Study of semiconductor devices and integrated circuits, including fabrication processes and circuit design.
Exploration of the process of starting and managing new ventures, including opportunity recognition, business planning, and resource acquisition.
This course covers classical mechanics, thermodynamics, and electromagnetism with a focus on engineering applications. Problem-solving and laboratory work are emphasized.
Development of leadership skills and effective team management strategies in organizational contexts.
Study of psychological principles applied to educational settings, including learning theories, motivation, and classroom management.
Study of robot design, control, and programming, covering kinematics, perception, and artificial intelligence applications.
Design and analysis of analog electronic circuits, including amplifiers, filters, and oscillators.
Application of computational methods to biological data analysis, including sequence alignment, genomics, and protein structure prediction.
Study of operating system principles, including process management, memory management, file systems, and distributed systems.
Introduction to the design of digital circuits and systems, including Boolean algebra, logic gates, and sequential circuits.
Very Large Scale Integration circuit design, including chip architecture, layout techniques, and design automation tools.
Examination of major theories and research on personality development, structure, and assessment.
An examination of economic decision-making at the individual and firm level. Topics include supply and demand, market structures, and resource allocation.
Advanced study of algorithm design and analysis. Topics include sorting, searching, dynamic programming, graph algorithms, and computational complexity.
Overview of legal principles affecting business operations, including contracts, torts, intellectual property, and business organizations.
Application of mechanical principles to biological systems, including the study of motion, deformation, and stress analysis in living organisms.
Interdisciplinary field combining engineering and life sciences to develop biological substitutes for restoring, maintaining, or improving tissue function.