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The program's main goal is to help students develop the high caliber and intelligence that employers in the modern workforce want, as well as to prepare them for employment in the challenging and complex fields of contemporary architecture and urban planning. The scope and tradition of engineering knowledge and expertise are fostered by the faculty, and they are enhanced by artistic concepts and contemplation, which are essential components of the architectural design process. Pupils are guided toward a practical, problem-solving methodology, but within an expanded cultural and social context.
In addition to being constantly pushed to expand their intelligence and creativity, students are provided with a balanced curriculum that includes the theoretical knowledge and practical skills required by a wide range of fields. In addition to being exposed to the fundamental ideas and procedures of scientific inquiry, they are inspired to study through independent, imaginative pursuits in urban planning and architecture. The foundation of research is a comprehensive grasp of the creative and practical requirements that make up challenges related to architecture and urban planning.
Because there are so many different careers in the domains of architecture and urban planning, there has always been a strong interest in studying architecture. The social and cultural significance of architecture is another factor driving this interest. Excellent employment opportunities exist for independent freelancers as well as in the public and private sectors. This kind of university research is also of tremendous interest to many public and private organizations, including ministries, municipalities, counties, and professional chambers. Professional designers can work as independent contractors, as well as as staff members of marketing and design firms, architectural and design studios, and other industry organizations.
Research is predicated on a comprehensive comprehension of the creative and practical requirements that make up urban planning and architecture. In order to meet the needs of society, the project development methodology is predicated on in-depth evaluations of the functional, technological, programmatic, and contextual components of various architectural typologies and urban planning scales. The goal of the research is to develop a practical problem-solving strategy within a larger social and cultural context. Architectural and art history, modern architectural ideas, sustainability issues, architectural representation techniques, and current research on architectural and urban design are all examples of research topics.
There are four undergraduate (BSc) and graduate (MSc) study programs available through the Faculty of Chemical Engineering. One is in the natural sciences (Applied Chemistry), and the other three are in the technical sciences (Chemical Engineering, Environmental Engineering, and Material Science and Engineering). Furthermore, students have the option to apply for postgraduate specialty study programs in petroleum and petrochemical engineering as well as doctoral studies in chemical engineering and applied chemistry. Modern, problem-oriented techniques form the foundation of teaching and learning, giving students an analytical approach to problem-solving while always keeping the synthetic approach in mind. The faculty's students learn about the latest advancements in chemical industry research, development, and design, as well as how to enhance already-existing processes. This is done in order to guarantee output that is of the highest caliber, dependable, safe, and considerate of efficiency, economy, and environmental preservation. Students in the faculty can also focus on developing new inorganic and polymeric materials, designing drugs, creating innovative synthesis routes that serve as the foundation for new processes, and quality control.
The faculty offers a wide range of job prospects and career options after completing a selected study program. Graduates can work in various industries, including petroleum, petrochemicals, food, materials, specialty chemicals, plastics, power production, environmental control, waste management, and biotechnology. They can also pursue careers in processing, operations, manufacturing, research and development, design and construction, finance, and teaching. In process industries, graduates can work as supervisors, managers, technical specialists, project managers, or engineers. Other areas include food processing, explosives manufacturing, chemical process industries, glass and specialty chemicals, dyes, paint, lubricants, steel and aluminum production, and manufacturing industries.
The priority topics of research at the Faculty of Chemical Engineering and Technology are: environmental protection and management, development of advanced materials and sustainable technologies, alternative and renewable energy sources, development of new pharmaceuticals, industrial bio-transformations and other related subjects.
The Faculty of Civil Engineering offers university education in civil engineering at the undergraduate, graduate, and postgraduate levels. The bachelor's study program consists of a three-year undergraduate program with 180 ECTS credits, leading to a professional degree in civil engineering. The program focuses on knowledge acquisition, decision-making, teamwork, and continuous learning. The Master's program is a two-year graduate program with 120 ECTS credits, leading to a professional degree in civil engineering. Students can pursue career-oriented studies in geotechnical engineering, hydraulic engineering, structural engineering, construction materials, construction management, transportation engineering, and structure theory and modeling. The doctoral study program is a three-year postgraduate program with 180 ECTS credits, granting a doctorate in civil engineering.
When designing, constructing, inspecting, and maintaining structures, infrastructures, and systems in their specialized field, civil engineers employ their learned skills and knowledge with consideration for stability, safety, occupancy, environment protection, and cost considerations. In their particular field, they identify, formulate, analyze, and come up with workable solutions for the difficulties.
