• Understand the relationship between biochemistry and thermodynamics and their relationship to metabolism.• Understanding the kinetics of enzymes and their relationship to biological catalysts and the effect of PH and temperature on enzyme reactions.• Understanding of colligative properties and their relationship to biochemistry applications.
Intended learning outcomes
a- Knowledge and understanding1- The student's knowledge of the relationship between biochemistry and thermodynamics.2- The student's ability to understand the kinetics of enzymes and the effect of pH and temperature on enzyme reactions.3- Knowing the basics of gas properties, enzyme kinetics, and their relationship to thermochemistry.B- Mental skills1- The ability to understand the thermodynamics of metabolism.2- Understanding enzymes as biological catalysts3- The study and interpretation of physical phenomena in biological systems using the concepts of physical chemistry.C - Practical & professional skills1- The ability to correctly use data analysis methods and related equations.2- The ability to link the theoretical and practical basis3- Understand the correct use of laws in data analysis.D- Generic and transferable skills1- The student should be able to write scientific reports.2- Acquire the skill of scientific research using the Internet to obtain the required information3- The ability to read relevant research and scientific literature
Teaching and learning methods
Use of lectures.Using the information network to obtain direct information from students.Panel discussions and brainstorming.co-operative education.Collective research project, writing reports, presenting its own presentation, and writing scientific articles.
Methods of assessments
First written exam 25%Second written exam 25%final exam 50%
