Automotive Related Courses
Subject |
Code | Academic Year | Course Title | Description |
|---|---|---|---|---|
| ENGR | 205 | 2021-2022 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2020-2021 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2020-2021 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2018-2019 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2018-2019 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 30 | 2014-2015 | Engineering Thermodynamics |
The basic principles of thermodynamics are introduced in this course. Concepts of energy and entropy from elementary considerations of the microscopic nature of matter are discussed. |
| ENGR | 105 | 2016-2017 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2016-2017 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2022-2023 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2022-2023 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2017-2018 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2017-2018 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2023-2024 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2023-2024 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2019-2020 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2019-2020 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2014-2015 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2014-2015 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENGR | 105 | 2015-2016 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 105 | 2021-2022 | Feedback Control Design |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ENGR | 205 | 2015-2016 | Introduction to Control Design Techniques |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ENVRES | 255 | 2014-2015 | Innovative Transportation Systems |
Research seminar. Evaluation of the technologies and business model innovations that are transforming our transportation system. |
| LAW | 223 | 2014-2015 | Torts |
This course is part of the required first-year JD curriculum. |
| MATSCI | 303 | 2014-2015 | Principles, Materials and Devices of Batteries |
Thermodynamics and electrochemistry for batteries. Emphasis on lithium ion batteries, but also different types including lead acid, nickel metal hydride, metal air, sodium sulfur and redox flow. |
| ME | 105 | 2015-2016 | Feedback Control Design (AA 105, EE 105, ENGR 105) |
Design of linear feedback control systems for command-following error, stability, and dynamic response specifications. Root-locus and frequency response design techniques. |
| ME | 310A | 2014-2015 | Product-Based Engineering Design, Innovation, and Development |
Three quarter sequence; for engineering graduate students intending to lead projects related to sustainability, automotive, biomedical devices, communication, and user interaction. |
| ME | 305 | 2015-2016 | Introduction to Control Design Techniques (AA 275, EE 205, ENGR 205) |
Review of root-locus and frequency response techniques for control system analysis and synthesis. |
| ME | 310B | 2014-2015 | Product-Based Engineering Design, Innovation, and Development |
Three quarter sequence; for engineering graduate students intending to lead projects related to sustainability, automotive, biomedical devices, communication, and user interaction. |
| ME | 310C | 2014-2015 | Project-Based Engineering Design, Innovation, and Development |
Three quarter sequence; for engineering graduate students intending to lead projects related to sustainability, automotive, biomedical devices, communication, and user interaction. |
| ME | 310X | 2014-2015 | New Product Management |
Restricted to graduate students. Focus is on the role of the product manager in industry. |
| ME | 312 | 2014-2015 | Advanced Product Design: Formgiving |
Lecture/lab. Small- and medium- scale design projects carried to a high degree of aesthetic refinement. Emphasis is on form development, design process, and model making. |
| ME | 316A | 2014-2015 | Product Design Master's Project |
For graduate Product Design or Design (Art) majors only. Student teams, under the supervision of the design faculty, spend the quarter researching master's project topics. |
| ME | 316B | 2014-2015 | Product Design Master's Project |
Design Garage is a Winter/Spring class (a two quarter commitment is required). The class is a deep dive in design thinking that uses student-led projects to teach design process and methods. |
| ME | 316C | 2014-2015 | Product Design Master's Project |
This is the second half of the two quarter Design Garage sequence. Students will complete projects begun in ME316B the prior quarter. Prerequisite: ME316B and graduate student standing. |
| ME | 140 | 2014-2015 | Advanced Thermal Systems |
Capstone course. Thermal analysis and engineering emphasizing integrating heat transfer, fluid mechanics, and thermodynamics into a unified approach to treating complex systems. |
| ME | 260 | 2014-2015 | Fuel Cell Science and Technology |
Emphasis on proton exchange membrane (PEM) and solid oxide fuel cells (SOFC), and principles of electrochemical energy conversion. Topics in materials science, thermodynamics, and fluid mechanics. |
| ME | 113 | 2014-2015 | Mechanical Engineering Design |
Capstone course. Mechanical engineering design is experienced by students as they work on team projects. Prerequisites: 80, 101, 112, 131 a,b, 203. Enrollment limited to ME majors. |
| ME | 185 | 2014-2015 | Electric Vehicle Design |
This project based class focuses on the design and prototyping of electric vehicles. |
| ME | 200 | 2014-2015 | Judging Historical Significance Through the Automobile |
This seminar is for students to learn how to assess the impact of historical importance through the lens of the automobile. |
| ME | 216A | 2014-2015 | Advanced Product Design: Needfinding |
Human needs that lead to the conceptualization of future products, environments, systems, and services. |
| ME | 216B | 2014-2015 | Advanced Product Design: Implementation 1 |
Summary project using knowledge, methodology, and skills obtained in Product Design major. Students implement an original design concept and present it to a professional jury. |
| ME | 216C | 2014-2015 | Advanced Product Design: Implementation 2 |
ME216C: Implementation II is a continuation of ME216B. Students would develop project from ME216B to a further state of completion. |
| ME | 218A | 2014-2015 | Smart Product Design Fundamentals |
Lecture/Lab. Team design project series on programmable electromechanical systems design. |
| ME | 218B | 2014-2015 | Smart Product Design Applications |
Lecture/lab. Second in team design project series on programmable electromechanical systems design. |
| ME | 218C | 2014-2015 | Smart Product Design Practice |
Lecture/lab. Advanced level in series on programmable electromechanical systems design. |
| ME | 218D | 2014-2015 | Smart Product Design: Projects |
Lecture/lab. Industrially sponsored project is the culmination of the Smart Product Design sequence. |
| ME | 220 | 2014-2015 | Introduction to Sensors |
Sensors are widely used in scientific research and as an integral part of commercial products and automated systems. |
| ME | 227 | 2014-2015 | Vehicle Dynamics and Control |
The application of dynamics, kinematics, and control theory to the analysis and design of ground vehicle behavior. |
| ME | 236 | 2014-2015 | Tales to Design Cars By |
Students learn to tell personal narratives and make connections between popular and historic media using the automobile. Explores the meaning and impact of personal and preserved car histories. |
| ME | 250 | 2014-2015 | Internal Combustion Engines |
Internal combustion engines including conventional and turbocharged spark ignition, and diesel engines. |
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