Learn Multivariable Calculus (Calc 3) Online This course delves into the realm of differentiating functions of multiple variables and their practical applications. By the end of this course, you will deeply understand vectors, equations governing lines,…
Course subject
Engineering courses
Engineering courses in The Course Register: browse 164 active and 215 total continuing, professional, and extension Engineering listings with start dates, tuition, enrollment status, format, and issuing-source links.
- Active indexed
- 164
- Total indexed
- 215
- Courses in view
- 78
- Subjects indexed
- 27
- Page
- 1 / 2
Engineering Register
Every Engineering listing in the register — filter by status or search within the subject.
Learn Linear Algebra Online: Build the Foundation for Advanced Mathematics This is an introductory course in linear algebra, one of the most important and basic areas of mathematics, with many real-life applications. Students will be introduced to both the…
In today’s rapidly evolving business landscape, organizations must adapt quickly to complexity, uncertainty, and changing customer needs. Driving Value through Agile Principles and Mindset introduces students to the foundational concepts of Agile methodology…
Offered by MIT xPRO, the Quantitative Methods in Systems Engineering course equips learners with essential skills to effectively apply quantitative techniques in systems engineering. As part of the professional certificate program Architecture and Systems…
MIT xPRO's Robotics Essentials course offers an in-depth exploration of Engineering principles, focusing on robotic systems. Participants will gain expertise in identifying robotic subsystems, assessing human-robot interactions, and addressing implementation…
Explore state-of-the-art practices in systems engineering with this award-winning four-course online program from MIT Architecture of Complex Systems Models in Engineering Model-Based Systems Engineering: Documentation and Analysis Quantitative Methods in…
Explore the Architecture of Complex Systems with MIT xPRO, an essential course in the Engineering category designed to address risks in developing intricate products and services. As the first module in the professional certificate program Architecture and…
Nanoscience and nanotechnology involve unexplored frontiers of interdisciplinary fields of science and technology—from mechanical and chemical engineering to materials science, bioengineering, and physics. Nanomaterial refers to studying and measuring…
Offered by MIT xPRO, the course "Models in Engineering" delves into practical and conceptual modeling techniques essential for managing complex systems. Part of the Architecture and Systems Engineering: Models and Methods to Manage Complex Systems…
Offered by MIT xPRO, the course "Model-Based Systems Engineering: Documentation and Analysis" provides a foundational understanding of MBSE, addressing its management challenges and analyzing industry best practices. As part of the professional certificate…
Explore the legal landscape of commercial contracting, including contract performance, breach, and remedies. Understand key legal principles, regulations, best practices and their impact on contract management. Topics include contract formation,…
Navigate the complexities of global contracts and cross-border transactions. In this course, you examine the complexities of international business contracting, including cultural considerations, and regulatory frameworks. You learn to navigate legal,…
MAE C294A. Compliant Mechanism Design . (Prof. Hopkins, J.) Formerly numbered 294A. Lecture, four hours; outside study, eight hours. Requisite: linear algebra. Advanced compliant mechanism synthesis approaches, modeling techniques, and optimization tools.…
This course is designed to provide students the skills and knowledge to perform analytics tasks to transform data into understanding and present meaningful results to drive action. Students will learn to summarize a dataset, communicate insight through…
This course provides an overview of central biotechnology engineering topics covering the various approaches on how to engineer products using genes and genome, recombinant DNA technology and genomics, microbiology biotechnology, plant biotechnology, animal…