Geotechnical engineering, hydraulic engineering, structural engineering, building materials, construction management, transportation engineering, and theory and modeling of structures are among the fields of study that are developed and scientifically researched.
The faculty offers two first-cycle study programs: Electrical Engineering and Information Technology and Computing, taught according to a prerequisite system. The first year is common to both programs, with students broadening their knowledge in mathematics, electrical engineering, computing, quality management, and economic principles. In the second cycle, students take mandatory and elective courses to introduce slight specializations. The second cycle study programs include Electrical Engineering and Information Technology, Information and Communication Technology, and Computing. The objectives are to educate students for various professional careers and provide a foundation for lifelong learning. The programs aim to develop engineers who can link science and engineering principles to solve complex engineering problems in professional practice and research and development contexts.
Students who complete their bachelor's degree are eligible to work in the fields of computer science, information processing, multimedia systems, control engineering and automatization, electrical power engineering, electronics, wireless technologies, computer engineering, software engineering, telecommunications and informatics, and computer science for the design, implementation, and commissioning of less complex systems. Study programs for the second cycle give students the skills they need to address challenging engineering challenges in the aforementioned domains, design intricate systems, lead teams, and carry out research and development.
The Faculty of Electrical Engineering and Computer Science (FER) is divided into 12 departments, focusing on educational, research, and scientific work in specific fields. Projects are conducted in applied physics, mathematics, electrical engineering, and computing, funded by the Croatian government and non-government organizations. The Faculty also collaborates with world-leading scientific institutions and universities. Its strategic goal is to enhance research capacity and quality, generating new scientific ideas and discoveries that can be transferred to the Croatian economy through high-tech product development and related businesses. The faculty aims to promote high-quality research, development, and innovation in all branches and scientific fields traditionally fostered at FER.
The Bologna standard scheme is used for teaching, with a Bachelor of Geodesy and Geoinformatics program lasting 6 semesters and 3 years and a Master of Geodesy and Geoinformatics program lasting 4 semesters and 2 years. During the bachelor stage, students receive an engineering education in mathematics, physics, informatics, surveying, and geoinformatics. At the Master's level, students can choose between Geodesy, which focuses on advanced geodetic measurements and processing, and Geoinformatics, which emphasizes geoinformation science and technology, interoperability, photogrammetry, remote sensing, laser scanning, and mobile GIS. The Master's program in Geoinformatics has been recently refurnished through a two-year TEMPUS grant, improving quality assurance, learning-outcome-oriented teaching, and problem-solving approaches.
Graduates with a bachelor's or master's degree in geodesy and geoinformatics are qualified to work in private companies as chartered engineers or GIS specialists, as well as in the public sector (local government, cadaster offices). The work typically entails both office data processing and fieldwork. A successful career requires strong spatial and communication abilities, an in-depth understanding of surveying tools and procedures, and familiarity with CAD and GIS software. There aren't any graduates looking for work right now.
Research is conducted in the following areas by the Faculty of Geodesy: physics (physical astronomy) and geodesy (photogrammetry and remote sensing, mapping, applied geodesy, marine, physical and satellite geodesy, and geomatics). Physics research is carried out at Hvar Observatory. The faculty's researchers are well-connected throughout the world.
The Bachelor program in Environmental Engineering consists of 180 ECTS credits and covers geotechnical and hydrotechnical engineering, environmental protection measures, and remediation of soil, water, and air pollution. The program emphasizes laboratory and on-site teaching to develop knowledge and skills in sampling and analysis of air, soil, water, and waste. The Master program has 120 ECTS credits and includes courses in geoenvironmental engineering, environmental management, and water management. Students who have completed the 1st cycle program or a comparable program can apply for admission.
The doctoral study program offers lectures for scientific knowledge and engineering education essential for solving economic and social environmental problems. It also includes research seminars and discussion groups for writing, publishing, and presenting scientific papers. The subject matter requires an interdisciplinary approach to solving engineering problems, critical thinking, and teamwork adjustment. Doctoral students acquire knowledge and research competences such as analytical and critical thinking, planning, organizing, and managing scientific projects, ultimately resulting in a doctoral dissertation. The doctoral study program aims to equip students with the necessary skills to identify, analyze, and solve various environmental engineering problems.
The Bachelor program in Environmental Engineering prepares students for a master's degree and equips them with practical competencies for their future careers. The Master program in Environmental Engineering equips graduates with the necessary skills to start their professional careers and continue their development. The program offers job opportunities in both the public and private sectors, specializing in geotechnical engineering, hydrotechnical engineering, and environmental protection.
