Faculty of Engineering
The Faculty of Engineering offers programs that combine theory and practical application across multiple engineering disciplines including mechatronics, mechanical, electrical, civil, and materials engineering.
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General Chemistry I
Fundamental concepts of chemistry including atomic structure, chemical bonding, stoichiometry, states of matter, and basic thermodynamics, with practical laboratory applications for engineering students.
General Chemistry II
Continuation of general chemistry covering electrochemistry, chemical equilibrium, reaction kinetics, organic chemistry fundamentals, and industrial chemical processes.
Practical Chemistry I
Laboratory-based course reinforcing general chemistry concepts through hands-on experiments in titration, qualitative analysis, and basic chemical reactions.
Practical Chemistry II
Laboratory experiments in organic and physical chemistry, reinforcing concepts from General Chemistry II through synthesis, analysis, and characterisation techniques.
Introduction to Civil Engineering
Introduction to the basic concepts, scope, and applications of civil engineering, including an overview of structures, transportation, water resources, construction materials, and the role of civil engineers in society.
Concrete and Concrete practice
Engineer in Society
Overview of the engineering profession, its history, ethics, and societal impact, introducing students to engineering practice, sustainability, and professional responsibilities.
Applied Electricity I
Basic electrical principles, circuits, measurements, and practical applications.
Engineering Mathematics II
Advanced mathematical methods for engineering applications, covering differential equations, Laplace transforms, Fourier series, and numerical methods essential for solving complex engineering problems.
General Engineering Laboratory II
Hands-on laboratory experiments reinforcing theoretical concepts across engineering disciplines, developing practical skills in measurement, data collection, and experimental analysis.
Fundamentals of Thermodynamics
Core principles of thermodynamics including the laws of energy, heat transfer, work, entropy, and thermodynamic cycles, with applications across mechanical and engineering systems.
Applied Mechanics
Study of forces, motion, equilibrium, and mechanical systems.