Course Outcomes-Biochemistry

I sem BSc Biochemistry

1. Understanding of Biochemistry as a discipline and milestone discoveries in life sciences that led to the establishment of Biochemistry as a separate discipline.
2. Acquire knowledge about mole, mole fraction, molarity, etc., and apply them in preparations of solutions of desired strengths.
3. Understand the concepts of chemical analysis, accuracy, precision, and statistical data treatment
4. Know the fundamentals of chemical bonds, electronic configuration, theories of bond formation, and the importance of water in biological systems.
5. Demonstrate a solid understanding of key concepts such as coordination number, oxidation states, isomerism, and bonding theories (e.g., crystal field theory, ligand field theory).
6. Explain and apply concepts of acids,bases,Buffers and colligative

II sem BSc Biochemistry

1. Understanding of Biochemistry as a discipline and milestone discoveries in life sciences that led to the establishment of Biochemistry as a separate discipline.
2. Acquire knowledge about organic chemistry and apply them in preparations of solutions of desired strengths.
3. Understand the concepts of arenes, cycloalkanes and alcohols
4. Know the fundamentals of Heterocyclic compounds, trepenes steroids and alkaloids.

Course Outcomes-Chemistry

I sem BSc Chemistry

1. Applying knowledge of stoichiometry reagent preparations with different concentrations is achieved.
2. Understanding of quantum numbers and their significance.
3. Description of various atomic orbital shapes and evolution of the periodic table through history.
4. Analyse and study Periodic trends including atomic radii, ionization energy, and electronegativity.

II sem BSc Chemistry

1. Develop a comprehensive understanding of quantum mechanics, photochemistry and its applications in various fields
2. Develop a solid foundation in chemical bonding, which is crucial for further studies in chemistry and related fields
3. Explore the diverse applications of polymers in industry and everyday life and understand the basic principles of adsorption, partition, and ion exchange chromatography.

Explore the applications of aromatic hydrocarbons and their halides in various industries, such as pharmaceuticals, dyes, and polymer Investigate surface tension, viscosity, and refraction phenomena, along with their practical significance. Additionally, explore different types of liquid crystals and their diverse applications.