It aims to provide students with basic knowledge on how to manage money and financial resources, whether at the individual or institutional level. The course focuses on understanding the basics of finance such as financial planning, budgeting, savings management, and investing, as well as knowledge of personal finance tools and concepts and business projects. The course aims to enable students to make informed and sustainable financial decisions.

It is a course that aims to provide students with the basics of mathematics that are used in various fields of engineering, social, and economic sciences. The course focuses on introducing basic mathematical concepts such as algebra, mathematical equations, and geometric measurements, with the aim of enhancing students' logical and analytical thinking skills. This course is one of the basic courses provided to students who need a comprehensive mathematical understanding that enables them to solve problems in their various specializations.

It is a course that aims to provide basic and advanced concepts related to establishing and managing business projects, and enhances students’ skills in creating business ideas and transforming them into successful projects. The course focuses on developing entrepreneurs’ skills in the areas of planning, strategy, leadership, and innovation, and enhances understanding of how to face challenges and achieve success in changing business environments.

It aims to develop students' skills in the areas of effective learning and effective communication. The course focuses on teaching students how to improve their ability to acquire and organize knowledge, in addition to developing oral and written communication skills that contribute to achieving academic and professional success in various work environments.

It is a course that aims to teach students the ethical principles that Islam urges, and how to apply these values ​​in their daily lives. The course focuses on understanding Islamic teachings related to ethics, and how to promote positive behaviors and integrity, and maintain the highest human values ​​in various aspects of life.

The History and Civilization of the Kingdom of Saudi Arabia course is a course that aims to provide a comprehensive study of the history of the Kingdom of Saudi Arabia, from its inception to the modern era, in addition to the development of its civilization in various social, political, cultural and economic fields. The course focuses on the stages of transformation and development that the Kingdom has gone through, highlighting the factors that built the modern Saudi state and its impact on the region and the Islamic world.

A course that aims to develop students’ skills in the Arabic language, both in terms of understanding and oral and written expression. The course focuses on improving students’ ability in listening, reading, speaking, and writing skills, while strengthening grammar and linguistic structure. It also focuses on training students to use the Arabic language in various life and academic situations in a correct and effective manner.

A course that aims to educate students about the concept of Islamic faith in particular, with a focus on the role of faith in building the Muslim family, guiding the behavior of individuals within the family, and promoting Islamic values ​​and principles that govern family relationships. The course also addresses how to achieve a balance between the concepts of faith and family lifestyles, and rights and duties within the family in light of the teachings of Islam.

A course that deals with the study of the interpretation of the verses of the Holy Quran, and seeks to clarify the meanings of the verses and extract lessons and morals from them based on precise scientific and methodological foundations. The course aims to enable students to understand the deep meanings of the verses of the Quran by studying the reasons for revelation, different readings, and the impact of the Quran on daily life, while delving into the various sciences of interpretation and their applications.

The course aims to teach students the texts of the Holy Quran, understand their meanings and interpretations, as well as enhance their spiritual and educational connection to the teachings of the Quran. The course focuses on studying the Holy Quran in terms of interpreting the verses, understanding their historical contexts, and extracting lessons and morals from them, in addition to learning how to recite the Quran and its Tajweed correctly.

It is a course of study that aims to develop students' skills in the English language, and covers the basic aspects that enable them to use the language effectively in academic and practical life situations. The course focuses on improving listening, speaking, reading, and writing skills, with an emphasis on basic grammar and vocabulary necessary to build a strong foundation in the English language.

It aims to provide students with basic knowledge and practical skills in the use of computers and computer software. The course focuses on teaching students how to deal with different software applications, understand operating systems, and interact with Internet tools in order to enhance their ability to use computers efficiently in daily, academic, and professional life.

Theoretical part: Introduction to chemistry, Matters and measurements,, Structure of atom and periodic table, stoichiometry and chemical equations, liquids, solutions, chemical thermodynamics, electrochemistry, Introduction to organic chemistry. Practical part: Laboratory Safety Rules, Determination of the density of liquids and solids, Determination of the composition of hydrated salt, Preparation of standard solution, Dilution of solutions, Determination of the gas constant (R), Determination of the molar mass of volatile liquid, measuring pH with pH paper and pH meter, pH measurements using indicators, quantitative analysis, acid-base titration.

The course aims to provide the basic concepts and tools that students or professionals need to understand how to manage projects effectively from start to finish. The course covers various aspects of project management including planning, execution, monitoring and evaluation.

