BSc in Natural Sciences in Cyprus

Search Bachelors of Science in Natural Sciences in Cyprus 2017

Natural Sciences

A BSc (Bachelor of Science) is an undergraduate course of study that takes students three to five years to complete.  While in school, students complete a variety of courses to prepare for additional education or future job opportunities.

Cyprus is situated in the northeastern corner of the Mediterranean. It is the third largest island in the Mediterranean. Cyprus is known to be the birthplace of Aphrodite (Venus), the Greek goddess of love.

Top BScs in Natural Sciences in Cyprus 2017

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BSc in Civil and Environmental Engineering

University of Nicosia
Campus Full time Part time 4 years September 2017 Cyprus Nicosia + 1 more

Prepare students to become successful professional engineers in the demanding field of civil and environmental engineering. [+]

Best Bachelors of Science in Natural Sciences in Cyprus 2017. Duration (years): 4 years Qualification Awarded: Civil and Environmental Engineering (BSc, 4 years) Level of Qualification: 1st Cycle ( Bachelor's Degree) Language of Instruction: English Mode of Study: Full-time and Part-time Minimum Credits: 122 Minimum ECTS Credits: 240 Profile of the Programme: The general objectives of the program are to: 1. Prepare students to become successful professional engineers in the demanding field of civil and environmental engineering; 2. Provide students the necessary knowledge and technical skills to excel in the civil and environmental engineering industry either as operational leaders in the field, technical experts, consultants, or researchers; 3. Provide students with the fundamental principles of science and engineering in order to cope successfully with the technological challenges of the civil and environmental engineering industry; 4. Cultivate analytical skills, problem solving tactics, and critical thinking; 5. Promote engineering ethics, job responsibility, and moral practices; 6. Create awareness of social, environmental, and global concerns; 7. Promote life-long learning and continuous education through technical training and advanced degrees; 8. Develop skills for effective communication with co-workers, managers, and the public on topics related to technical concepts, risks, and recommendations. The specific objectives of the program are to: 1. Equip students with fundamental knowledge, analytical skills, engineering tools, and laboratory experience in order to cope successfully in the technologically challenging field of civil and environmental engineering; 2. Facilitate learning and training in the field of civil and environmental engineering which are directly linked to industry and current state-of-the-art technology; 3. Provide the theoretical and computational skills necessary for the solution of both theoretical and practical engineering problems in the field of civil and environmental engineering; 4. Provide practical and experimental hands-on experience that allows the students to link directly to fundamental knowledge and theory; 5. Prepare students to work alone or in groups in order to provide engineering solutions; 6. Prepare students to design/implement systems and processes towards the solution of engineering problems in the field of civil and environmental engineering; 7. Develop communications skills including the abilities to write technical reports and present their work before an audience; 8. Provide students the opportunity to develop specialized knowledge and technical competence in their field of expertise in order to become successful professional engineers; 9. Prepare students for post-graduate studies and research in the field of civil and environmental engineering. Career Prospects: Building construction and land development is one of the major sectors of the Cypriot economy. Despite the current financial crisis, there is still a great deal of construction going on including building constructions, road constructions, and land development. A great emphasis is also focused on green development and the design of environment friendly, sustainable, and ecological buildings. Processing and management of solid wastes and wastewater treatment constitute additional areas of employment for our graduates. Specifically, a graduate with a BSc degree in Civil & Environmental Engineering may be employed in the following fields: Building constructions Road & highway constructions Construction of dams and bridges Underground construction (e.g. subway, tunnels) Restoration of old and traditional buildings Construction of ports and coastal protection structures Platform design and construction Research and development Education including teaching and research Recycling and waste management Processing of hazardous material Access to Further Studies: After completion of the BSc program in Civil & Environmental Engineering, students may opt to broaden and deepen their academic qualifications and skills by pursuing post-graduate (Master and PhD) studies in the same or related field in Cyprus or overseas. Learning Outcomes Upon successful completion of this program the graduates are expected to: 1. Have an in-depth knowledge and understanding of the processes and technologies involved in the field of civil and environmental engineering; 2. Use mathematics, basic science, and engineering techniques to analyze and solve problems related to civil and environmental engineering; 3. Use engineering knowledge and tools to design a structure, a device, or process that meets specific needs within constraints of social, economic, environmental, ethical, sustainability, and safety origin; 4. Have in-depth knowledge of engineering concepts and technical requirements and constraints associated with civil and environmental engineering design; 5. Use available measurement data and computer software to reconstruct and simulate three-dimensional models for various structures under testing and evaluation; 6. Have a good understanding of the economics associated with the design and construction of structures; 7. Communicate effectively with others using oral or written skills; 8. Have a broad knowledge in social sciences, economics, and humanities in order to understand the impact of engineering solutions in a social, economic, environmental, and political context; 9. Know the importance and benefits of life-long learning in the engineering profession. [-]