This course introduces the challenges and opportunities for creative, impactful medical device engineering that meets FDA regulation. It includes examples of current device development and identifies the medical and technical frontiers of this industry.…
EC ENGR 209AS Special Topics in Circuits and Embedded Systems (Instructor: Gupta, P.) Lecture, four hours; discussion, one hour; outside study, seven hours. Special topics in one or more aspects of circuits and embedded systems, such as digital, analog,…
MAE 256A Linear Elasticity (Instructor: Prof. Mal. A.) (Same as Civil Engineering M230A.) Lecture, four hours; outside study, eight hours. Requisite: course 156A or 166A. Linear elastostatics. Cartesian tensors; infinitesimal strain tensor; Cauchy stress…
EC ENGR131A. Probability and Statistics. (Prof. Dolecek, L.) Lecture, four hours; discussion, one hour; outside study, 10 hours. Requisites: course 102 (enforced), Mathematics 32B, 33B. Introduction to basic concepts of probability, including random variables…
ECE 112 . Introduction to Power Systems. (Castaneda, J.) Lecture, four hours; discussion, one hour; outside study, seven hours. Enforced requisite: course 110. Complete overview of organization and operation of interconnected power systems. Development of…
MAE 250D. Computational Aerodynamics. (Prof. Zhong, X.) Lecture, eight hours. Requisites: courses 150A, 150B, 182C.Introduction to useful methods for computation of aerodynamic flow fields. Coverage of potential, Euler, and Navier/Stokes equations for…
MAE 256F. Analytical Fracture Mechanics. ( Prof. Gupta, V.) Lecture, four hours; outside study, eight hours. Requisite: course M256A. Review of modern fracture mechanics, elementary stress analyses; analytical and numerical methods for calculation of crack…
MAE 150B. Aerodynamics. (Prof. Zhong, X.) Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: courses 103, 150A. Advanced aspects of potential flow theory. Incompressible flow around thin airfoils (lift and moment coefficients)…
Engr 116. Statistics for Management Decisions. (Prof. Mehrmia, A.) Lecture, four hours; outside study, eight hours. Management as well as engineering decisions nearly always take place in environment characterized by uncertainty. Probability provides…
EC ENGR 232E “Large-Scale Social and Complex Networks: Design and Algorithms” ( Prof. Roychowdhury, V.) Lecture, four hours; discussion, one hour; outside study, seven hours. Introduction of variety of scalable data modeling tools, both predictive and causal,…
There is science and mathematics behind plumbing system design. This course covers these concepts and their applications. The instructor will review and analyze the equations related to horizontal sloping flow, vertical stack flow and pressure piping flow.…
EC ENGR 231A. Information Theory: Channel and Source Coding. (Instructor: Wesel, R.) Lecture, four hours; discussion, one hour; outside study, seven hours. Requisite: course 131A. Fundamentals information compression, transmission, processing, and learning.…
This course provides the basic engineering principles and reviews the plumbing codes behind the functioning of a plumbing system. The instructor will cover calculation techniques for the various systems, equipment selection guidelines, and an introduction to…
EC ENGR 233. Wireless Communications Systems Design, Modeling and Implementation. (Instructor: Cabric, D.) Lecture, four hours; discussion, one hour; outside study, seven hours. Requisite: course 113. Covers algorithms, architectures, and implementation for…
This course covers the analysis and design of integrated circuits power delivery networks focusing on power integrity and noise coupling in chip, package and printed circuit board (PCB) structures. Topics include power delivery impedance in chip/package/PCB…
Engr 215. Entrepreneurship for Engineers. (Instructor: Prof. Huang, B.) Lecture, four hours; outside study, eight hours. Limited to graduate engineering students. Topics in starting and developing high-tech enterprises and intended for students who wish to…
Engr 205 Model-Based Systems Engineering (Instructor: Prof. Hecht, M.) Lecture, four hours; outside study, eight hours. Model-based systems engineering ((MBSE) and systems modeling language (SysML) taught through lectures and readings, individual projects,…
Engr 201 Systems Engineering (Instructor: Prof. Kung, K.) Lecture, four hours; outside study, eight hours. Designed for graduate students. Practical review of major elements of system engineering process. Coverage of key elements: system requirements and flow…
