Lecturer in Computer Science, B.S., University of Oregon, 1975; MBA, California State College, Stanislaus, 1987.

Cathi Schuler-Sawyer, 1993, Assistant Visiting Professor in Computer Science, B.A., University of California, Santa Barbara, 1974; MSW, California State University, Sacramento, 1976. Business software consulting and training, technical writing, Web development.

Doug Smith, 1970, Emeritus Professor of Computer Science, B.S., University of Washington, 1964; MAT, Harvard University, 1965; Ph.D., University of Washington, 1970. GUI programming, computing theory, discrete mathematics, cooperative education.

William R. Topp, 1970, Emeritus Professor of Computer Science, B.A., St. Louis University, 1963; M.A., 1964, M.S. University of Washington, 1967; Ph.D., 1968. Data structures, numerical methods, applied scientific programming.

Electrical and Computer Engineering Department

• Computer Engineering Program

• Electrical Engineering Program

• Engineering Physics Program



Cherian Mathews, 2005, Professor and Chair of Electrical and Computer, B.E. in Electrical Engineering, Anna University, Chennai, India, 1987; M.S. in Electrical Engineering, Purdue University, 1989; Ph.D. in Electrical Engineering, Purdue University, 1993; Statistical signal processing, Array signal processing, Real-time digital signal processing using DSP processors, power systesms.

James C. Eason, 2008, Assistant Professor of Bioengineering, B.S., Electrical Engineering, 1988, North Carolina State University; Ph.D 1995, Duke University, Biomedical Engineering. Cardiovascular electrophysiology, computational modeling, system dynamics.

Kenneth F. Hughes, 1993, Associate Professor of Computer Engineering, B.S., Information and Computer Science, Georgia Institute of Technology, 1985; M.S., Computer Science, University of South Florida, 1989; Ph.D., Computer Science and Engineering, University of South Florida, 1994. Robotics, sensors and sensor fusion, computer vision, artificial intelligence, embedded systems, microprocessors and microcontrollers, digital systems.

Rahim Khoie, 2002, Professor of Electrical and Computer Engineering , BSEE, 1977, Abadan Institute of Technology, Abadan, Iran; M.S., 1980, University of Pittsburgh,; Ph.D., 1986, University of Pittsburgh. High speed electron devices, Quantum effect devices, Solid state physics, Renewable energy, Analog and digital electronics, and Embedded Systems.

W. Joseph King, 1983, Emeritus Professor of Electrical and Computer Engineering, B.S.E.E./C.S., University of California, Davis, 1977; M.S.E.E./C.S., 1978. Registered Professional Engineer; Computer languages, digital design, microprocessors, neural networks, computer graphics.

Jennifer Ross, 1993, Associate Professor of Electrical and Computer Engineering, B.S. in Electrical Engineering University of Illinois, 1988; M.S. in Electrical Engineering, University of California Berkeley, 1990.  PhD in Electrical Engineering University of California Berkeley, 1993; Solid state, short wavelength lasers, analog circuits and devices.

Louise Stark, 1992, Associate Dean and , B.S.CpE, University of South Florida, 1986; M.S.CpE, 1987; Ph.D., Computer Science and Engineering, 1990. Computer vision, artificial intelligence, digital design, computer graphics, virtual reality.

Anahita Zarei, 2007, Assistant Professor of Electrical and Computer Engineering, B.S., Electrical Engineering, 2001, University of Washington; M.S., Electrical Engineering, 2002, University of Washington; M.S. Applied Mathematics, 2007, University of Washington; Ph.D., Electrical Engineering, 2007, University of Washington. Computational Intelligence, Signal Processing, Probability and Statistics. 
Engineering Management Program

Abel A. Fernandez, 2000, Professor of Civil Engineering and Director of Engineering Management, B.S., Electric Power Engineering, Rensselaer Polytechnic Institute, 1974; M.E., Electric Power Engineering, 1976; M.B.A., 1976; Ph.D., Industrial Engineering, University of Central Florida, 1995. Registered Professional Engineer. Project Management, systems engineering, resource management, risk analysis and management, modeling and simulation, optimization.

Mechanical Engineering Department

Brian L. Weick, 1995, Chair and Professor of Mechanical Engineering, B.S.M.E., Union College, 1986; M.S.M.E., Virginia Polytechnic Institute and State University, 1990; Ph.D., Materials Engineering Science, 1993. Manufacturing Processes, Materials Science, Design, Tribology and Viscoelasticity.

Ashland O. Brown, 1991, Professor of Mechanical Engineering, B.S.M.E., Purdue University, 1966; M.S.M.E., University of Connecticut, 1968; Ph.D., 1974. Licensed Professional Engineer; fluid mechanics, thermal sciences and finite element analysis.

Jeffrey S. Burmeister, 2002, Associate Professor of Bioengineering, B.S., Mechanical Engineering, 1988, University of Delaware; Ph.D. 1995, Duke University, Biomedical Engineering.

Scott Larwood, 2009, Assistant Professor of Mechanical Engineering, B.S., Aeronautical Engineering, California Polytechnic State University, San Luis Obispo, 1988; M.S., Aeronautics and Astronautics, Stanford University, 1993; Ph.D., Mechanical and Aeronautical Engineering, University of California at Davis, 2009. Licensed Professional Engineer; wind energy, fluid mechanics, vibrations, dynamics.

Chi-Wook Lee, 1998, Associate Professor of Mechanical Engineering, B.S.M.E., Hanyang University (Korea), 1981; M.S.M.E., University of Wisconsin-Madison, 1984; Ph.D., Mechanical Engineering, University of Florida, 1991. Mechatronics, systems dynamics, and bio-mechanics.

Jian Cheng Liu, 2006, Assistant Professor of Mechanical Engineering, B.S., Taiyuan University of Technology (China), 1984; M.S., 1987; Ph.D., Himeji Institute of Technology, now named University of Hyogo (Japan), 1996. Manufacturing, machine design.

Kyle A. Watson, 2003, Associate Professor of Mechanical Engineering, B.S.M.E., Villanova University, 1995; M.S., North Carolina State University, 1997; Ph.D., 2002. Thermal sciences, fluid mechanics, combustion.

Office of Cooperative Education and Special Programs

Gary R. Martin, 1983, Assistant Dean of Administration and Professor of Cooperative Education, B.A., University of California, Davis, 1981; M.S., California State University, Hayward, 1982; Ed.D., University of the Pacific, 1987. Educational counseling and psychology, Pupil Personnel Services Credential.

Calvin P Chen, 2006, Assistant Professor and Coordinator of Cooperative Education, B.S.C.E., Rice University, 2000; M.B.A., Rice University, 2005.

Juliet C. Ellinger, 2007, Assistant Professor and Coordinator of Special Programs, B.A., California State University Long Beach, 2001; M.B.A., Regis University, 2006.

MESA

Maria Garcia-Sheets, 1995, Director of MESA (Mathematics, Engineering and Science Achievement) Schools Program and the MESA Engineering Program, B.A., University of California, Davis, 1991; M.A., Communication, University of the Pacific, 1999, Doctor of Education, Educational Administration and Leadership, 2008.

08 School of Engineering 5/28/2018

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