Introduces engineering principles, safety standards, ethics, and problem-solving skills for multidisciplinary challenges.
Covers stoichiometry, thermodynamics, kinetics, and equilibrium with real-world engineering applications.
Explores limits, derivatives, integrals, and applications in engineering problems.
Focuses on vector spaces, matrix operations, eigenvalues, and their applications in engineering systems.
Covers Newton's laws, work, energy, and rotational motion with engineering applications.
Develops technical writing, presentations, and collaboration skills for engineers.
Examines Toronto's urban planning, socioeconomic changes, and environmental challenges.
Builds Spanish reading, writing, and speaking skills with cultural insights.
Explores wave mechanics, interference, and electric/magnetic fields in engineering.
Focuses on advanced integration techniques, partial derivatives, and differential equations.
Covers transient and steady-state analysis, AC power, and resonance in circuits.
Teaches C programming, algorithms, and data structures for problem-solving.
Examines legal and ethical responsibilities of engineers with real-world case studies.
Covers abstraction, algorithms, and object-oriented programming basics.
Analyzes technology's impact on environmental and urban planning issues.
Introduces design thinking for innovative solutions through hands-on projects.
Focuses on solving differential equations and applying vector calculus in engineering.
Explores combinatorics, graph theory, Boolean algebra, and finite-state machines.
Explores probability theory, random processes, and their engineering applications.
Covers numerical techniques for solving equations and optimization problems.
Explores quantum mechanics, semiconductors, and electronic device design.
Examines software development, object-oriented programming, and team collaboration.
Focuses on digital circuit design, combinational/sequential logic, and FPGAs.
Covers advanced circuit analysis techniques and practical applications.
Builds on object-oriented programming with data structures and algorithms.
Explores advanced mathematical concepts and their engineering applications.
Focuses on thermodynamics and fluid mechanics in energy systems.
Explores electric/magnetic fields, Maxwell's equations, and applications.
Introduces transistors, amplifiers, and integrated circuit fundamentals.
Focuses on algorithm design, complexity, and computational applications.
Explores probability, distributions, hypothesis testing, and regression with practical applications.
Introduces project management principles, scope, and team planning.
Explores embedded systems and robotics through hands-on design.
Applies mathematical modeling to biological systems and processes.