This course covers the design of radio-frequency integrated circuits (RFICs) used for wireless communications, and focuses on theoretical and practical RF circuit design techniques from architecture down to transistor level circuit design. The course starts…
This course will provide the student with an enhanced knowledge and ability to design for manufacturability by providing a basic understanding of Geometric Dimensioning and Tolerancing based on ASME (American Society of Mechanical Engineers) Y14.5 standards.…
MAE C250P Aircraft Propulsion Systems (Instructor: Prof. Karagozian, A.) Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: courses 105A, 150A. Thermodynamic properties of gases, aircraft jet engine cycle analysis and component…
MSE 221 Science of Electronic Materials (Instructor: Prof. Goorsky, M.S.) Lecture, four hours; discussion, one hour; outside study, seven hours. Requisite: course 120. Study of major physical and chemical principles affecting properties and performance of…
MSE 250B. Advanced Composite Materials. (Prof. Yang, J-M.) Lecture, four hours; outside study, eight hours. Preparation: BS in Materials Science and Engineering. Requisite: course 151. Fabrication methods, structure and properties of advanced composite…
ENGR 203 “Systems Architecting” Prof. Gasster Requisite: ENGR 201. This course is dedicated to teaching the art and science of architecting. It starts with an introduction on architecting methodology - paradigm and tools. Students will learn the principles of…
CS 264A. Automated Reasoning: Theory and Applications. (Instructor: Darwiche, A.) Lecture, four hours; laboratory, four hours; outside study, four hours. Requisite: course 161. Introduction to theory and practice of automated reasoning using propositional and…
EC ENGR C247A Neural Networks and Deep Learning (Instructor: Suhas, D.) Lecture, four hours; discussion, two hours; outside study, six hours. Requisites: courses 131A, 133A or 205A, and M146, or equivalent. Review of machine learning concepts; maximum…
MAE 265A Control and Trajectory Planning for Autonomous Aerospace Systems. Prof. Lopez Lecture, four hours; outside study, eight hours. Requisite: course 171A. Introduction to autonomous aerospace systems with focus on dynamics, control, and motion planning.…
(Instructor: Prof. A. Alwan) (Same as Biomedical Engineering M214A.) Lecture, three hours; laboratory, two hours; outside study, seven hours. Requisite: course 113. Theory and applications of digital processing of speech signals. Mathematical models of human…
EC ENGR 215A. Analog Integrated Circuit Design . (Instructor: B. Razavi) Lecture, four hours; discussion, one hour; outside study, seven hours. Requisite: course 115B. Analysis and design of analog integrated circuits. MOS and bipolar device structures and…
This course covers the design of CMOS analog integrated circuits with a focus on theoretical and practical circuit analysis, as well as design techniques from system functional blocks and transitor-level device physics. Fundamental concepts include CMOS…
Engr 211. Financial Management. (Professor Bulu-Taciroglu.) Lecture, four hours; outside study, eight hours. Introduction to concepts reflecting material generally covered in certain M.B.A. core and elective courses. Integration of both theory—to introduce…
Engr 206. Engineering for Systems Assurance. (Prof. Kung, K.) Lecture, four hours; outside study, eight hours. Recommended requisites: course 204, Computer Science 236. Systems are constructed to perform complex functions and services. How to understand needs…
Engr 213 Data and Business Analytics (Instructor: Huang, B.) Lecture, four hours; outside study, eight hours. Coverage of wide variety of spreadsheet models that can be used to solve business and engineering problems, with emphasis on mastery of Excel…
The course begins with an overview of data conversion systems followed by the analysis and design of basic building blocks of data converters: CMOS (complementary metal oxide semiconductor) sampling circuits, operational amplifiers, comparators and…
MSE 243A Fracture of Structural Materials (Instructor: Prof. Ono, K.) Lecture, four hours; laboratory, two hours; outside study, four hours. Requisite: course 143A. Engineering and scientific aspects of crack nucleation, slow crack growth, and unstable…