It aims to provide students with the basics of statistics and its applications in daily and professional life. The course covers the basic topics of statistics and includes a set of theoretical and practical concepts that help in understanding and analyzing data in a scientific and systematic way.

A course intended for students in the early stages of their undergraduate studies in various scientific and engineering disciplines, and aims to introduce the basic concepts in physics and understand the principles governing natural phenomena. The course focuses on providing students with the tools and knowledge necessary to understand the behavior of objects and the interactions between forces and energy, and it is the basis for understanding advanced physics courses in the future.

It aims to teach students the basics and concepts related to differential calculus, which is a branch of mathematics that focuses on the study of changes and ratios related to specific quantities. This course is one of the main courses in mathematics, engineering and science programs, as it is used to analyze and study changing phenomena such as movement, growth, economic changes, and others.

Introduction to biology, its definition, and its main branches with study of the characteristics of the living organism. Identify cell structure and types (prokaryotic, plant, and animal cells), cellular organelles' functions, and the steps of the mitotic and meiotic divisions. Study the plant and animal tissues and their different types (structure and function), the basics of taxonomy, and specific characters of living organism kingdoms. Study representatives of other taxonomic groups, and study some biological and physiological processes of living organisms.

It aims to teach students basic English language skills, whether the goal is to improve everyday communication skills or to prepare for using the language in academic or professional contexts. The course includes a range of topics that enhance students' understanding of the English language and help them express themselves effectively in a variety of contexts.

The definite integral, fundamental theorem of calculus, the indefinite integral, changes of variable, integration of trigonometric and inverse trigonometric functions. Integration of the hyperbolic and inverse hyperbolic functions. Techniques of integration: substitution, by parts, trigonometric substitutions, partial fractions, indeterminate forms, improper integrals, numerical integration. Application of definite integral: Area, volume of revolution, work, arc length. Polar coordinates.

This course is essential for anyone who will be working in a chemistry
laboratory, including students, Staffs, and technicians.
This course equips you with the knowledge and skills to work safely and effectively in a chemistry laboratory. It emphasizes the importance of laboratory safety culture and provides practical training in handling chemicals, equipment, and waste.

The "Principles of Artificial Intelligence" course aims to introduce students to the fundamental concepts of AI and help them understand the various applications of this field in our daily lives. The course focuses on providing both theoretical and practical foundations that contribute to the development of intelligent systems, as well as explaining the tools and techniques used in building these systems.

This course introduces the volumetric analysis concepts, methods of expressing concentration,
calculations in analytical chemistry, treatment of results, neutralization reactions, indicators,
titration curves, precipitation reactions, argentometric titration, indicators in precipitation,
complexometric titration, and redox reactions.

The importance of chemical thermodynamics and thermodynamic processes. The zero law of thermodynamics. Internal energy, the first law of thermodynamics, thermal capacity, change of enthalpy with temperature and pressure, relationship between heat capacity at constant pressure and volume. The second law of thermodynamics, the Carnot cycle, the mathematical expression of entropy, the relationship between the first law and the second law in thermodynamics, internal energy and relation between entropy, temperature and volume. Calculation of entropy and third law changes, third law in thermodynamics, determination absolute entropy, and standard entropy changes in chemical reactions. Gibbs free energy changes for chemical reactions.

"Theoretical Part: This course is designed to provide a fundamental overview of the concepts and skills necessary to have a strong foundation in organic chemistry. Upon successful completion of this class, students will understand the relation between structure and function of molecules, the theoretical concepts of organic chemistry; rationalize the major classes of reactions, and synthesis of organic compounds. Several themes are prevalent in each unit in study: nomenclature, chemical and physical properties, and structure. Practical Part: The practical part is designed to teach the students the skills necessary for keeping themselves safe at the organic chemistry labs, to make the students familiar with equipment and glassware in chemical laboratory, to introduce the students the tools, techniques, and methods of the modern laboratory, to enable the students purifying organic compounds using different types of purification techniques, to qualify the students doing simple experimental tests for the characterization of different classes of organic compounds, and to empower the students to use molecular modeling. "

This course aims to understand the basics of the periodic table ranking ( periodicity ) - Learn the types of bonds and understand the bases of their composition by Lewis structure forms - Know the bases of the formation hybrid orbits - Know the fundamentals for reactions that occur in solutions and understand how to write their equations. The most important topics will be covered in this coures are (Atomic structure- Light (electromagnetic light)- Emission spectrum of hydrogen atom- Quantum theory of light- Bohr theory- De Brogli hypothesis- Quantum numbers- Atomic orbits - Electronic order of elements - Results of periodic order of elements ( periodicity ) - Lewis symbols - Ionic bond - Covalent bond - Hybridization - valance bond theory - geometry of inorganic molecules. Reactions in solutions (precipitation and neutralization reactions), oxidation and reduction principles and balance the red/ox equations by half reaction method.

