1. Provide academic applicants with concepts in industrial chemistry studies to meet the needs of the workforce community.
2. Scientifically trained graduates who can work in specialized laboratories in most industrial chemistry branches with high competency.
3. High rank scientific research candidates in most industrial areas.
4. Graduating self-independent and self-learning candidates with highest level values of cooperation, interaction, and discernment attitudes with the working team.
K1 Recognize the basic concepts in chemistry, physics, mathematics, and the correlated sciences.K2 Describe the principles of different fields related to industrial chemistry.K3 Identify the chemical and mechanical properties of materials and their chemical analysis.K4 Discuss the chemical compounds, functional groups, structures, and effectiveness with practical application in industry.
S1 Apply laws and theories related to industrial chemistry.S2 Conduct experiments and evaluate teamwork results through laboratories and training.S3 Use various instruments efficiently in the analysis of different materials.S4 Interpret the results as an outcome of using instruments in different industrial areas.S5 Communicate effectively with others.
V1 Work in groups and teams collaboratively and effectively in an ethical manner with others.V2 Provide independent self-learning in the area of specialization.
Study Plan
Course details
The course aims to develop students' oral and written communication skills. It includes training on effective speaking, active listening, and report writing.
The course aims to improve Arabic language skills in writing and reading. It includes exercises on grammar, composition, and syntax.
The course covers the fundamentals of calculus and its applications in science and engineering. It includes studying derivatives and integrals.
The course aims to develop English language skills for students in science and engineering fields. It includes writing, reading, and listening skills.
The course covers the principles of Islamic culture and major topics it addresses. It includes discussions on Islamic civilization and Muslim ethics.
The course aims to introduce students to basic digital skills and their applications. It includes dealing with digital applications and using modern technologies.
The course aims to introduce students to the concept of family and its role in Islam. It includes studying Islamic principles for family and social relationships.
The course aims to enhance advanced English language skills for students. It includes exercises on writing skills and analyzing academic texts.
The course aims to present basic concepts in physics. It includes studying topics like motion, forces, energy, and electricity.
The course aims to develop students' learning and critical thinking skills. It includes various learning strategies and critical thinking techniques.
The course covers basic concepts in chemistry, such as atoms, chemical bonds, and reactions. It includes practical applications in science.
The course aims to enhance English for specific scientific and engineering fields. It includes practical language exercises in specialized terms and concepts.
The course aims to continue general chemistry topics such as thermodynamics and acid-base equilibrium. It includes advanced chemical applications.
The course aims to introduce students to volumetric and gravimetric analysis methods. It includes training on preparing solutions and quantitative analysis.
The course aims to introduce students to fundamental concepts of biology. It includes studying characteristics of life, cells, genetics, and organism diversity.
The course covers basics in statistics and its applications. It includes concepts like probability distributions and data analysis.
The course aims to study thermodynamic concepts and their applications in chemical reactions. It includes studying different thermodynamic systems.
The course covers advanced calculus and its applications in science and engineering. It includes topics like multiple integrals and differential equations.
The course aims to study the properties and reactions of inorganic elements in main groups. It includes studying their structures and applications.
The course aims to study chemical reactions in electrochemical cells and electroplating applications. It includes studying Faraday's laws.
The course aims to study the properties of colloidal materials and suspension systems and their applications. It includes analysis methods and surface properties.
The course covers the fundamentals of organic chemistry and organic compound reactions. It includes studying the structure, classification, and basic reactions of compounds.
The course aims to study chemical methods for analyzing environmental pollutants. It includes applications in the analysis of water, air, and soil.
The course covers the study of heterocyclic compounds and their toxic effects. It includes analyzing the properties and toxic reactions of these compounds.
The course aims to introduce students to spectrophotometric analysis techniques and their uses. It includes applications in quantitative analysis of chemical substances.
The course aims to promote entrepreneurship and project management concepts. It includes studying the steps to start a project and develop entrepreneurial ideas.
The course aims to study the properties and reactions of transition elements and their applications. It includes complex compound structures and reactions.
The course aims to encourage students to participate in volunteer activities and community service. It includes planning and executing volunteer projects.
The course covers spectroscopic techniques to determine the structure of organic compounds. It includes practical applications for identifying compounds using IR and NMR.
The course aims to teach students the basics of organic compound synthesis and synthetic reactions. It includes studying various synthesis methods for organic compounds.
The course aims to study chemical compound separation methods and their applications. It includes extraction, precipitation, and distillation techniques.
The course aims to introduce students to the chemical structure of natural products and their applications. It includes studying plant and animal compounds.
The course covers the study of causes and mechanisms of corrosion and methods of prevention. It includes studying environmental impacts on materials and corrosion reactions.
The course aims to study industrial applications of electroanalytical methods. It includes measuring element concentrations using electrochemical analysis.
The course aims to study the chemistry of dyes and their applications in textiles. It includes preparation methods and industrial applications.
The course aims to study the properties of solid materials and their applications. It includes crystal structure and physical properties of solid materials.
The course covers the properties of cement and building materials and their major applications. It includes material preparation methods and analytical techniques.
The course aims to study catalytic chemical reactions using organometallic compounds. It includes various catalytic reactions and their industrial applications.
The course aims to introduce students to the properties of surfactants and detergents. It includes practical applications in industry and household uses.
The course aims to study reactions of radioactive materials and their applications. It includes radiochemical analysis and the use of radioactive isotopes.
The course aims to study the properties of polymers and their industrial applications. It includes polymer preparation methods and usage in various industries.
The course aims to introduce students to the principles of scientific research and its applications in industrial chemistry. It includes experiment design, data collection, and analysis.
The course aims to study the industry of therapeutic compounds and their applications. It includes studying drug design, development, efficacy testing, and safety evaluations.
The course involves carrying out a research project in the field of chemistry. It aims to apply acquired knowledge and analyze results in a systematic scientific approach.
The course covers the fundamentals of management and quality assurance in chemical processes. It includes studying standard metrics and quality improvement methods in chemical industries.
The course aims to study chemical processes in the food industry. It includes food components, chemical analysis methods, and quality assurance.
The course includes student training in chemical industrial institutions to gain practical experience. It aims to apply theoretical knowledge in a work environment and develop professional skills.