Design and implementation of digital logic circuits, including combinational and sequential circuits, and digital system design.
Study of how individuals think, feel, and behave in social contexts, including topics such as attitudes, group dynamics, and social influence.
An examination of economic decision-making at the individual and firm level. Topics include supply and demand, market structures, and resource allocation.
Application of statistical methods to business problems, including probability, hypothesis testing, regression analysis, and forecasting.
Advanced mathematical concepts and techniques used in engineering, including differential equations, complex analysis, and numerical methods.
Study of semiconductor devices and integrated circuits, including fabrication processes and circuit design.
Study of how drugs affect behavior and mental processes, including mechanisms of action and therapeutic applications.
Study of robot design, control, and programming, covering kinematics, perception, and artificial intelligence applications.
Introduction to the assessment, diagnosis, and treatment of mental health disorders, emphasizing evidence-based practices.
Study of the organization and design of computer systems, including processor architecture, memory hierarchy, and I/O systems.
This course covers classical mechanics, thermodynamics, and electromagnetism with a focus on engineering applications. Problem-solving and laboratory work are emphasized.
Introduction to web technologies and development practices, including HTML, CSS, JavaScript, and server-side programming.
Introduction to scientific methods used in psychological research, including experimental design, data collection, and statistical analysis.
Introduction to marketing concepts, consumer behavior, market research, and the development of marketing strategies.
Examination of theories and principles of learning and behavior, including classical and operant conditioning, and cognitive approaches.
Study of psychological disorders, their causes, symptoms, and treatments, emphasizing current diagnostic criteria and research findings.
Application of psychological principles to sports and exercise, including performance enhancement, team dynamics, and motivation.
An in-depth study of differential and integral calculus, covering limits, derivatives, and integrals. Students will learn to apply these concepts to solve real-world problems in physics, engineering, and economics.
Examination of theories and principles of learning and behavior, including classical and operant conditioning, and cognitive approaches.
Design and implementation of digital logic circuits, including combinational and sequential circuits, and digital system design.
Study of psychological principles applied to educational settings, including learning theories, motivation, and classroom management.
An exploration of fundamental data structures and algorithms, including arrays, linked lists, stacks, queues, trees, and graphs. Emphasis on implementation and analysis.