This course provides a sound understanding of basic information about industrial processing. Away from the traditional branches: organic, inorganic, physical, and analytical chemistry. This course areas such as raw materials sourcing and processing, intermediates and conversion of chemical materials to final products. It teaches important concepts such as optimization, mass balance, and energy balance which are very crucial to the processes of materials in chemical industries especially thermal chemical industries, identification of chemical transformation processes, most important types of catalysts used in chemical industries, electrochemical cells, electrolysis and its applications in industry and the phenomenon of corrosion and its solution

This course provides a sound understanding of basic information about electrochemistry, types of electrochemical cells, EMF and its measurement, galvanic cells, liquid-liquid junction potential, double layer, single electrode potential, standard electrodes, electrochemical series, thermodynamics of electrode potential, Nernst equation, Application of emf measurements, classifications of electrodes, concentration cells, storage cells (reversible and irreversible), fuel cells, electrolysis and its mechanism , Faraday’s laws of electrolysis, decomposition potential and its measurement, over voltage, types of polarization, hydrogen overvoltage.

This course provides a sound understanding of basic information about electromagnetic radiation and the quantum theory, Bohr’s atomic theory, the foundation of quantum mechanics, Schrodinger’s equation, wave mechanic, quantum mechanics postulates, quantum mechanics of some simple systems, treatment of angular momentum in quantum mechanics, harmonic oscillator, quantum mechanics of hydrogen atom, quantum numbers, spin quantum number.

The course aims to provide students with the basic properties of phase rule and solution chemistry. It provides them with details about colligative properties, solute and solvent activities, partial molar quantities, knowledge of the basis of phase change, electrical conductivity, one-component system and two-component system

This course provides an understanding of basic information about the gravimetric analysis, ‎the methods, and requirements of gravimetric analysis, the theoretical principles of ‎precipitation, the methods of contaminates removing or minimizing, organic precipitants, ‎requirements, and its application.‎

This course describes Modern theories of covalent bond, periodic table, principles of periodic arrangement of elements, Group IA, Alkali metals (lithium -cesium), Group II A Alkaline earth metals (beryllium - barium), Group III A (boron - thallium), Group IV A (carbon – lead), Group VA (nitrogen – bismuth), Group VIA (oxygen – selenium), Group VII A (fluorine – iodine), Group VIIIA (noble gases), compounds of representative elements

Theoretical part: Introduction, classification, properties, preparation methods and reactions of (alcohols, ethers, phenols, aldehydes, ketones, carboxylic acids and their derivatives, amines). Practical part: The laboratory provides students with training in organic chemistry laboratory skills such as different methods for mixture separation and identification of organic compounds.

The aim of this course is to know the general properties of transition elements, Coordination Chemistry, Effective Atomic Number Rule (EAN), chemical linkage theories for complexes of transition metals, Jahn-Tellor Effect, Magnetic and Spectroscopic Properties of Transition Metal Complexes, Applications of Compounds/Complexes of Some Transition metals.

The aim of this study is to provide an understanding and appreciation of instrumentation in all fields of chemistry and its applications The course explains the classification of instruments based on the interactions of the molecules with the matter and energy, the principals involved in the individual technique and their applications in various fields. Laboratory equipment in this category includes the atomic absorption spectrophotometer, mass spectrometer and colorimeter. FT-IR spectroscopy, X-ray generation and x-ray spectroscopy, Thermal analyzer, Liquid and gas Chromatography instruments. Information about various instruments and their operation techniques

This course includes Classification of electrochemical methods of analysis, potentiometric methods, the composition of the electroanalytical cell, types of electrodes, Reference electrodes, working electrodes, ion selective electrodes (ISE), molecular selective electrodes (MES), electrochemical sensors, voltametric methods of analysis and polarography, stripping voltametric methods, amperometry methods of analysis, coulometry, electrolytic conductance, and electrogravimetry.