Bachelor of Engineering in Chemical Engineering

Middle East Technical University Northern Cyprus Campus
Campus Full time 8 semesters February 2017 Cyprus Turkish Republic of Northern Cyprus

Chemical engineering requires a strong background in basic sciences, mathematics, engineering sciences and skills as well as environmental, social and ethical consciousness. Our curriculum is designed to educate the future generation of chemical engineers who are well equipped in all of these areas. The students develop a strong background in chemistry and engineering in courses such as organic and... [+]

Bachelor of Engineering in Chemical Engineering A chemical engineer makes use of his/her background in chemistry, physics, mathematics and biology together with the skills of engineering and computer sciences. A chemist, a related professional, is generally interested in the behavior and synthesis of chemicals and work in small quantities in the laboratory to economically produce products on a large scale. The responsibility of a chemical engineer typically consists of: Assessing the feasibility of a process in order to produce a chemical or a product Selecting and designing processing equipment Operating, monitoring and controlling production Preparing recipes, determining quantities to be mixed and compounded Quality control assuring a high quality product Monitoring the efficiency of the process; process development Managing chemical companies Marketing and sales of chemical products METU Northern Cyprus Chemical Engineering Program Chemical engineering requires a strong background in basic sciences, mathematics, engineering sciences and skills as well as environmental, social and ethical consciousness. Our curriculum is designed to educate the future generation of chemical engineers who are well equipped in all of these areas. The students develop a strong background in chemistry and engineering in courses such as organic and physical chemistry, thermodynamics, unit operations and reaction engineering. Using this basis, we educate engineers who are capable of designing, operating, monitoring and maintaining chemical process plants. In addition to a strong technical background, in many courses we greatly emphasize environmental consciousness, ethical responsibilities and occupational health and safety issues. The program allows for students to specialize in two concentration areas: Resources Engineering (Area A) and Chemical Product Engineering (Area B). Resources Engineering track is available all the time, whereas the Chemical Resources Engineering track is opened based on the number of students that demand it. Significant number of elective courses can be taken in each area providing program flexibility. Career Opportunities Chemical engineers who graduate from our program will be able to take responsibilities in the chemical and related industries. Chemical engineers usually work in the areas of petroleum refining, petrochemicals, rubber and plastics, pulp and paper, fiber and textiles, pharmaceuticals, dyes and paints, cosmetics, sugar and starch, fermentation, fine and specialty chemicals, soap and detergent, oil, glass, ceramic, cement, industrial gas, catalyst, semiconductor, food, fertilizer, and agricultural chemicals. It is expected that, many companies would highly demand our graduates due to their in depth knowledge in the Resources Engineering or Chemical Product Engineering areas. Resources engineering emphasizes sustainable raw material and energy use, whereas Chemical Product Engineering emphasizes development and production of products such as ceramics, composites, plastics, dyes, and paints. Courses CHME 102 Introduction to Chemical Engineering (1-0)1 CHME 203 Chemical Process Calculations (2-2)3 CHME 204 Thermodynamics I (3-0)3 CHME 300 Summer Practice I NC CHME 302 Chem. Eng. Laboratory I (0-4)2 CHME 305 Thermodynamics II (2-2)3 CHME 312 Chemical Reaction Engineering (3-0)3 CHME 323 Fluid Mechanics (3-0)3 CHME 325 Heat Transfer (3-0)3 CHME 326 Mass Transfer & Separation Processes (3-2)4 CHME 332 Resources Engineering I (3-0)3 CHME 342 Chemical Product Engineering I (3-0)3 CHME 400 Summer Practice II NC CHME 401 Chem. Eng. Laboratory II (0-4)2 CHME 407 Process Control (3-0)3 CHME 417 Chemical Engineering Design I (3-2)4 CHME 418 Chemical Engineering Design II (3-2)4 CHME 433 Resources Engineering II (3-0)3 CHME 441 Chemical Product Engineering II (3-0)3 CHME 442 Polymer Technology (3-0)3 CHME 443 Downstream Processing of Bio Products (3-0)3 CHME 444 Structure Property Relationships in Macromolecular Media (3-0)3 CHME 446 Fundamentals of Industrial Waste Treatment (3-0)3 CHME 447 Chemical Processes in Microelectronics (3-0)3 CHME 448 Ceramic Technology (3-0)3 CHME 449 Macromolecular Technology (3-0)3 CHME 452 Chemical Process Optimization (3-0)3 CHME 454 Polymer Process Analysis and Design (3-0)3 CHME 461 Polymer Additives, Blends and Composites (3-0)3 CHME 462 Polymer Solutions (3-0)3 CHME 482 Chemical Process Safety (3-0)3 CHME 499 Topics in Chemical Engineering (1-4)3 [-]

