DEPARTMENT OF MARITIME TRANSPORTATION ......2019/06/20 · Maritime Transportation Management...
Transcript of DEPARTMENT OF MARITIME TRANSPORTATION ......2019/06/20 · Maritime Transportation Management...
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DEPARTMENT OF MARITIME
TRANSPORTATION MANAGEMENT
ENGINEERING
Course Catalogue
UNIVERSITY OF KYRENIA
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Contents
1. MARITIME TRANSPORTATION MANAGEMENT ENGINEERING (DECK) Programme .... 5
2.General Information about the Department of Maritime Transportatiton Management Engineering .. 5
Vision of the Programme................................................................................................................. 5
Mission of the Programme .............................................................................................................. 5
Official Length of Programme: ....................................................................................................... 5
3. Mode of study: full time .................................................................................................................. 5
Profile of the Programme and Method of Education ....................................................................... 5
4. Qualification Awarded .................................................................................................................... 6
5. Level of Qualification ..................................................................................................................... 6
6. Access Requirement(s) .................................................................................................................... 6
7. Qualification Requirements ............................................................................................................. 6
8. Intended Learning Outcomes of B.Sc. Program .............................................................................. 7
9. Arrangements for Transfer from another Maritime Trasportation Management
EngineeringDepartment ........................................................................................................................... 7
10. Examination Regulations, Assessment and Grading ................................................................... 7
11. Grading Scheme and Grades ...................................................................................................... 9
12. Occupational Profiles of Graduates ........................................................................................... 10
13. Programme Director .................................................................................................................. 11
14. Key Learning Outcomes ............................................................................................................ 11
15. Objectives and Contents of the Course: .................................................................................... 12
16. Information on the National Higher Education Systems ........................................................... 35
APPENDIX ........................................................................................................................................... 36
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This course catalogue is developed to give information about the Maritime Transportation
Management Engineering programme in Faculty of Maritime Studies, University of Kyrenia.
The catalogue includes key information about the duration of the programme, mode of study,
course description, credit and grading system etc. of the programme.
We hope you can find the necessary information to your questions about the Department of
Maritime Transportation Management Engineering and the course programme.
Sincerely
Prof. Dr. Mustafa ALTUNÇ
Dean of the Maritime Studies
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1. MARITIME TRANSPORTATION MANAGEMENT ENGINEERING (DECK)
Programme
2. General Information about the Department of Maritime Transportation
Management Engineering
The Faculty of Maritime Studies of Near East University founded in 1996 and since
then it offers maritime education and training with teaching staff specialized in marine-
oriented programs at the undergraduate levels.
Near East University Faculty of Maritime Studies is continuing to facilitate education
under the body of University of Kyrenia since 2014.
Vision of the Programme
To provide the students with maritime traditions and commons, critial and
analytical thinking, self – discipline, self – confidence, social responsibility, team
working, life long learning, managerial and leadership qualifications.
Mission of the Programme
Faculty of Maritime Studies is specialized in undergradute and graduate education in
the fields of transportation and engineering as well as preparing officers of the merchant fleet
within the context of international maritime studies related interests of International Maritime
Organization and the philosophy of total quality, safety, security and environment
management.
Official Length of Programme:
4 years (excluding one year of English preparatory class),2 semesters per year, 16 weeks per
semester.
3. Mode of study: full time
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Profile of the Programme and Method of Education
Maritime Transportation Managment Engineering with their qualifications that they
acquired throughout 4 year undergraduate education on Maritime Transportation Managment
Engineering.
The Department jointly meets the standards of IMO (International Maritime
Organization of United Nations) MODEL COURSE 7.03, AII/1 for Unlimited Watchkeeping
Officer for Long Voyage, as required by the International Convention on Standards of
Training, Certification and Watchkeeping for Seafarers (STCW 95) together with 2010
amendments, and standards of IMO MODEL COURSE 7.01 AII/2 for First Officer and
Captain/Master training. In this department is carried out in compliance with the Regulations
of Seafarers which was put into force by the Maritime Directorate of Prime Ministry of
Turkey on 24 July 2001.Studies and assessment are carried out in accordance with the criteria
specified in this ordinance.
Receiving education throughout five semesters along with a total of 12 month practical
training on merchant marine ships, at the end of the sixth semester, the students complete the
mandatory level described in the STCW 2010 Convention and relevant regulations set by the
Ministry of Transport, Maritime Affairs and Communication of Turkey to take responsibility
on any seagoing ship as Unlimited Watchkeeping Officer. Upon completing their final year
education successfully, students gain skills and professional knowledge stipulated for
Unlimited First Officer and Captain / Master.
In this department, of which training principle is based on interdisciplinary training,
also educational by maritime law management, vessel hiring, brokering, economy, staff
management are given along with the courses on basic engineering, vessel technologies,
maritime meteorology and oceanography.
Certification and Watchkeeping for Seafarers” (STCW-1978), STCW-95 and 2010
amendments the undergraduate program comprises eight semesters, where the sixth semester
is planned as on merchant marine ships. Training is an integral part of maritime education and
requires hands-on experience at seas alongside with theoretical knowledge, students receive
summer internships during their first and second year.
Receiving education throughout five semesters along with a total of 12 month practical
training at workshops and on merchant marine ships, at the end of the sixth semester, the
students complete the mandatory level described in the STCW 2010 Convention and relevant
regulations set by the Ministry of Transport, Maritime Affairs and Communication of Turkey
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to take responsibility on any seagoing ship as Unlimited Watchkeeping Officer. Upon
completing their final year education successfully, students gain skills and professional
knowledge stipulated for Unlimited First Officer.After, Oceangoing Captain / Master.