The main objectives of the course is to provide students with the understanding and predicting of the crystal structure in relation to properties of solid materials, crystal defects, Physical properties such as Optical, Magnetic and electrical properties of Solids, Semiconductors and solid solutions

The students will gain the basic biochemical knowledge necessary to meet the institutional objectives and goals for general biochemistry. In addition to basic biochemistry, students will acquire information emphasizing carbohydrate, amino acids , proteins, lipids, Hormones , nucleic acids , enzymes, vitamins and general metabolic pathway of these macromolecules.

This course included Molecular (UV-VIS) and atomic spectral analysis methods, single and double beam spectral instruments, components of instruments (sources- monochromators- detectors …. etc.), qualitative and quantitative spectral analysis aspects, Beer`s law and its application, spectrophotometric titrations, interferences, fluorescence, and phosphorescence. Flame atomic absorption spectroscopy apparatus, interference, and their elimination, methods applications of flame atomic absorption, fluorescence, and emission spectra for qualitative analysis.

"Introduction to heterocyclic chemistry, definition, classification of heterocyclic compounds, and nomenclature of different classes of heterocyclic compounds. Study the physical properties, synthesis, addition, nucleophilic, and electrophilic substitution reactions of five-membered rings, which contain one or two heteroatoms (Pyrrole, Furan, Thiophene, Pyrazole, Thiazole, Iso-thiazole, Imidazole, Oxazole and Isoxazole). Study of synthesis and reactions of six-membered rings, which contain one or more heteroatoms (Pyridine, Alkyl Pyridines, Pyran, Thiazines, Pyridazine, and Pyrimidines). Methods of Preparation and reactions of some fused heterocyclic compounds. Applications of heterocyclic compounds, practical section Synthesis of some heterocyclic compounds, Theoretical Yield, and Percentage Yield Calculations "

The aim of this work is to give the fundamental concepts about organometallic compounds: electronic structure, nomenclature, preparation and reactivity of (organomagnesium, organolithium, copper organocompounds, aluminium organocompounds, zinc organocompounds)

The course aims to study the different geometric and spatial shapes of inorganic compounds based on group theory and the spectral properties table and to deduce the spectra based on theoretical calculations and link them to practical measurements

Polymer Chemistry is a course that introduces students to Polymer science, and technology, where types of polymers, reactions to form polymer, polymerization mechanisms, structures, properties and application of polymer will be taught. Also, this course introduces students to organic chemistry as practiced in the refinery and petrochemical industries. It covers general discussions about fossil fuels, gas and petroleum exploration, refining and up-grading processes, industrial scale conversion of selected primary petrochemicals into chemicals and products that dominate our everyday life. The reaction mechanisms of some industrial chemical and up-grading processes are also covered

Identification of the reaction rate and the influencing factors, order, half life time and types of reactions, theories of kinetic (Collision and activation energy- Reaction Coordinate Diagrams- Maxwell–Boltzmann Distributions- Arrhenius model), reaction mechanisms, catalysis and its importance.

This course provides a sound understanding of basic information about corrosion studies, classification of corrosion, expressions of corrosion rate, corrosion principles, electrochemical principles of corrosion, types of electrochemical cells, thermodynamic principles of corrosion, free energy of corrosion process, E/pH diagram (pourbaix diagram), electrical double layer at a metal electrode, kinetics of electrochemical corrosion, polarization of electrodes, mixed potential theory, kinetics of passivity, protection of metals from corrosion.

This course enables students to; know separation methods, simple separation methods and its applications, separation by chromatographic methods: chromatographic columns, columns of highpressure, capillary columns, thin-layer chromatography, paper chromatography, gel chromatography, gas and liquid chromatography, chromatogram, , qualitative and quantitative chromatographic analysis.

This course provides a comprehensive overview of renewable energies, including solar energy, wind power, hydropower, fuel cells, biomass, and alternative transportation options. It includes the principles of solar home design, solar hot water, pool and space heating and solar cooling for both new and existing construction. Meanwhile it describes the assessment the viability of a wind power, hydropower or biomass system for a given site. Learning about the impact of government regulations on the use of renewable energies will be covered and Students will analyze these renewable energy systems and calculating savings fractions, backup energy needs, financing options, and economic analyses will be visualized too. Ultimately, it will deal with investigation the potentials of renewable energy technologies to help solve environmental and economic problems within society.

