Subject: Selected chapters in chemistry (17.DZ01H )
Study programmes of the course:
| Type of studies | Title |
|---|---|
| Doctoral Academic Studies | Biomedical Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Computing and Control Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Geodesy and Geoinformatics (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Mechanical Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Disaster Risk Management and Fire Safety (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Engineering Animation (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Power, Electronic and Telecommunication Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Environmental Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Graphic Engineering and Design (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Industrial Engineering / Engineering Management (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Mechatronics (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Civil Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Information Systems Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Occupational Safety Engineering (Year: 1, Semester: Winter) |
| Doctoral Academic Studies | Traffic Engineering (Year: 1, Semester: Winter) |
Acquiring new knowledge in the field of chemistry that will enable understanding and monitoring of engineering processes. Getting acquainted with modern approaches in chemistry. Improving scientific abilities, academic and practical skills in the field of chemistry. Introduction to modern methods of processing and analysis. Student through this course should: expand knowledge about concepts and definitions in the domain of chemistry, understand and improve the use of concepts and definitions in the domain of chemistry in the context of learning, set up and solve problems, develop the ability to identify problems in the domain of chemistry in terms of identification, and possible solutions, as well as to perfect the principles of engineering judgment and decision making. The objective of the course is also to enable the student to acquire the abilities and skills to use literary sources and develop a way of thinking inherent in theoretical and methodological disciplines.
Thorough knowledge of chemistry. Ability to independently solve practical and theoretical problems using scientific methods and procedures in the field of chemistry. Mastering creativity with the goal of developing new procedures and approaches in solving chemical problems. Development of creative and independent thinking about problems in the field of chemistry. After this course, the student is able to: critically think, logically associate theoretical and experimental knowledge in chemistry, apply acquired knowledge in engineering disciplines, communicate with other engineers and work in the team, creatively think, demonstrate understanding and skills, use the acquired knowledge for design of new solutions to engineering problems. At the end of the course, a student is trained to use literature and other resources in seeking the necessary information to improve the level of knowledge in the field of chemistry.
General and inorganic chemistry (chemical laws, chemical bonds, structure of inorganic molecules, physical and chemical properties of inorganic compounds, mechanisms of chemical reactions). Organic chemistry (structure of organic molecules, physical and chemical properties of organic compounds classes, mechanisms of chemical reactions). Physical chemistry (chemical thermodynamics, thermochemistry, ideal and real solutions, surface phenomena and colloidal systems, chemical kinetics and catalysis, chemical equilibrium, state of matter). Instrumental analysis (methodology in instrumental analysis and quality control, spectroscopy, theoretical bases and types of spectroscopy, chromatographic analytical methods, expression of analytical data). Environmental Chemistry (definition of chemical source of pollution, nature of pollution, transformation and migration of pollution in various mediums of water, air and soil). Material chemistry (corrosion, corrosion rate, corrosion mechanisms, corrosion in different environments, corrosion protection procedures).
Lectures, study research work and consultations. The lectures provide a theoretical part of the course with the use of modern equipment and information and communication technologies. Through lectures, a student acquires and masters modern scientific knowledge, scientific methods and procedures that enable him to do independent research work. In addition to lectures, consultations are also held regularly. Study research work includes all forms of instructions that are in the function of direct training a student for research, writing scientific papers and producing a doctoral dissertation. Study research work includes active monitoring of primary scientific sources, organization and performance of numerical simulations and experimental research.
| Authors | Title | Year | Publisher | Language |
|---|---|---|---|---|
| 2011 | English | |||
| 2009 | English | |||
| 2006 | English | |||
| 2006 | English | |||
| 2001 | English |
| Course activity | Pre-examination | Obligations | Number of points |
|---|---|---|---|
| Project | Yes | Yes | 50.00 |
| Oral part of the exam | No | Yes | 50.00 |
Prof. Prica Miljana
Full Professor
Lectures
Faculty of Technical Sciences
© 2024. Faculty of Technical Sciences.
Contact:
Address: Trg Dositeja Obradovića 6, 21102 Novi Sad
© 2024. Faculty of Technical Sciences.