The graduates of this department can be recruited in mercantile vessels traveling long
voyages as third officer up to Captain, and can take up technical responsibilities in vessel
construction (shipbuilding) yards and maritime companies.
4. Qualification Awarded
Bachelors of Science (B.Sc) (Bachelor's Degree/ first cycle in Bologna System)
5. Level of Qualification
Qualifications Framework- European Higher Education Area (QF-EHEA): 1
6. Access Requirement(s)
High School Diploma. Admission of Turkish nationals is by Placement through anation-wide
Student Selection Examination (ÖSS) administered by Assessment,Selection and Placement
Centre (ÖSYM). Admissions of Turkish Cypriots is based on the University of Kyrenia
Entrance and Placement exam. Admission of international students is based on their high
school credentials. Proof of English Language proficiency is also required.
7. Qualification Requirements
166University of Kyrenia Credits (University of Kyrenia Credit is contact hour based) which
is total 240 ECTS credits must be completed after being successful in the courses to become a
graduate of the Maritime Transportation Management Engineering department.
ECTS is a credit system designed to make it easier for students to move between different
countries. Since they are based on the learning achievements and workload of a course, a
student can transfer their ECTS credits from one university to another so they are added up to
contribute to an individual's degree programme or training. ECTS helps to make learning
more student-centred. It is a central tool in the Bologna Process, which aims to make national
systems more compatible.
ECTS also helps with the planning, delivery and evaluation of study programmes, and makes
them more transparent
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8. Intended Learning Outcomes of B.Sc. Program
The objective of the Maritime Transportation Engineering Management (Deck Departments)
is to train students for operating vessels and bring them in skills and knowledge on internal
operation procedures of vessels.
9. Arrangements for Transfer from another Maritime Transportation Management
Engineering Department
A student wishing a transfer from another university: the student must prove her/his English
Proficiency if he/she wishes to attend the English Section. At the time of OSS examination
the candidate's entrance score must not be less than the lowest score for admission to the
Maritime Transportation Management Engineering Department. The transcript and course
content of the applicant is examined by the department and the student is then accepted into
the appropriate year of the programme.
10. Examination Regulations, Assessment and Grading
The evaluation of the students‟ performance varies according to the methods of delivery
followed in each course offered indifferent departments of the Faculty of Engineering in
University of Kyrenia. In addition to a final exam, which is requisite according to the
regulations of NEU, the results of minimum one mid-term exam along with other evaluation
criteria are usually taken into consideration in order to determine the final grade of the
student. These supplementary performance evaluation criteria might be quiz grades,
laboratory works, home works, term projects and presentations depending on each individual
course. Weights of all abovementioned partial grades within the overall grade gained by the
student at the end of the semester are defined by the lecturer delivering the course.
The content of the exams as well as the method of assessing students‟ knowledge are
determined by the course lecturer. The exams are normally designed according to the intended
learning objectives. The results of the mid terms are posted both on the web page as well on
the bulletin board so that the objections can be considered if any corrections are needed for re-
evaluation. The exams are graded over 100 points. The means and variances are also
computed for the exams in order to see the distribution of percentages of the students which
are under in classes. The exams may be completely closed (for the texts part) or/and may be
open book depending on the course subject and the teachers consensus.
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Exams can be “written”; either in the “multiple choice” or in the “essay writing” style for
assessing conceptual knowledge. “Written” exams may also include problem solving or
sometimes may include technical drawing practices for engineering purposes as well. Some
“computer-aided” courses may have applied examinations that are organized in PC Labs
while each student carries out the tasks given in the content of the exam, using an individual
computer. Some other courses may have “oral” examinations; either in “interview” or in a
“presentation” style. The lecturer of the course is in charge of setting the criteria for grading
the written or oral examinations given for that course.
Students failing to attend to any mid-term or final exam with a valid excuse are allowed to
take a “Make-up Exam”. If the student fails the course at the end of the semester, he/she is
given the chance to take an additional “Re-sit” exam; the grade of the re-sit exam replaces the
grade of the final exam gained by the student while his/her average grade is re-calculated. No
make-up exam is given in case of missing the re-sit exam.
The timetables of mid-term, final and re-sit examinations are announced by the Engineering
Faculty, following the dates defined in academic calendar that is set by the Rectorate of
University of Kyrenia. Other critical dates for possible additional midterm examinations,
quizzes as well as any term project submission deadline are defined by the lecturer of each
course.
Lecturers submit the student grades to the Chairperson until “The last day for the submission
of letter grades” that is specified in the academic calendar. All grades become official when
reported to the Registrar‟s Office by each Department.
Grades are entered into the information system belong to each student. The students are
ranked according to their success and the scores. The high honor and the honor students are
publicly announced and during the graduation ceremony, they are complemented and
documented by the certificates.
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11. Grading Scheme and Grades
PERCENTAGE COURSE GRADE GRADE POINTS
90-100 AA 4.00 (Excellent)
85-89 BA 3,30-3,95 (Excellent)
80-84 BB 3,00-3,45 (Very Good)
75-79 CB 2,50-2,95 (Very Good)
70-74 CC 2,00-2,45 (Good)
65-69 DC 1,50-1,90 (Good)
60-64 DD 1,00-1,40 (Good)
50-59 FD 0,50-0,90 (Failed)
0-49 FF 0,00 (Failed)
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12. Occupational Profiles of Graduates
The graduates of this department can be recruited in mercantile vessels traveling long
voyages as third officer up to Captain / Master, also can take up technical responsibilities in
vessel construction (shipbuilding) yards and maritime companies.
13. Programme Director
Prof. Dr. Mustafa ALTUNÇ
Phone: 00 90 650 2600- 4070
E-mail: [email protected]
14. Key Learning Outcomes
The studentswho successfullycomplete the program should have;
1. Know and properly use the language of chemistry (nomenclature, terminology, and
symbolic representations)
2. Comprehend and be able to apply chemical facts, concepts, and models, and be able to
3. Succeed in qualitative and quantitative problem solving skills.
4. Think critically about the mutual impacts of science, society, natural resources, and
the environment.
