An educational system in chemistry that enhances student skills and contributes to the development of society and adds value to scientific research.
1. Prepare graduates capable of pursuing graduate studies in chemistry.2. Prepare graduates for a successful career in industry or research labs.3. Prepare graduates with communication skills and teamwork and self-learning values that enable them to work in various environments.
K1 Discern the fundamentals of all basic sciences and those related to chemistry.
K2 Articulate the principles and theories of the different chemical fields.
K3 Explain experimental results and phenomena based on theoretical discussions.
S1 Optimize learning, thinking, communication and computer skills to apply laws and theories related to chemistry.
S2 Design experiments to conduct, and critically evaluate results through laboratory work and training.
S3 Master the use various instruments in the analysis of different materials.
V1 Work on its own as well as in groups and teams collaboratively and effectively with others.
V2 Exhibit ethical behaviors, proficiency, and flexibility in applying chemistry in different fields
Course details
This course is designed to equip students with academic and technical English skills tailored to scientific and engineering fields. It covers specialized vocabulary, advanced grammar, and proper pronunciation, along with developing reading, writing, and listening skills for effective communication in academic settings..
This course explores the fundamental religious and cultural aspects of Islam, focusing on key concepts and ethical values that have shaped Islamic civilization. It includes an analysis of early Islamic history and religious practices that have influenced diverse communities..
This course equips students with essential computer skills, from navigating operating systems to mastering office applications. It includes practical training to enhance technological competence for academic and professional activities..
The course focuses on developing fundamental language skills by enhancing reading, writing, listening, and speaking abilities. It employs text analysis and clear expression techniques to improve both academic and everyday communication..
This course introduces basic physics concepts by reviewing natural laws and practical scientific applications, enabling students to understand physical phenomena through a blend of theory and laboratory experiments..
This course builds upon the first intensive English program by deepening language skills through advanced exercises in academic reading and writing, focusing on using English in specialized scientific discussions to enhance expressive and analytical abilities..
This course aims to enhance both verbal and written communication skills, featuring intensive training in presentations, active listening, and clear, organized idea exchange in academic and professional settings..
This course is designed to develop effective learning strategies and foster critical and creative thinking. It incorporates systematic and innovative problem-solving techniques that support academic excellence..
This course introduces the fundamental principles of chemistry, focusing on chemical reactions and the physical properties of substances. It combines theoretical lectures with laboratory experiments to apply concepts to real-life situations..
This course covers essential mathematical concepts while emphasizing analytical thinking and problem-solving. Topics include algebra, geometry, and statistics to establish a strong mathematical foundation for academic achievement..
This course explains the fundamentals of statistics and data analysis using systematic methods, incorporating real-life examples to help students interpret data and make scientifically informed decisions..
This course continues the study of general chemistry by delving deeper into complex chemical reactions and dynamic processes, using both experimental and analytical methods to deepen understanding of substances and their interactions..
This course delves into the religious and cultural dimensions of Islam by focusing on the historical impact of Islamic values, thereby enhancing students’ cultural awareness and critical understanding of the evolution of Islamic societies..
This course aims to enhance Arabic writing and editing skills, providing training in organizing ideas and crafting texts in both academic and creative styles to improve overall expression quality..
This course introduces fundamental biological concepts ranging from cellular structures to integrated biological systems, combining theoretical insights with practical experiments to foster a comprehensive understanding of life..
This course covers the fundamentals of organic chemistry with a special emphasis on aliphatic compounds, examining molecular structures and basic reaction mechanisms that form the foundation for more complex organic processes..
This course addresses the fundamental principles of colloidal chemistry and the phase rule, analyzing how these concepts affect the stability and equilibrium of chemical systems through theoretical and experimental studies..
This course continues the Islamic culture series by exploring advanced topics in Islamic thought and religious literature, enhancing the ability to critically analyze religious and cultural developments..
This course aims to cultivate an entrepreneurial spirit and innovation by studying entrepreneurial models and project management strategies, incorporating case studies and practical exercises to analyze risks and opportunities in the marketplace..
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This course explains analytical chemistry techniques using volumetric and gravimetric methods for determining substance concentrations, combining laboratory experiments to highlight the precision of these analytical approaches..
This course covers the principles of thermodynamics and its applications in physical chemistry, providing a detailed explanation of energy processes and thermal changes within chemical systems..
This course covers key concepts in inorganic chemistry with a focus on the properties and reactions of the main groups of elements, aiding students in understanding material behavior and compound formation..
This course introduces the fundamentals of differential and integral calculus with practical applications in science and engineering, providing analytical tools to understand mathematical changes and patterns in natural phenomena..
This course completes the Islamic culture series by examining advanced topics in Islamic history and religious thought, offering a critical analysis of the challenges and achievements that have shaped Islamic civilization..