It contains the full description of all fundamental concepts of nanotechnology. It will lunch types of nano materials- Microstructure – Properties – Application in different fields – Reliability issues of MEMS/NEMS. Besides, the course shows the all-possible synthesis of nanomaterials.

This course provides a sound understanding of basic information about natural products; Introduction and history of natural products; types of natural products; essential oils; uses and chemistry of essential oils; extraction of essential oils; plant extracts production, separation, purification, methods of recognizing and structural of natural products; terpenoids (monoterpens, sesquiterenes and polyterpenoids); alkaloids (classification of alkaloids); ephedrine; flavonoids and steroids.

This course provides an introduction to concepts in physical organic chemistry that are used to explain structure reactivity relationships including discussion of reactive intermediates, substituent effects, medium effects, the mechanisms of organic reactions and the theoretical description of the bonding in organic molecules

This course provides basic information about quantum chemistry (2): Schrodinger equation for many-electron atoms (helium atom), electron spin, Pauli Principle, using the variation method to solve Schrodinger equation, Hamiltonian Operator of multi-electron atoms, angular momentum Quantum Harmonic Oscillator, Rigid Rotor and Spherical Harmonic, Molecular spectroscopy, Vibration Spectrum, Rotation – Vibration Spectrum and Normal Modes.

This course enables students to: Manufacture methods of mineral acids(HNO3-HCl- H2SO4) 2) Manufacture methods of cement 3) Manufacture methods of glasses 4) Manufacture methods of ceramics 5) Alkaline and alkaline earth metals in biological systems 6) Metals and nonmetals in biological systems 7) Theory and applications of electron spin resonance spectroscopy 8) Catalytic reactivity of organometallic compounds 9) Hydrogen: Isotopes of hydrogen, properties of hydrogen, hydrides, water and hydrogen bonding, biological aspects of hydrogen bonding. 2-Practical part 1) Synthesis of some metal complexes and organometallic compounds and evaluate the homogenous and heterogeneous catalytic activity. 2)Synthesis of some nano inorganic composites for applications in wastewater treatment. 3)Synthesis of some copper complexes with different anions and study the ESR spectra.

This course aims to understand the f orbitals, their spatial distribution, naming, electron configuration, oxidation states, and general properties of lanthanides, comparing them with transition metal ions and alkaline earth elements. It covers the lanthanide contraction phenomenon, spectral and magnetic properties of lanthanides, separation of lanthanides, and industrial applications of lanthanides and actinides. Additionally, it explores the spectral and magnetic properties of actinides, preparation methods, and complexes of lanthanides and actinides

This practical course is designed to provide students with vocational skills and professional-recognized certifications relevant to the field of basic sciences. It aims to equip students with the necessary knowledge, skills, and practical experience to meet professional standards and enhance their employability in various sectors, including safety, quality control, Analytics Professional, and specialized technical areas.

This course enables students to:
develop an awareness of current and effective research and writing practices with the goal of implementing and synthesizing such practices into their writing and research projects. Students will learn what constitutes graduate-level writing and research as well as how to communicate with colleagues in online professional forums. Students will also learn to effectively integrate writing and research skills
into the writing projects they will pursue throughout their graduate-level programs. Learn how to choose a good topic, Narrow your topic. Learn to gather data, develop reading skills, take notes, develop critical thinking, Meet the deadlines. Enhance discipline The aim of this course is explain and understand the fundamental and the principles statistical calculation such as Standard deviation, relative standard deviation, random error and its sources, confidence, precision and accuracy, (t) test, (f) test, calibration curves for determination of concentration of solution, application of available PCsoftware to solve numerical problems in the various areas of chemistry and to treat laboratory data, implementation of ready-to-use PC- programs in chemistry. 

The course aims to provide students with the opportunity to learn about the work environment and the regularity and commitment it requires within the training entity, Providing students with the opportunity to apply the theoretical sciences they acquired at the college within the work environment, Providing students with the opportunity to see the equipment in companies and institutions and trying to link it to the equipment they learned about, learning about career opportunities in those training bodies, accustoming students to taking responsibility, adhering to deadlines, respecting others, listening to their opinions, and accustoming students to working in one team.

Various spectroscopic methods to determine the structure of organic compounds, the study of spectra (UV, visible and infrared and nuclear magnetic resonance of the proton, and mass spectrometry) and applications include various types of spectra.