5. Apply the definition of limit to evaluate limits by multiple methods and use it to derive
the definition and rules for differentiation and integration.
6. Use derivatives to analyze and graph algebraic and transcendental functions.
7. Select and apply appropriate models and differentiation techniques to solve problems
involving algebraic and transcendental functions; these problems will include but are
not limited to applications involving optimization and related rates.
8. Apply the definition of indefinite integral to solve basic differential equations.
9. Apply the definition of definite integral to evaluate basic integrals.
10. Use the fundamental theorem of calculus to evaluate integrals involving algebraic and
transcendental functions.
11. Students will have gained general knowledge on the Description and importance of
meteorology in maritime.
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12. Students will have gained the knowledge to understand Humidity cloud and
precipitation. General atmospheric circulation.
13. Students will have gained the necessary understanding of the Meteorological elements
Wind,True wind speed and direction.
14. Students will have gained the knowledge to Weather observations and codes.
15. Students will have gained general knowledge on the Description and importance
Steam boilers: type of boilers, drum type boilers, D type boilers.
16. Students will have gained the knowledge to understand Reciprocating steam engines.
17. Students will have gained the necessary understanding of the Steam and feed water
systems
18. Students will have gained the knowledge setting up of cutting tools, sharpening tools,
cutting fluids.
19. Students will have gained general knowledge about the history of navigation and
development of nautical instruments.
20. Students will have gained the knowledge the earth, its shape and rotation, poles, and
etc.
21. Students will have gained the necessary understanding of latitudes and longitudes.
22. Students will have gained the knowledgeof the usage of symbols and abbreviations for
mariners.
23. Students are going to be given general knowledge about dynamics and statics.
24. The basic concepts of hydrostatics and hydrodynamics are going to be stated
25. The study of Harmonic motion will be take place.
26. Learn about the techniques of survival at sea.
27. Learn use of survival craft (life boat, rescue boat) and equipment.
28. Learn basic (elementary and medical) first aid techniques.
29. Learn personal safety and social responsibilities.
30. Learn prevention of marine pollution by ships.
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15. Objectives and Contents of the Course:
CHE 101 General Chemistry for Maritime Studies
Objectıves Of The Course:
This course is designed as a one-semester course for freshman maritime students. Students
who successfully complete this course will be able to:
1. Develop fundamental principles of theoretical and applied chemistry
2. Develop scientific inquiry, complexity, critical thinking, mathematical and
quantitative reasoning.
3. Explain phenomena observed in the natural world.
4. Develop basic laboratory skills
Course content:
Atoms, molecules and ions, mass relations in chemistry; stoichiometry, reactions in aqueous
solution, electrochemistry, gases, thermochemistry, and acids and bases.
MTH 101 Mathematics I
Objectıves Of The Course:
Conceptual overview of law and methods in marine engineering subjects - To understand the
major theoretical background of functions, limits, derivatives and their application in
engineering problems, integrals, techniques of integration and application of the integral.
Course content:
This course is designed to develop the topics of differential and integral calculus. Emphasis is
placed on limits, continuity, derivatives and integrals of algebraic and transcendental
functions of one variable. Upon completion, students should be able to select and use
appropriate models and techniques for finding solutions to derivative-related problems with
and without technology.
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MET 101 Maritime Meteorology I
Objectıves Of The Course:
The objectives of this course are: 1) to introduce some of the major issues within the
description and importance of meteorology in maritime.; 2) to gain an understanding of the
the atmosphere, its composition and physical properties, solar radiation., and to be able to
apply that understanding to meteorological elements (e.g., Wind,True wind speed and
direction).
Course content:
In accordance with rules according to STCW. For safe navigation and transportation, air
events correctly observe, international communications and meteorological weather forecast
ability to provide the board.
MRE 101 Introduction to Marine Engine I
Objectıves Of The Course:
The objectives of this course are: 1) to introduce some of the major issues within the
description and importance ofIntroduction to marine engineering 2) to gain and understanding
Main and auxiliary engines.
Course content:
At the end of the second semester will be held for two months in summer ship to ship
machines to students as a preparation for an internship provide basic information about.
NAV 101 Navıgatıon I
Objectıves Of The Course:
The aim is to teach new learners according to STCW and IMO rules the history of maritime
navigation and the structure of the earth as well as introducing the characteristics of the sea
map.
Course content:
In this course, sailors will learn the definition and history of navigation, the development of
nautical instructions, the earth, its shape and rotation, the difference of latitudes and
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longitudes. They will also learn the usage, symbols and abbreviations, notice for mariners
chart and corrections, definitions of distance and direction, nautical publications and
specifications.
MPH 101 Physics for Mariners I
Objectıves Of The Course:
Vectors, statics, dynamics, work, energy, power, momentum, rotational motion, harmonic
motion, hydrostatics, hydro-dynamics, heat and temperature, heat transfer, wave motion and
sound.
Course content:
The intention of this course is not only teaches to the fresh-person students theoretical topics
that is given in “Objectives of the Course” part, but also the way of analytic opinion for
solutions. On the other hand laboratory works give opportunity to the student to apply the
theory.
Two-semester sequence in general physics is intended for pre-engineering studies, students
who are planning to become a captain or mechanic. Topics include a survey of: vector
methods, conservation laws, classical mechanics, gravitation, optics, sound, heat, electricity,
magnetism and elementary quantum physics. Three hours lecture, two hours lab per week.
Prerequisite: Skill in algebraic manipulation. Offered annually.
