This course unit introduces the fundamental principles of atomic structure and periodicity, providing you with a clear understanding of how atoms form the basis of matter and how their properties are organized in the periodic table. It explores electron configurations, periodic trends, and chemical behavior, linking theory to practical applications in science.
This course unit introduces the principles of genetics and variation, focusing on the mechanisms that govern inheritance and diversity in living organisms. You will explore the structure and function of DNA, Mendelian and non-Mendelian inheritance patterns, and the role of genetic variation in evolution and adaptation. The course unit emphasizes analytical skills, scientific inquiry, and practical applications of genetics in fields such as medicine, agriculture, and biodiversity conservation.
This cousre unit introduces the field of sports psychology, focusing on the mental and emotional factors that influence athletic performance and participation. You will explore motivation, confidence, stress management, and team dynamics, alongside psychological strategies for training and competition. The course unit emphasizes practical applications, fostering resilience, focus, and overall well-being in sports.
This course unit introduces the elements of physics, covering its fundamental branches and principles that explain the interactions of matter, energy, and forces. You will explore mechanics, thermodynamics, electromagnetism, optics, waves, relativity, quantum mechanics, and nuclear physics. The course unit emphasizes analytical reasoning, problem-solving, and the application of physical laws to real-world phenomena, fostering a deeper appreciation of scientific inquiry and technological progress.
This course unit introduces the principles of waves and optics, focusing on the behavior of mechanical and electromagnetic waves, reflection, refraction, interference, and diffraction. You will explore the properties of light, optical instruments, and applications in science and technology. The course unit emphasizes analytical skills, experimental methods, and practical problem-solving in physics.
This course unit introduces the fundamental concepts of sets and logic, providing the basis for mathematical reasoning and problem-solving. You will explore set operations, relations, functions, and logical connectives, while learning techniques of proof and argumentation. The course unit emphasizes clarity of thought, analytical skills, and applications across mathematics and computer science.
This unit course unit introduces the foundational concepts of differential calculus, focusing on limits, continuity, and the derivative. You will learn techniques for differentiating functions, applying derivatives to analyze change, and solving real-world problems in science and engineering. The course emphasizes mathematical reasoning, problem-solving skills, and practical applications of calculus in diverse fields.
The seminar on contemporary science aims to broaden participants’ understanding of current scientific advancements, interdisciplinary innovations, and their societal impacts. The seminar's objectives include fostering critical thinking, encouraging dialogue on emerging technologies, and highlighting ethical considerations. This will enable the participants to enhanced knowledge and professional growth, and create inspiration for future research.
This course unit introduces the basic principles of electricity and magnetism with emphasis on practical applications. You will study electric fields, circuits, magnetic effects, and electromagnetic induction. The course unit develops problem-solving and experimental skills, preparing you to apply concepts in technical, engineering, and everyday contexts.
Electricity & Magnetism introduces the fundamental principles governing electric and magnetic phenomena. You will study electric fields, potentials, circuits, magnetic fields, and electromagnetic induction. The course emphasizes theoretical understanding and practical problem-solving, to equip you with essential knowledge for applications in physics, engineering, and modern technological systems.
Properties of Matter, Heat and Thermodynamics introduces the physical principles governing matter and energy. You will explore states of matter, elasticity, thermal properties, heat transfer, and the laws of thermodynamics. The course emphasizes conceptual understanding and problem-solving, preparing you to apply these principles in physics, engineering, and real-world contexts.
Geophysics introduces the study of Earth’s physical properties and dynamic processes using quantitative methods. You will explore seismic waves, gravity, magnetism, heat flow, and plate tectonics. The course unit emphasizes data analysis, modeling, and interpretation, preparing you to apply geophysical techniques in resource exploration, environmental studies, and understanding Earth’s structure.
This course unit explores the chemistry of proteins and sugars, focusing on their structure, properties, and biological significance. You will study amino acids, peptide bonds, carbohydrate classification, and reactions. Practical applications highlight their roles in nutrition, biochemistry, and industry, building skills for analyzing biomolecules and understanding their functional importance.
This course unit offers laboratory experience in physical chemistry, covering thermodynamics, kinetics, electrochemistry, and spectroscopy. You will practice accurate measurement, data analysis, and safe handling of instruments. Experiments reinforce theory while developing essential skills in interpreting results, applying techniques, and presenting findings for advanced study and professional scientific work.
This course unit introduces multimedia systems, integrating text, graphics, audio, video, and animation. You will learn data representation, compression, and delivery platforms while exploring interactive design and user experience. Practical projects develop skills in creating, managing, and evaluating multimedia content for communication, education, and entertainment across digital environments.
This course unit provides students with practical knowledge and skills in computer hardware repair and maintenance. You will study the functions of key components such as the motherboard, CPU, memory, storage devices, and power supply, while gaining experience in diagnosing and troubleshooting hardware faults. Emphasis is placed on preventive maintenance, safe handling of equipment, and effective repair techniques. Through lectures, demonstrations, and hands‑on practice, you will learn to assemble, upgrade, and maintain personal computers. The course unit will equip you with the technical expertise needed to ensure reliable system performance and prepare for careers in IT support and hardware servicing.
This course unit introduces programming with Visual Basic .NET, covering syntax, data types, control structures, and event‑driven design. You will build user interfaces, handle errors, and connect to databases through practical projects. The course develops skills for creating Windows applications and provides a foundation for advanced software development.
This course unit explores the principles of aromatic chemistry, focusing on the structure, stability, and reactivity of aromatic compounds. You will study resonance, substitution reactions, and practical applications in pharmaceuticals, materials, and industry. The course unit develops analytical skills for understanding aromatic molecules and their role in modern science.
This course unit introduces the structure, properties, and reactions of benzene and aromatic compounds. You will explore resonance, aromaticity, and electrophilic substitution, while examining benzene’s role in pharmaceuticals, polymers, and industry. The course unit builds essential skills for analyzing aromatic chemistry and understanding its scientific and practical significance.