Introduce the student to:1) Solving advanced problems and mathematical calculations in gravimetric analysis and studying its types in detail, studying thermogravimetric analysis2) Studying equilibrium states in complex systems in aqueous solutions and studying mathematical calculations and their variations3) Knowledge of the theoretical foundations and principles of automatic chromatographic analysis of devices such as HPLC-MS, GC-MS,4) Knowledge of the theoretical foundations and principles of automated spectroscopy analysis of devices such as UV, FTIR, NMR, AAS, ICP-MS5) How to apply the principle of quality in methods and results and use Microsoft Excel in processing the results.

This course aims to:• The student should explain the science of coordination compounds and the types of bonds in them.• To explain the composition, characteristics, and physical and chemical properties of compounds of transition elements depending on theories of crystal field, molecular orbitals and related field theory.• Explain the concepts of chemistry of the lanthanides and actinides by studying the oxidation states - and the physical and chemical properties of both.• Clarifies the problems related to the chemistry of transitional and internal transition elements with solutions to them - by exercising higher-order thinking skills and analyzing, interpreting and discussing results and information.

This course aims to:1) Familiarity with the skills necessary to understand organic interactions.2) Learn about the reactions that form a carbon-carbon bond. 3) Familiarity with electrophilic and nucleophilic interactions and free radical interactions.

This course aims to:1) Understand the basics and laws of thermodynamics and study the thermodynamics of electrolytic and non-electrolytic solutions, in addition to identifying the equations of state for real gases.2) Learn the basics of statistical thermodynamics.3) Studying and knowing the theories of quantum mechanics, including postulates, and how to deal with influences and their applications in explaining some phenomena that classical mechanics failed to explain.4) Studying the non-time-dependent Schrödinger equation and its applications, in addition to angular momentum and its applications.

This course aims to:1) The importance of proteins and their relationship to the human body.2) The relationship of RNA to some human diseases.3) Knowledge of medical applications about the nature of fats.4) Diagnosis of diseases resulting from defects in metabolic processes, especially sugars, nucleic acids, proteins and peptides

• Studying atoms with many electrons, in addition to the Pauli principle and electron rotation from the point of view of quantum chemistry.• Learn about the Ferial theory as well as the Hellmann-Feynmann theory and its applications in the field of quantum mechanics.• Using the theories of quantum mechanics in solving problems related to chemistry, such as the molecular structure of diatomic compounds, as well as the electronic structure of polyatomic particles.

• The student learns the basics of surface chemistry, catalysis and its phenomena, such as studying the theories of surface tension and its laws.• To identify the types of solutions, types of colloids, their properties and methods of preparation.• The student should distinguish between chemical and physical adsorption and study homogeneous and heterogeneous catalysis and its laws and applications.

• Introducing the student to theories related to electrochemistry.• Studying some electro-analytical techniques• Knowledge of practical and industrial applications of electrochemistry.• Introducing the student to the corrosion phenomenon.

This course aims to:• Identify the importance of polymers in practical life.• Familiarity with the nature of polymers, methods of preparation, properties and polymerization kinetics.• Study methods for determining the molecular weights of polymers.• Identifying the chemical form of polymers and studying thermodynamics, physical and mechanical properties of polymers.

This course aims to:• The student learns the basics and theories of kinetic chemistry and thermodynamics statistics.• The student should know the kinetics of rapid reactions and the effect of catalysts on different reactions.• To familiarize the student with photochemistry and its applications.

This course is designed to serve as a spectroscopy course in physical chemistry for postgraduate students at the University of Tripoli. It focuses on:• That the student learn the basics of visible and ultraviolet spectroscopy.• Identify the vibrational spectrum of particles and study the rotational spectrum of linear and non-linear particles.• Familiarize students with the basics of nuclear magnetic resonance spectroscopy and electronic magnetic resonance.

As chosen by the lecturer and the student

According to what is agreed upon by the supervisor and the student, with what is included in the laboratory experiments

This course is designed to achieve the general objectives in the form of outputs that the student is supposed to acquire after successfully completing the course, as follows: The ability to organize the research program (graduation project) and coordinate it.Writing in a smooth, harmonious manner and in a scholarly context.Organizing and arranging ideas.Preparing a research proposal and writing scientific reports according to the requirements of the plan.Describe and analyze tables and figuresWriting a graduation project

According to what is agreed upon by the supervisor and the student, with what is included in the laboratory experiments