SAF101 Maritime Safety I
Objectıves Of The Course:
Survival techniques at sea. Location and usage of personal life saving appliances. Basic
(elementary and medical) first aid. Personal safety and social responsibilities.
SEA 101 Seamanship I
Objectıves Of The Course:
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Duty and task of crew, Seamanship unıts and measurement , Definition and history of
seamanship , Development of the modern seamanship , General Terms of seamanship , Term
of the parts of the ship , Terms relevant to maneuvering of the ship,terms relevant to position
or direction , structures used as aid to seamanship , Dimension of ship tonnage, and draft
marks, speed ,Loadlıne rules, distance measurements in seamanship , ship types and general
classification boat, Types of the boats , construction of the boat , parts of the boat , boats
which made from wooden or synthetic materials , technics of the rowing ,usage of the boats
with engine , sailing by boats on heavy seas , sailing boats and riggings , sailing , berthing and
unberthing , sailing by boat , steering gears , propeller and various propeller types ,
emergency steering gears , watertight doors , engine room section , Part of block and tackle,
Types of the block , kınd of the pulley and deck riggings , parts and riggings of a mast ,
booms , derricks , swinging booms , heavy derricks , crane munckloaders , winches , davits ,
vantilatiors , deck structures , bitts , fairleads , eyes , gangways , ladders , hooks , tackles and
riggings , lashing technics , lifting screw , glossary of shipping terms.
Course content:
STCW-78 seamanship provide information required by the rules for oceangoing captains,
oceangoing chief officers and officers
MTH 102 Mathematics II
Objectıves Of The Course:
Conceptual overview of theorems and methods within applied course material - Teaching
Methods of Convergence and divergence - Teaching three dimensional vector analyses -
Double, triple partial derivatives and integrals.
Course content:
This course is designed to develop the topics of series, parametric equations, vector and
surfaces, vector valued functions, partial differentiation, mulMedicinele integrals and vector
calculus. Upon completion, students should be able to select and use appropriate models and
techniques for finding solutions to vector calculus, parametric equations and polar
coordinates, mulMedicinele integrals problems with and without technology.
MET 102 Maritime Meteorology II
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Objectıves Of The Course:
The objectives of this course is to introduce some of the major issues within the Calculating
wave height.
Course content:
In accordance with rules according to STCW. For safe navigation and transportation, air
events correctly observe, international communications and meteorological weather forecast
ability to provide the board.
NAV102 Navigation II
Objectıves Of The Course:
The objectives of this course is to teach necessary basic knowledge of terrestrial navigation,
Course content:
Introduction to navigation; terrestrial-traverse-latitude. Examples of terrestrial navigation and
usage of Mercator charts and Norie‟s Table in navigation. Definition of course and bearing
(true-relative). Magnetic compass, parts of magnetic compass, definition of variation and
deviation, finding the true/compass/magnetic courses. Preparing the deviation table and
magnetic compass corrections. Introduction to gyro compass and exercises of finding of
compasses. Nautical instruments and navigation aids. Line of position, types of ship‟s position
(DR, EP, AP, FIX, etc.). Coastal navigation, using the nautical publications and charts in
coastal navigation. Lights and fog signals, A and B system of buoyancy, symbols of the bouys
MPH 102 Physics for Mariners II
Objectıves Of The Course:
Electricity; Electric field and potential capacitors and dielectrics. Current and resistance. DC
circuits. Power transmission, maximum power theorem and power in mono and tree phase
systems. Magnetic field, electric motors, transformers and generators. Electromagnetic wave,
light and physical optics. Electromechanical instruments. AVO meter.
Course content:
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The intention of this course is teaching to the fresh-person students, theoretical topics that are
given in “Objectives of the Course” part, but also the way of analytic opinion for solutions.
On the other hand laboratory works give opportunity to the student to apply the theory.
Two-semester sequence in general physics is intended for pre-engineering studies, students
who are planning to become a captain or mechanic. Topics include a survey of
Static electric, electric field, capacitance and dielectrics. Resistivity circuit and currents in AC
and DC circuits. Power, power theorem for all circuits. Mono and three phase power.
Magnetic field, electric motors, transformers and generators. Light and optics.
Electromechanical instruments. Three hours lecture, one hours lab per week. Prerequisite:
Skill in algebraic manipulation. Offered annually. Safety of electricity, rule of ohm, rule of
Krichoff‟s current, electric engines and generators, electricity distribution and protective
instruments.
SAF102 Safety II
Objectıves Of The Course:
The objectives of this course is to teach how to fight with the fire.
Course content:
SOLAS 1974 and amendments,rules and regulations of SOLAS.Conditions of
fire,firepreventing,fire classes,different of fire fighting,fire fighting equipment,fixed and
portablefire extinguishers,fireman outfit,breathing apparatus,hoses and nozzles,international
shore connection.Maintenance and control of fire fighting equipment.Fire fighting
plans.Security-Related Familirization(Güvenlik Tanıtımı),
Security Awarness(Güvenlik Farkındalık),Designated Security Duties(Belirlenmiş
Güvenlik Görevleri)
SEA 102 Seamansip II
Objectıves Of The Course:
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Rope and diffirent kinds of ropes , specifications and dimension measurements of the ropes ,
parts of the fibre , synethetic and wire cordages and breaking strength , protection and usage
of the ropes , preparation before use , terms and commands for the handling of the ropes ,
seamanship works with the ropes , description of the seaman knots and how to make ,
whipping , fibre and wire cordage silings , Ship s construction and parts of the ship , keel
floors , frames and beams , decks , bulkheads , double bottom tanks , top-side tanks , hatch ,
hatch coamings , hatch covers , open-close ringings of the hatch covers , bilges and bilge lines
, ballast lines and pumps , fuel oil and slop tanks , tank structures of tankers.Windlass fore and
aft station system and riggings , anchor and chains , terms to be used in anchorage and rope
works on board , ship‟s plans , Maintenance , repair and paint works on board preparation
before paintining , painting techhics , protection of the ballast tanks , preparation before
inspections.