This free course is designed to promote health awareness and physical fitness through educational activities and practical applications, encouraging students to adopt healthy habits and a balanced lifestyle..
This university elective offers a flexible academic exploration of health and physical fitness topics, enhancing health awareness and supporting the development of an active lifestyle..
This course encourages community engagement and volunteer work through practical activities and service initiatives, fostering a spirit of social responsibility and community service..
This course delves deeper into organic chemistry with a focus on aromatic compounds, examining molecular structures and specific reaction mechanisms to enhance the understanding of complex organic reactions..
This course covers the fundamental principles of electrochemical reactions and their applications in energy and scientific research, incorporating practical examples and laboratory experiments to illustrate the concepts..
This course explores the properties and reactions of transition elements in inorganic chemistry, emphasizing their chemical behavior and various industrial applications..
This course focuses on laboratory techniques for organic synthesis, training students in preparing organic compounds through interactive procedures and modern analytical methods..
This course covers spectroscopic techniques for determining the structure of organic compounds, providing detailed explanations of instrument principles and accurate interpretation of experimental data..
This course examines organic compounds with heterocyclic rings, analyzing their chemical properties and exploring their practical applications in pharmaceutical and technological industries..
This course introduces the fundamentals of scientific research through integrated methodologies in experimental design, enhancing analytical and research skills and supporting the practical application of knowledge..
This course covers instrumental analysis techniques using advanced equipment for precise measurement and analysis of samples, with practical applications that demonstrate the role of instrumental analysis in achieving scientific accuracy..
This course explains the principles of chemical kinetics by studying reaction rates and the impact of varying factors, contributing to a deeper understanding of reaction dynamics and practical applications..
This course details the mechanisms of organic reactions by analyzing the step-by-step processes and the role of catalysts and inhibitors in determining reaction pathways, thereby enhancing both theoretical and practical understanding..
This course explores surface phenomena and catalysis in physical chemistry, reviewing theoretical foundations and laboratory experiments to understand the impact of surfaces on chemical reaction efficiency..
This course examines interactions between organic compounds and metals, focusing on practical industrial applications of organometallic techniques and the development of advanced synthetic methods..
This course explores chromatographic separation techniques in analytical chemistry, providing detailed explanations of operational mechanisms and equipment used for precise compound identification and data analysis..
This course focuses on the study of natural products, including their extraction and identification of active components, while reviewing their applications in pharmaceutical and cosmetic industries using modern analytical techniques..
This course examines the causes and mechanisms of metal corrosion, discussing influencing factors and presenting prevention and control strategies to develop technical solutions for corrosion mitigation in industrial settings..
This course allows students to undertake an applied research project that draws on the knowledge acquired during their studies, with an emphasis on developing research, analytical, and academic writing skills..
This course covers the fundamental principles of nuclear and radiation chemistry, examining the effects of radiation on materials and practical applications in energy and nuclear medicine..
This course focuses on the study of the structural and physical properties of solid materials, analyzing how atomic interactions affect their mechanical and electrical characteristics in technological applications..
This course explains the mechanisms of inorganic reactions in detail, analyzing the reaction pathways between compounds and inorganic substances to support a thorough scientific understanding of these processes..
This course introduces the fundamental principles of quantum chemistry and its applications in explaining chemical phenomena, highlighting the role of quantum mechanics in understanding atomic and molecular interactions..
This course covers the fundamentals of biochemistry, focusing on cellular biochemical processes and metabolic pathways, and analyzing their role in regulating tissue and organ functions..
This course focuses on the study of polymers, examining their chemical structure, synthesis methods, and industrial applications, while analyzing how chemical processes affect polymer properties..
This course explores the impact of chemicals on the environment, reviewing strategies for natural resource conservation and pollution control, thereby enhancing environmental awareness and supporting sustainable practices..
Study Plan
The course aims to introduce students to basic concepts of calculus. It covers derivatives of functions and integration operations.
The course aims to provide an overview of Islamic culture and history, covering key religious and social principles in Islam.
The course aims to enhance students' skills in effectively using digital technologies, such as cloud computing and internet tools.
The course aims to enhance students' academic English skills in science and engineering fields. It includes reading and understanding scientific texts.
The course aims to improve students' personal and written communication skills. It covers techniques for effective listening, writing, and presentation.
The course aims to improve students' fundamental Arabic language skills, such as reading and writing. It covers grammar, syntax, and vocabulary.
The course aims to explore the role of family in Islam and its impact on society. It covers social and religious values related to family relationships.
The course aims to study basic concepts of chemistry such as chemical reactions and atomic structures. It includes an understanding of fundamental chemical processes.
The course aims to study fundamental concepts in physics, such as motion, forces, and energy. It includes real-life applications.