The doctoral study structure encourages students to work independently, manage research responsibly, and develop work competencies and responsibility for their own progress. The first year of the program requires research methodology, while elective courses like environmental management, environmental economics, environmental protection policy, moral and ethical approaches to the environment, ecological problems, corporate and environmental management systems, communication, and environmental protection education contribute to the development of generic skills in environmental engineering.
Students can develop other generic or transfer skills through work in well-equipped laboratories or field research, participating in the entire work process from sample preparation to data management. They can also use specialized program packages in the field of doctoral research to acquire work competencies and transfer skills for their future careers.
Water resources, groundwater protection, mining and extraction, geotechnical elements of landfills, and other environmental issues related to soil, air, and water are among the themes covered by faculty research. Students get the hands-on experience they need for their future careers in the geotechnical, environmental geochemistry, environmental engineering, and GIS laboratories, which all conduct scientific and practical research.
The bachelor's study program (6 semesters, 180 ECTS) offers a choice between Technical Technological or Design of Graphic Products orientation, covering subjects like mathematics, physics, chemistry, information science, engineering graphics, photographic processes, technical image processing systems, arts, and the theory of forms. Students expand their knowledge of printing materials, graphic technology, typography, packaging, product finishing, and multimedia communications. The master's program (4 semesters, 120 ECTS) focuses on the printing industry, including leading and designing multimedia systems, managing projects, and graphic design. The doctoral study in graphic engineering and graphic design (6 semesters, 180 ECTS) offers scientific research in data creation and transfer in printed media and visual communication.
The legally protected academic titles Bachelor of Engineering, Graphic Technology, or Engineer of Graphic Technology—Designer may be used by a graduate of the Faculty of Graphic Arts. He or she is qualified for the positions required to oversee the autonomous leadership of graphic production, maintain control over the production's quality, and handle technological setup for the printing and packaging processes, paper industry, graphic design, etc.
The wide range of topics covered by this research area include the development of new measuring techniques, the protection of cultural heritage, media communication, novel and inventive graphic materials and formulations, and various improvements in graphic processes related to the environment, design, and technology.
The curriculum places a great emphasis on technical physics, mathematics, and materials. It then goes on to cover a wide range of fundamental engineering concepts, including thermodynamics, fluid mechanics, mass and heat transport, and structural mechanics. Many specialties are available in all three sectors through specialized training.
In the production sector, mechanical engineers typically hold positions as quality managers, researchers, leaders and organizers of production, and product designers. Naval architects are typically employed in shipyards, designing, building, outfitting, and producing ships. They can also be found in shipowner offices, classification societies, surveying, research, and regulatory authorities. Aeronautical engineers can be employed by state regulatory agencies, the air force, and aviation corporations for aircraft repair and refurbishment.
Engineering design, materials, new technologies, manufacturing processes and engineering, maintenance and tribology, land, sea, and air transportation systems, and offshore engineering are the primary areas of research.
The Faculty of Metallurgy in Croatia offers two undergraduate courses, Metallurgical Engineering and Industrial Ecology, which are designed to comply with European higher education institutions' Bologna process. The undergraduate course is limited to 565 applicants and lasts for three years, earning the academic title of Baccalaureus or Baccalaurea in Metallurgy. Starting in 2019/2020, the Faculty introduces a new undergraduate program called Occupational Safety, Health, and Environment, the first in Croatia, combining safety at work, worker health protection, and working environment protection. This program is designed to harmonize the competencies of Croatian experts with EU requirements. The program is available as a regular university program for full-time or part-time students. Since 2011, the faculty has conducted a professional study called Founding, which lasts five semesters and awards the professional title of Associate of Founding. After completing the undergraduate study, students can enroll in the graduate course, which offers two courses: metallurgical engineering and industrial ecology. The graduate course, lasting two years, entitles students to the Master of Metallurgy degree. A new postgraduate mutual study program has been established, awarding a Doctor of Science degree in the field of metallurgy.
Metallurgy graduates have various career options in both domestic and European markets. These include employment in the metalworking and metallurgical industries (such as ironworks, rolling plants, and casting shops), shipbuilding, departments and laboratories for quality control and assessment of metal materials, metal welding and heat treatment services, scientific, professional, and educational institutions, government agencies, and local administrative bodies (county and municipal offices), among others.
The Faculty of Metallurgy is divided into three departments, each of which has seven laboratories and a chair dedicated to informatics and mathematics. The Faculty of Metallurgy's activities are centered on professional development for metallurgists as well as professional and scientific research in metallurgy and related fields.