Course content:
Seafarers will ship captain in trade, according to the 1995 revision of the STCW-78
convention, to gain the necessary knowledge and skills to manage the crew.
CMP 152 Introduction to Computer
Objectıves Of The Course:
It includes system components, social impact, applications, programming concepts, and the
use of software packages. Students will learn the basics through intermediate computer
concepts with an emphasis on the personal computer and its practical use, including hardware,
application and system software, the Internet and World Wide Web, communications,
database management, and computers in society. This course will also provide full menu of
application modules with core requirements for word processing.
Course content:
This course is designed to give students an understanding of how a computer works its
capabilities, limitations, and applications.This course is intended as a first computer course
and it is not assumed that the student has background knowledge on the subject. The course
will focus on theoretical issues during the first period, followed by application and hands on
skills.
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MEL201 Introduction to Electronics
Objectıves Of The Course:
Semiconductors, diodes, diodes in circuits, transistors, transistors in circuits, transistor
amplifier. Filed effect transistor. Feedback amplifiers and oscillators. Power amplifiers.
Multivibrators. Modulation. Antennas and Propagation of electromagnetic waves.
Course content:
The basic goal of this course is to introduce the some of electronic components as well as the
characteristics of the components and the behavior in the circuit. Theoretical topics are given
in “Objectives of the Course” part.
One-semester, Introduction to Electronics is intended to be offered for engineering studies;
students who are planning to become a captain or mechanic. Topics include a survey of
semiconductors, diodes, diodes in circuits, transistors, transistors in circuits, transistor
amplifier. Filed effect transistor. Feedback amplifiers and oscillators. Power amplifiers.
Multivibrators. Modulation. Antennas and Propagation of electromagnetic waves. Three hours
lecture per week. Prerequisite: MD/MEPHY101 and MD/MEPHY 102. Offered annually.
MTH 211 Spherical Trigonometry
Objectıves Of The Course:
At the end of the course, the students are expected to have a deeper appreciation of the course;
acquired manipulative skills of the differentconcepts, rules and theorems used and applied in
Trigonometry
Course content:
Plane and Spherical Trigonometry is a course for IT students. The course deals with the study
of triangles particularly the relationship between the sidesand angles and their measurements;
the six trigonometric functions of an acute angle of a right triangle; the six trigonometric
functions of any angle; the solutionsof right and oblique triangles; the radian or circular
measure of an angle; the fundamental identities; the inverse trigonometric functions; the graph
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of inversetrigonometric functions; exponential and logarithmic functions and
spherical trigonometry
NAV213 Navigation III
Objectıves Of The Course:
The objectives of this course is to teach necessary basic knowledge of passage plan,
Course content:
The important procedures in coastal navigation.Voyage planning procedures in coastal
navigation. Navigation procedures in traffic seperation zones. For passage through straits.
When navigating near coasts and in restricted visibility. Calculation of the effects of currents
and wind. Navigational triangle for solution of current problems. Basic theory of the tides,
spring tides and relevant definitions. Neap tides and relevant definitions. Tidal problems and
solutions for main and secondary ports. Tidal streams and calculations. Great circle sailing
and composite sailing. Navigation planning in ocean voyages. Usage of the nautical
publications relevant with ocean voyages. Precedures for the search and rescue navigations.
Navigation on higher latitudes and within ice limits. Procedures for keeping a log-book at sea,
ocean and ports.
NRC 201 Ship Construction
Objectıves Of The Course:
To help sailors improve their knowledge on ship construction principles and ship structure
elements who will be the second captain or a captain on merchant ships in accordance with
STCW-78 convention 1995 revision.
Course content:
In this course, sailors will learn general arrangement plan, holds, engine-room, peak tanks,
double-bottom tanks, hatchways, bulk heats, cargo tanks, deck plating, frames, brackets,
transverse frames, deck beams, shell plating, and etc. minimum requirements for seafarers
training tanker ships, basic knowledge for tankers, (ESY EK 20)
WAT 201 Standarts Of Watchkeepıng II
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Objectıves Of The Course:
Responsibilty of the officer ın charge of a navigational watch with regard to avoiding
collision and stranding. Principle of watch keeping, use and control of navigational
equipment. Handing over and taking over watch, navigation with pilot,
Pilot costal navigation , look-out, use of radar, navigation in poor visibility, calling the master
, organizing watchkeeping personnel, keeping watch while at anchor, keeping watch in port,
safety of life, ship an d cargo in port, port regulations, handing over watch in port, bad
weather in port.Review of COLREG/72 rules.prevention of pollution and MARPOL
73/78.Information of the ISM and gıve description about check and control lıst
Course content:
Seafarers will ship captain in trade, according to the 1995 revision of the STCW-78
convention, to gain the necessary knowledge and skills to manage the crew.
LAW 251 Introduction to Maritime Law
Objectıves Of The Course:
To gain knowledge about law terms of Shipping
To be able to forsee any legal problems and gain knowledge how to avoid or minimize it.
NAV 214 Navigation IV
Objectıves Of The Course:
To educate and train students as a deck officer and ultimately as a captain of the merchant
vessel, on the subjects of ; universe, solar system, celestial sphere, celestial coordinate system,
hour angle, daily movements of the celestial bodies, finding and calculating the coordinates of
celestial bodies, time, usage of sextant and other celestial instruments, their errors and
corrections.