The course aims to further develop academic English skills, with a focus on vocabulary related to science and engineering. It includes reading and listening exercises.
The course aims to develop critical and strategic thinking skills in students. It covers techniques to improve the learning process and decision-making.
The course aims to enhance language skills in specialized contexts such as science and engineering. It includes training in reading scientific articles and technical writing.
The course aims to continue the study of chemistry principles, focusing on advanced chemical reactions. It includes the study of organic and inorganic reactions.
The course aims to study advanced calculus, focusing on complex integrals. It covers applications in various fields such as physics and engineering.
The course aims to introduce students to basic statistical concepts such as data distribution and variable analysis. It includes applications on statistical data sets.
The course aims to study the properties and reactions of organic compounds. It includes the study of hydrocarbons and functional groups in organic chemistry.
The course aims to develop students' scientific writing skills, focusing on accurate scientific terminology. It includes applications on academic writing.
The course aims to study colloids and related materials, such as fine particles. It includes the phase rule in analytical chemistry.
The course aims to study the main groups in the periodic table and the properties of their elements. It covers compounds and chemical structures.
The course aims to study the fundamentals of biology, such as cells, genetics, and organ functions. It includes scientific applications to understand life.
The course aims to study heterocyclic compounds containing non-carbon atoms in their rings. It includes industrial and therapeutic applications of heterocyclic compounds.
The course aims to study the basic principles of thermodynamics. It includes understanding the laws of heat, energy, and chemical reactions.
The course aims to study methods of chemical analysis using volumetric and gravimetric measurements. It includes applications in analyzing various substances.
The course aims to introduce entrepreneurship concepts such as innovation, market strategy, and feasibility analysis. It includes practical applications for entrepreneurial projects.
The course aims to study electrochemical reactions such as galvanic cells and batteries. It covers applications in energy and storage.
The course aims to study chemical separation techniques using chromatography. It covers applications in analyzing the components of compounds.
The course aims to study the rate of chemical reactions and the impact of various factors on them. It includes practical applications of these reactions in chemical industries.
The course aims to study the properties of transition elements and the mechanisms of their reactions. It covers the compounds of these elements and their industrial uses.
The course aims to study spectroscopic techniques such as FTIR, NMR, and UV-VIS for examining organic compounds. It includes applications for determining chemical structures.
The course aims to study chemical compounds obtained from natural sources. It includes applications in medicine and the treatment of diseases using these compounds.
The course aims to study analytical techniques using advanced instruments such as spectroscopy, chromatography, and electrochemical analysis. It includes applications in advanced chemical analysis.
The course aims to study chemical reactions occurring on surfaces and understand the role of catalysis in improving these reactions. It includes industrial applications.
The course aims to enhance the concepts of volunteer work and its importance in serving the community. It includes practical applications in various volunteer activities.
The course aims to study organometallic compounds and their uses in industry and medicine. It includes studying and analyzing the reactions of these compounds.
The course aims to study the techniques of chemical synthesis for organic compounds. It includes practical applications in industry and research.
The course aims to study the phenomenon of corrosion in metals and how to combat it. It includes understanding different types of corrosion and prevention methods.
The course aims to study the mechanisms of organic reactions and how chemical factors influence these mechanisms. It includes applications in chemical industries.
The course aims to study the principles of quantum chemistry, such as wave functions, energies, and wavefunctions for atoms and molecules. It includes applications for deep understanding of chemical reactions.
The course aims to study techniques for analyzing chemical pollutants in air, water, and soil. It includes applications in environmental pollutant analysis.
The course aims to apply the knowledge acquired in chemistry in a comprehensive practical project. It includes in-depth scientific research on a selected topic in chemistry.
The course aims to introduce students to the principles of scientific research and tools in the field of chemistry. It includes research methods and scientific experiments in chemistry.
The course aims to study the chemical structure of living organisms and biological processes at the molecular level. It includes applications on protein reactions, nucleic acids, and enzymes.
The course aims to study chemistry related to radiation and radioactive isotopes. It includes the study of radiation interactions and their effects on different materials.
The course aims to provide students with a practical experience in an industrial or academic setting to apply the skills and knowledge they have learned in chemistry.
The course aims to study the properties of solid materials such as metals, ceramics, and semiconductors. It includes analyzing the structure of solid materials and their interactions.
The course aims to study the mechanisms of inorganic chemical reactions, such as the reactions of metal oxides and acids. It includes applications in inorganic reactions.
The course aims to study advanced topics in chemistry such as nanochemistry, biochemistry, and modern analytical techniques.
The Applied Polymers course aims to provide students with fundamental knowledge of polymer materials and their practical applications in various industries, focusing on how to enhance the properties of polymers to meet the needs of industrial applications.