• Metallurgy of steel, ferrous and non-ferrous metals (casting, hydrometallurgy, chemistry, electrometallurgy)
• Shaping of materials by deformation (deformation processing, mechanical engineering)
• Production, design and characterization of metallic materials (materials development and applications)
• Energy efficiency of metallurgical processes (energetic evaluation, thermal processing)
• Physical metallurgy (physics and structure analysis)
• Industrial ecology
The program emphasizes a strong foundation in mathematics and physics, followed by a comprehensive coverage of basic engineering disciplines such as mechanics, soil, rock, and fluid mechanics, thermodynamics, applied geology, mineralogy, geophysics, and geodesy. Later, students are given specialized courses in geotechnology (mining and petroleum engineering) or applied geosciences (geology and geological engineering). Graduate students can choose a specialization from nine graduate study courses. Field work is an essential part of the study, with chosen sites in Croatia and abroad. The postgraduate doctoral program includes courses in the first year, research, laboratory work, and tutorials in the second and third years. Part-time students are accepted with a doubled study duration.
Mining engineers are typically employed by businesses that handle land reclamation, water works, blasting, mining, or geotechnical operations. Graduates in geology can work in exploration firms, consultancies, or labs; they can also work in geophysical exploration and drilling operations, local government, national parks, and nature reserves. In both the public and private sectors, geological engineers will conduct engineering-geological exploration and hydrogeology-related research. Petroleum engineers can work in any capacity related to deep drilling, energy production and distribution, transportation, storage, and production of oil and gas, as well as resource management for fossil fuels.
The primary areas of study are the natural sciences within the geosciences (geology of mineral resources, exploratory geophysics) and the technical sciences (mining engineering, geological engineering, petroleum engineering). Within various programs, the faculty coordinates or takes part in several bilateral and multilateral international projects as well as national projects.
The professional, undergraduate, and graduate study programs' objective is to produce qualified professionals in the fields of textile engineering, technology, and fashion design. Textile Science and Technology is a postgraduate program at the university that focuses on the discipline of textile technology within the technical sciences. The majority of educators are employed in the textile technology sector of the technical sciences. Their work is closely entwined with that of educators in the natural sciences, arts, humanities, social sciences, and other technical fields in order to foster synergy, strengthen connections, and adopt an interdisciplinary approach in all aspects of professional and scientific endeavors as well as teaching.
The University of Zagreb Faculty of Textile Technology enrolls 750 students annually, aiming to produce highly educated experts in the field in Croatia. The program enables students to work in various manufacturing phases, including textiles, and can lead to various jobs, including technologists, managers, and entrepreneurs. The Textile and Clothing Design branch combines engineering knowledge with fine arts and fashion design education. Students should incorporate their artistic and creative skills into fabric manufacturing processes, expressing their creativity throughout the course. Applied design-based education helps students follow global fashion trends and transform them into original designs. The labor market has successfully absorbed most of the fashion designers educated at the Faculty of Textile Technology.
The Faculty of Textile Technology's research focuses on textile-mechanical technology, material science, textile chemistry, clothing technology, leather, and footwear. Under the leadership of the dean and vice deans, the faculty contributes to scientific development in textile engineering, art, fashion, and footwear design. Their work is crucial for successful, high-tech, and environmentally friendly textile manufacturing. The faculty and academic staff are involved in numerous European and national projects, such as ESF, FP7, Cost Action, EUREKA, LLP, HRZZ, technological, and bilateral projects.
Programs in traffic and transport, intelligent transport systems, logistics, and aeronautics are available through the Faculty of Transport and Traffic Sciences. Courses in road, railway, urban, air, waterway, postal, and information and communication transport and traffic are included in the traffic and transport program. Every program is offered in two-year graduate (120 ECTS) and three-year undergraduate (180 ECTS) formats. Postgraduate programs offer one-year specialist studies in urban transport and traffic, intermodal transport and traffic, and transport logistics and management, in addition to three-year doctoral studies in the discipline of transport and traffic engineering.
Typically, firms and other transportation organizations that deal with different transportation modes as well as traffic technology, logistics, and management employ transport and traffic engineers. Planning, designing, operating, supervising, and maintaining transportation and traffic infrastructure and procedures may be part of the work.
The high international standard of the research being conducted aims to provide solutions for road, river, postal, information and communication, urban, air, and railway transport, as well as modern transport and traffic technology, infrastructure, and intelligent transport systems.
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