Course content:
This course forms part of the proposed Modular Framework under STCW for vocational and
professional qualifications based on a degree programme in Navigation Engineering. The
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course gives students an in-depth expertise of managing a naval vessel as a Deck Officer and
ultimately as the captain of the vessel. In this context, course covers mainly the theory of
celestial navigation, instruments and documents used, also having practice on these issues.
NAV 252 Electronic Aids to Navigation I
Objectıves Of The Course:
Cyro compass and its operation principles , Sperry and Anschütz compasses , gravity control ,
oscillation and damping , follow up system and repeaters , the starting of gyro compass and its
errors. Transmitting magnetic compass. Automatic pilot. Propagation of sound waves in
water.Echo sounder , Speed logs. Sonar. Propagation of electromagnetic waves . Faximile
.Navtex. Satellite Navigation. Direction Finder .Transit and GPS.Integrated navigation system
. Voyage Data Recorder (VDR) . Automatic Identification System.(AIS) . Long Range
Indıcatıon Transmitt System. BridgeNavigational Watch Alarm System (BNWAS).
Electonic Chart Display Information System (ECDIS).Solas Regulation on board.
Course content:
To learn operation procedure of navigation equipment in accordance with STCW regulation
on board.
NRC 202 SHIP STABILITY 1
Objectıves Of The Course:
The objectives of this course is to teach necessary basic knowledge of stability
Course content:
Sip dimension, ship tannages, force and moments, density and specific gravity, laws of
flotations, transverse stability, ringhting lever GZ, centre of gravity, stiff and tender ships,
metacentric heights, avoid of navigative GM, the effect of free surface of liquids on stability,
longitudal stability, trim, trim calculations, grain cargo and its heeling moments, statical
stability diagrams, Simpson‟s methods, ship strwnght, statical and dynamical forces, stress.
MMC 204 Ports and Terminals
Objectıves Of The Course:
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The objectives of this course are: 1) to define the seaports of, types of seaports etc. ; 2) to
understand the key functions and role of ports 3) to ensure a thorough knowledge and
understanding of Port and Terminal Management.
Course content:
This course provides core concepts and tools relevant to specific subjects in area of maritime
transport and port management, in order understand the ship/port operations, the harbours‟
activity and shipyard industry particularities and detailed look at the role and functions of the
seaports and the responsibilities of organizations, companies and agencies that support it.
SAF 214 Maritime Saftey III
Objectıves Of The Course:
Life saving equipment. Abandoning in ship. Man overboard operations. Life at sea and
hyphothermia. Life in life boats and rafts. Search and rescue, SAR organizations safety
equipment certificate. Survival at sea. Fast-Rescue boat, training on passenger ships.
Course content:
To learn operation procedure of navigation equipment in accordance with STCW regulation
on board.
SHA 202 Shiphandling & Manoueuvring I
Objectıves Of The Course:
The effects of various deadweights, draughts, trim, speed and under-keel clearance on turning
circles and stopping distance. Effect of wind and current on ship handling. Manoeuvring for
rescue of a man overboard. Squat and shallow-water and similar effect. Propar procedures for
anchoring and mooring, fore-aft pitching, shallow water effect.
SWM 202 Swimming
Objectıves Of The Course:
To learn the students how they swim.
COM 301 Maritime Communication I
Objectıves Of The Course:
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This course forms part of the proposed Modular Framework for vocational and professional
qualifications based on a degree programme in Navigation Engineering. The Programme
gives students an in-depth expertise of managing a merchant vessel as a Deck Officer and
ultimately as the captain of the vessel. The emphasis upon Classification, Instrument and
procedures of Maritime Communications and use signaling methods to transmit and receive
information.
In accordance with the International Procedures, concerning any merchant ships in port or
navigation, under normal or emergency conditions.
CRG301 Cargo Handlıng And Operatıon 1
Objectıves Of The Course:
The objectives of this course is to teach necessary basic type of cargos , when become officer
onboard.
Course content:
Dry cargoes, inspections and preparations of holds, segregation and separation of
cargo,securing of cargoes, ventilation and control of sweat, deck cargo, refrigerated cargo,
container,cargo handling, cargo handling equipment, cargo handling safety, deep tank
cargoes, dangerous,hazardous, and harmfull cargoes, dangerous goods in packages, bulk
cargo, bulk grain cargo, oil tanker piping and pumping arrangements, tanker arrangements,
cargo piping tanks cleaning, slope tanks, clean ballast, dirty ballast, tanker safety,stowage and
stability, calculations and cargo plan, draft, trim and stability.
EMR 301 Emergency Procedures
Objectıves Of The Course:
Actions to protect crew and passengers on board in case of emergencies. Ship towage in case
of emergencies. Search and rescue operation for ship and crew, and initial actions to limit
(assessment) damage, and salvage of the ship in case of fire, explosion, collision or
grounding. Response to marine pollution in accordance with MARPOL. Preparation of
contingency plans to response emergencies. Maintenance of life saving, firefighting, other
safety and security systems and equipment.
GMS 301 GMDSS Simulator I
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Objectıves Of The Course:
Distress, urgency, safety and routine communication exercises utilizing GMDSS simulator
and actual radio equipment. Radiotelephony communication and SMCP exercises. SAR
operations. Ship radio station watchkeeping procedure exercises. International code of signal
exercises.
LAW351 Maritime Law and International Marine Conventions I
Objectıves Of The Course:
Students will acquire a working knowledge of prevalent legal concepts under the 1982 United
Nations Convention on the Law of the Sea. Students will research the theoretical
underpinnings of such concepts. Students will be able to analyze fact patterns and formulate
preliminary assessments regarding the law of the sea. Students will also better seize the
dynamics of dispute settlement. As a result, students will be able to strategically assess the
practical implications of the law of the sea. Generally, students will become attuned to the
tensions between state sovereignty and international cooperation at play within maritime
areas.
