Biology, the study of life, is a vast and intricate field that seeks to understand the mechanisms, processes, and diversity of living organisms. General Biology I, often focusing on Cell Biology and Genetics, serves as a foundational course, delving into the fundamental units of life – cells – and the principles governing heredity. This exploration unveils the remarkable complexity underlying even the simplest forms of life and provides the essential vocabulary and concepts for further biological study.
Read MoreCourse Description General Chemistry I provides students with a foundational understanding of the fundamental principles of chemistry, with emphasis on physical chemistry and inorganic chemistry concepts. The course introduces atomic structure, chemical bonding, stoichiometry, states of matter, periodicity, and the quantitative relationships that govern chemical reactions. Students will develop problem-solving skills, analytical reasoning, and an appreciation for the role of chemistry in scientific and technological
Read MoreCourse Description Mathematics for Biological Sciences is designed to introduce students to the essential mathematical tools required to understand, model, and analyze biological systems. This course bridges the gap between biological concepts and quantitative methods, helping students apply mathematical reasoning to genetics, ecology, physiology, epidemiology, biostatistics, and molecular biology. It covers foundational topics such as algebra, functions, calculus, differential equations, probability, and statistics, with focused examples from real biological processes
Read MoreCourse Description: This course explores the rich cultural heritage and social diversity of Nigeria, examining its peoples, traditions, languages, religions, and social institutions. It aims to provide students with a comprehensive understanding of Nigeria’s cultural dynamics, historical development, and the interplay of traditional and modern influences in shaping national identity. Through lectures, discussions, and practical activities, students will critically analyze
Read MoreCourse Description: This course provides a foundational understanding of computer science principles, focusing on the theory and practice of computing. Students will explore the history of computing, basic hardware and software concepts, problem-solving techniques, programming fundamentals, and the impact of computing on society. By the end of the course, students will develop the skills needed to think computationally and approach problems systematically using computer-based tools.
Read MoreGeneral Biology II is a continuation of the foundational biological sciences introduced in General Biology I. This course focuses on the principles of evolution, ecological relationships, and biological diversity. It examines how life originated, how species evolve over time through mechanisms of natural selection and genetic variation, and how organisms interact within ecosystems. Students are introduced to the patterns and processes that shape the diversity of life on Earth, the ecological principles that govern living systems, and the evolutionary relationships among organisms.
Read MoreGeneral Chemistry II introduces students to the foundational principles of Organic Chemistry, focusing on the structure, properties, reactions, and mechanisms of carbon-containing compounds. The course explores hydrocarbons, functional groups, stereochemistry, reaction pathways, and basic spectroscopy. It is designed to build analytical and problem-solving skills essential for advanced chemistry, biochemistry, medicine, pharmacy, and related fields. This course emphasizes practical understanding, real-life applications, and the relevance of organic molecules in biological systems, industrial processes, and modern technology.
Read MoreThis course introduces students to fundamental laboratory skills essential for success in biochemistry and related life sciences. It emphasizes hands-on experience with basic laboratory equipment, scientific measurement, solution preparation, safety practices, data recording, and experimental techniques commonly used in biochemical research. Students learn how to apply theoretical concepts to practical laboratory work, analyze experimental outcomes, and maintain proper laboratory etiquette. The course also builds confidence in handling reagents, performing simple assays, interpreting results, and adhering to ethical and safety standards in biochemical laboratories.
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