This course of physical chemistry is designed to give the basic concepts about surface chemistry, adsorption, the role of surfaces in heterogeneous catalysis, homogeneous catalysis, and chemical kinetics in heterogeneous catalysis. The student will get the essential knowledge about the energy of solid surfaces, physical and chemical adsorption, and basic catalysis mechanisms, chemical kinetics in heterogeneous catalysis, adsorption isotherms, types of catalysts, their preparations, and properties, industrial catalytic reaction.

This course gives the students an overview of natural organic compound , Chemistry of food, Crude oil and their analysis. Also the student will know about Nanomaterials, and renewable energy. The main objective of this course is Identifying the types of natural organic compounds and their importance. Understand food components and food analysis methods in addition to preservatives and antioxidats. Also the student can describe nano-materials and different types of renewable energy systems.

The course aims to provide students with the opportunity to learn about the work environment and the regularity and commitment it requires within the training entity, Providing students with the opportunity to apply the theoretical sciences they acquired at the college within the work environment, Providing students with the opportunity to see the equipment in companies and institutions and trying to link it to the equipment they learned about, learning about career opportunities in those training bodies, accustoming students to taking responsibility, adhering to deadlines, respecting others, listening to their opinions, and accustoming students to working in one team.

Introduction to some concepts and definitions, different classifications of polymers, methods of polymerization and copolymerization, Molecular weight determination of polymer, composition of polymer chains (structure and micro-structure), solubility and homogeneity of polymers, determination of general properties for polymers( thermal, mechanical, and conductivity), electronic polymers.

By this course, students will gain necessary information about the meaning of photochemistry, its concepts, laws, characteristics of compounds under light irradiation, in addition to the photoinduced reactions, their mechanism, kinetics and the recent impacts of photochemistry in environmental and industrial sectors.

The course aims to study how different inorganic reactions occur and how metal complexes are formed based on different theories and to study the rate of these reactions. The course also aims to understand the role of metals, their salts and complexes within living organisms.

The laboratory provides students with training in advanced organic chemistry laboratory skills such as different methods for the extraction of volatile oils, and synthesis and identification of some important organic compounds. Students will also practice and refine their scientific writing skills and learn basic spectroscopic techniques used to analyze reaction products and other organic chemicals, including FTIR, GC-M, NMR, and UV-vis spectroscopies

This course is designed to provide graduate students an advanced, cohesive understanding of analytical chemistry methods and instrumentation to promote success in their graduate careers. Core concepts will be presented by both students and course director via lecture presentations and discussions. The curriculum will be wide in scope incorporating aspects of statistics, error, limits of detection, chemical measurements, modern analytical instrumentation, and determination of chemical structure via analytical techniques. Special emphasis will be put on the appropriate preparation, and meaningful presentation, of scientific results. The student is expected to dedicate significant effort both in and out of lectures to be successful chemistry.

The Green Chemistry course is designed to provide students with a comprehensive understanding of sustainable and environmentally friendly practices within the field of chemistry. This course delves into the principles and applications of green chemistry, emphasizing the development of alternative, eco-friendly processes and materials. Students will explore topics such as the design of greener chemicals, safer chemical synthesis methods, and the reduction of environmental impact in chemical processes. The curriculum integrates both theoretical knowledge and practical skills, equipping students with the tools to assess and implement green chemistry solutions. Emphasis is placed on the importance of minimizing waste, energy consumption, and hazardous substances in chemical production. Overall, the Green Chemistry course aims to foster a deep appreciation for environmentally conscious practices in the field of chemistry, preparing students to contribute positively to sustainable and responsible scientific endeavors.

Study the chemical and physical methods to follow the reaction mechanism, nucleophilic and electrophilic substitution reactions, elimination reactions, electrophilic addition to a double bond, addition to a carbonyl groups, and rearrangement in organic compounds.

In this course the students will use the fundamental principle chemistry to gain an understanding of the source, fate and reactivity of compounds in natural and polluted environments, composition
of atmosphere layers, water sources and types and composition of land, sources of pollution for air , water soil Effect of pollution on plant, animal, human being , Methods to eliminate or reduce the air pollutions Studying methods for production fresh water Waste water treatment plant Methods to eliminate or reduce the soil pollutions

Professor suggest the research points for student involving the optimal way for achieving this project .Firstly professor teaches the student the right way for survey and collecting literatures .He also determines the methodology that will be followed up. Achieving some experimental parts concerning the project Analysis and interpretation of results .Writing the project report, after that student presents a seminar pointing out the entire project.