BSc in Mathematics

University of Nicosia
Campus Full time Part time 4 years September 2017 Cyprus Nicosia + 1 more

Provide students with the necessary knowledge and skills to pursue graduate studies in Mathematics and other fields that require a strong Mathematical background. [+]

Best Bachelors of Science in Natural Sciences in Cyprus 2017. Duration (years): 4 Qualification Awarded: Bachelor of Science in Mathematics Level of Qualification: Bachelor Degree (1st Cycle) Language of Instruction: English Mode of Study: Full-time or Part-time Minimum Credits: 120 Minimum ECTS Credits: 240 Profile of the Programme: Aims 1. Provide students with the necessary knowledge and skills to pursue graduate studies in Mathematics and other fields that require a strong Mathematical background. 2. Underline the real-life applications of Mathematics and the important role it plays in other Sciences such as Physics, Engineering, Finance and the Social Sciences. 3. Enable students to use Mathematical thinking and techniques to solve problems from other disciplines providing the necessary qualifications for careers in a variety of diverse fields. 4. To provide students with the necessary knowledge and skills to teach Mathematics. Objectives 1. Provide students with a solid foundation in all Mathematical areas (modern and traditional), i.e. Algebra, Analysis, Geometry, Applied and Computational Mathematics, Probability and Statistics. 2. Enhance critical, analytical and abstract thinking. 3. Develop computational and problem-solving skills including the capability to use modern technology effectively. 4. Enable students to use Mathematical methods and thinking to solve mathematical problems in Physics, Engineering, Finance or Biology. Career Prospects: On successful completion of the program graduates will be able to be employed in numerous areas of both the Public and Private sectors. It must be underlined here that teaching is not the only opportunity for employment. There are many jobs that require the design and use of Mathematical or Statistical models and the quantitative skills, analytic and critical thinking Mathematicians undoubtedly have are qualities in high demand. One must not forget that Mathematics is also used in Genetics, Epidemiology, the Social Sciences, Image Processing and Computer Science. Potential employment opportunities include: 1. Banking, the Stock Market, Financial Institutions, Market Research and Polling Companies. 2. Secondary Education, whether this is public, private or tutoring. 3. The Central Bank of Cyprus, the Statistical Service, the Ministry of Finance and the Meteorological Service. 4. The Cyprus Institute of Neurology and Genetics, Social Science Research Centers and software development companies. Access to Further Studies: Upon graduation, students may have direct access to further postgraduate (MSc, Ph.D.) studies in a vast array of scientific fields: 1. Pure and Applied Mathematics 2. Statistics 3. Engineering and Applied Sciences 4. Operational Research 5. Computer Science 6. Financial ╬ťathematics and Actuarial Science 7. Physics [-]