The Bachelor of Engineering program is designed to provide a broad and deep understanding of engineering principles and practices, preparing students for a diverse range of engineering careers. This program integrates theoretical knowledge with practical applications to equip graduates with the skills needed to solve complex engineering problems and innovate in various industries.
Curriculum
Semester 1 & 2:
Modules:
Engineering Mathematics I: Fundamental mathematical techniques including calculus, linear algebra, and differential equations applied to engineering problems.
Introduction to Engineering: Overview of engineering disciplines, problem-solving techniques, and basic engineering concepts.
Physics for Engineers: Core principles of physics relevant to engineering, including mechanics, waves, and electromagnetism.
Chemistry for Engineers: Basic chemistry concepts and their applications in engineering, including chemical reactions, material properties, and environmental impacts.
Engineering Drawing and Design: Introduction to technical drawing, CAD tools, and basic design principles.
Computer Programming: Basics of programming languages relevant to engineering, such as Python, C++, or Java, and their applications in solving engineering problems.
Semester 3 & 4:
Modules:
Mechanics of Materials: Study of material behavior under various forces, including stress, strain, and deformation in solid materials.
Thermodynamics: Principles of energy conversion, heat transfer, and the laws of thermodynamics applied to engineering systems.
Fluid Mechanics: Study of fluid behavior, including fluid dynamics, pressure, and flow analysis.
Electrical Circuits and Systems: Fundamentals of electrical circuits, including circuit analysis, components, and electrical systems.
Dynamics and Control: Analysis of dynamic systems, including motion, forces, and control theory.
Engineering Materials: Study of material properties and selection criteria for different engineering applications, including metals, polymers, and composites.
Semester 5 & 6:
Modules:
Structural Analysis: Techniques for analyzing and designing structural elements and systems, including beams, trusses, and frames.
Heat Transfer: Principles of heat conduction, convection, and radiation, and their applications in engineering systems.
Manufacturing Processes: Overview of various manufacturing techniques, including machining, welding, and additive manufacturing.
Systems Engineering: Approach to designing and managing complex engineering systems, including system integration and project management.
Engineering Ethics and Professionalism: Study of ethical considerations and professional practices in engineering, including sustainability, safety, and legal issues.
Electives: Choose from specialized courses based on your interests and career goals, such as robotics, renewable energy, or automotive engineering.
Semester 7 & 8:
Modules:
Capstone Project: A comprehensive project that involves designing, implementing, and testing an engineering solution, demonstrating the integration of knowledge and skills acquired throughout the program.
Advanced Engineering Topics: Exploration of emerging trends and technologies in engineering, with topics varying based on faculty expertise and industry developments.
Scientific Communication: Training in effective technical writing and presentation skills, including research papers, reports, and oral presentations.
Internship: Industry placement to gain practical experience and apply engineering principles in a real-world setting.
Requirements
- Secondary School Diploma or equivalent qualification.
- Proficiency in English:
- TOEFL: Minimum score of 80 (Test of English as a Foreign Language).
- IELTS: Score of 6.0 or above (International English Language Testing System).