Course content:
This module will introduce you to the comprehensive legal framework of the international law
of the sea. You will examine the various maritime jurisdictional zones recognised in
international law, including principles relating to the territorial sea, archipelagic waters,
international straits, contiguous zone, continental shelf, exclusive economic zone, high seas,
and deep seabed. The module also considers the resolution of competing claims to maritime
areas and resources, and focuses on concerns arising from human use of the oceans, such as
maritime security and piracy, exploitation of offshore resources, fisheries management, the
conservation of marine biodiversity, and marine pollution. IMO structure and aims, SOLAS
International Convention For the safety of life at sea, 1974, MARPOL 1973 ve MARCOL
PROT 1997, UNCLOS 1982, STCW 1978, CORLEG 1972, TONNAGE 1969, ILO
Maritime Labour Convention 2006, FAL 1965 „‟Convention On Facilitation Of International
Maritime Traffic 1965.
MAN 301 Maritime Management I
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Objectıves Of The Course:
The objectives of this course are: 1) to introduce some of the major issues within the
Personnel management; 2) to gain an understanding of the Principles of controlling
subordinates and maintaining good relationships; 3) to gain an understanding of the Training
in maintenance, health training and hygiene the authority of the master. 4) to gain an
understanding of the Punishment and reward.
Course content:
Seafarers will ship captain in trade, according to the 1995 revision of the STCW-78
convention, to gain the necessary knowledge and skills to manage the crew.
NAV 352 Electronic Aids to Navigation II
Objectıves Of The Course:
The basic theory of radar.Radar controls Fundamental principles of operation of
RADAR.Radar systems, main units of radar their functioning, Types of radar dısplay
Capabilities and limitations of radar. Setting up maintaining displays,
Radar Symbols and controls. Maintenance.The use of radar in navigation, General &
operational principles of ARPA.ARPA symbols and control. Usage of Radar and ARPA
radar in the navigation, factors to make limitations on their usages,
Application of plotting in maneuvers to avoid to collision. Practice on sheet.
Radar with semi-automatic plotting capability.
Application of plotting in maneuvers to board and practice . RADAR & ARPA. Plotting
capability.ARPA.
Application of plotting in maneuvers to board and practice . to teach and get ability
fundemantal principle of RADAR AND ARPA ,limitations and obtaining efficient
usages.Maneuvering board and practice.Automatic radar plotting aid .ARPA.
Electronics charts, specifications of electronic navigation charts ,Units and operational
functions of ECDIS , prıncıple of ECDIS.
ECDIS limitations and obtaining efficeient use,
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Bridge and navigation systems, their effective usage for safe navigation and avoiding
collision. ECDIS database.ECDIS with Radar-ARPA together usages. IMO performance
standards for electronic navigation equipment on the bridge
Course content:
To learn working procedure of Radar and Arpa equıpments ın accordıng wıth STCW
regulation and slove the problem on the Radar Maneuvering board and practice
NAV 325 Navigation V
Objectıves Of The Course:
To educate and teach the deck officers and ultimately as the captain of the merchant vessel, on
the subjects; time and time equation, nautical almanac, finding the stars and planets, finding
latitude, using the celestial documents, LOP and ultimately establishing the celestial fix.
Course content:
This course forms part of the proposed Modular Framework under STCW for vocational and
professional qualifications based on a degree programme in Navigation Engineering. The
course gives students an in-depth expertise of managing a naval vessel as a Deck Officer and
ultimately as the captain of the vessel. In this context, course covers all aspects of the celestial
navigation and ultimately the celestial fix, also having an intensive practice on these issues.
SIM 301 Sımulator I
Objectıves Of The Course:
By reviving all navigation conditions in the simulator according to the STCW and IMO rules
giving ARPA/RADAR training.
Course content:
In this course, students will learn ARPA, ECDIS and BTM acquisition of targets, tracking
capabilities and limitation, processing delays. Setting up and errors of interpretation in ARPA,
ECDIS and BTM errors displayed data on ARPA, ECDIS and BTM system operational tests
and how to obtain information from ARPA, ECDIS and BTM displays.
AIT 401 Atatürk İlkeleri Ve İnkılâp Tarihi
Objectıves Of The Course:
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Batı kültürleri ile Türk kültürünün karşılaşması sonucu ortaya çıkan siyasi, ekonomik, kültürel
ve sosyo-psikolojik problemler karşısında çözülmeye ve yıkılmaya başlayan Osmanlı
devletinde çözüm arayışları çerçevesinde yapılan reform hareketleri ve İmparatorluktan milli
devlete geçiş sürecinde yaşanan siyasi olaylar ile Mustafa Kemal Atatürk‟ün liderliğinde
verilen Milli Mücadele sonucu Türkiye Cumhuriyeti‟nin kuruluşunun ele alınması.
Course content:
İnkılabın tanımı veTürk İnkılabı, Osmanlı Devleti‟nin yıkılışı, Milli Mücadele Dönemi, Milli
Mücadele Döneminde yapılan savaşlar, kongreler, devletlerle olan ilişkiler ve yapılan
anlaşmalar.
MMC 403 Maritime Management Economics and International Trade
Objectıves Of The Course:
The basic tool kid a general introduction to econ and shipping, demand for shipping supply of
fsh., economies of scale, competitue shipping markets (tramps, charters, tankers, non-
competitue shipping markets liner conferences, seaways, sea canals, ports, voyage estimating,
international/trade and shipping, balance of payments, exchange rates and shipping.
MEN 401 Maritime English II
Objectıves Of The Course:
Students will gain skills of 1) Using IMO standard marine communication phrases 2) Ship to
shore and shore to ship written communications 3) Prepare reports, write NOR and sea
protests
LAW451 Maritime Law & Int. Conv. II
Objectıves Of The Course:
The objectives of this course is to introduce some of the major issues within the description
and importance ofIntroduction to Maritime Law and Marine Insurance.
Course content:
Course will be delivered in Spring Term instructionally. The instructor will provide the
students with assignments in order to assess their capacity to work collaboratively and involve
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in vast research works and this will be evaluated as Mid Term exam. And the Final exam will
be a classic written exam as case understanding, handling and finding advisory solutions.
SAR 1979, SALVAGE 1989, LC1972 ve LC PROT 1996, INTERVENTION 1969 ve
INTERVENTION PROT 1973, CLC1969 ve CLC PROT 1992, FUND 1971 ve FUND PROT
2003, HNS 1996 „‟The Carriage of Hazardous And Noxious Substances By sea, 1996‟‟, PAL
1974 „‟Protocol To The Athens Convention‟‟ PAL PROT 2002, CSC 1972, LLMC PROT
1996, STP 1971 and SPACE STP 1973 „‟Special Trade Passenger Ships Agreement 1971.‟‟
NAV 425 NAVIGATION VI
Objectıves Of The Course:
Based on STCW and IMO conventions and IMO model course 7.01 sailors should gain the
ability to make recommendations as to the appropriate course planning in all circumstances by
the end of the semester.
Course content:
In this course, sailors will learn voyage planning by using relevant nautical publications and
pilot charts according to distance, meteorological and oceanographic conditions.
NRC 411 SHIP STABILITY II
Objectıves Of The Course:
To help sailors improve their knowledge of ship stability issues who will be the second
captain or a captain on merchant ships in accordance with STCW-78 convention 1995
revision.
Course content:
In this course, sailors will learn approximate calculation of areas and volumes. Effects of
density. Calculation of surface effect. Stability of moderate and large angels of heel. Trim and
list. Dynamic stability. Approximate GM by means of rolling period tests. Inclining tests.
Recommendation on intact stability for passenger and cargo ships under 100 meters in length.
Intact stability requirements for the carriage of grain. Rolling of ships. Dry docking and
grounding . Shear force, bending moments, torsional stress. Damage control, flooding of
compartments, effect of flooding on transverse stability, effect of flooding on trim. Draft
survey.
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OCE 401 OCEANOGRAPHY
Objectıves Of The Course:
The objectives of this course is to introduce some of the major issues within the scope of
oceanography, basically in physical oceanography;
Course content:
The aim of oceanography is an understanding of the oceanic circulation and the distribution of
heat in the ocean, how the ocean interacts with the atmosphere, and what role the ocean plays
in maintaining our climate. Further to have an idea on the ocean living and non-living
resources, mans impact on the oceans and major treaty‟s to protect the oceans against
pollution.
SAF 421 Maritime Safety IV
Objectıves Of The Course:
Refreshment of STCW basic trainings. Fire fighting organization on board. Firefighting
equipment maintenance. Protection from hazardous on ship. Medical Care. Entrance of Close
sections.
SHA 401 Shiphandling & Manoueuvring II
Objectıves Of The Course:
Maneuvering when approaching a pilot vessel or station with due regard to weather, tide
headreach and stopping distance. Handling a ship in rivers, estuaries etc. having regard to the
effects off current, wind and restricted water on response to the helm. Berthing and
unberthing under various conditions of wind and tide with or without tugs. Anchoring.
Lightening at sea. Dry-docking. Management and handling of ships in heavy weather and the
use of oil. Determining maneuvering and engine characteristics. Practical measures to be
taken when navigating in ice. The use of and maneuvering in traffic separation schemes.
WAT 411 Standards of watchkeeping III
Objectıves Of The Course:
International Regulations for Preventing Collisions at Sea. Maintain a safe navigational
watch, watch keeping arrangements and procedures. Guidance regarding watch keeping in
STCW Code. Routing, Blind Pilotage Techniques. Ships Reporting Systems.
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MMC 402 Brokering and Chartering
Objectıves Of The Course:
To gain skills and knowledge for chartering practice,
To able the students to give the right decision at the right time during the chartering
negotiations
COM412 Maritime Communication II
Objectıves Of The Course:
This course forms part of the proposed Modular Framework for vocational and professional
qualifications based on a degree programme in Navigation Engineering. The Programme
gives students an in-depth expertise of managing a merchant vessel as a Deck Officer and
ultimately as the captain of the vessel. The emphasis upon Classification, Instrument and
procedures of Maritime Communications and use signaling methods to transmit and receive
information.
In accordance with the International Procedures, concerning any merchant ships in port or
navigation, under normal or emergency conditions.
CRG 412 CARGO HANDLING & OPERATION II
Objectıves Of The Course:
In accordance with STCW-78 convention 1995 revision for those sailors who will be the
second captain or a captain in merchant ships this course is designed to give students
information about loading stowage and heavy weights, and to give information about the
international safety guide and make necessary recommendations.
FGP499 Graduation Project
Objectıves Of The Course:
A well-defined up-to-date problem based on theoretical and technological investigations has
to be solved and the results have to be presented with visual tools.
GMS 402 GMDSS Simulator II
Objectıves Of The Course:
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Distress, urgency, safety and routine communication exercises utilizing GMDSS simulator
and actual radio equipment. Radiotelephony communication and SMCP exercises. SAR
operations. Ship radio station watchkeeping procedure exercises. International code of signal
exercises.
MAN 402 Maritime Management II
Objectıves Of The Course:
The objectives of this course is to introduce some of the major issues within the
Personnel management.
Course content:
Seafarers will ship captain in trade, according to the 1995 revision of the STCW-78
convention, to gain the necessary knowledge and skills to manage the crew.
MET 422 Maritime Meteorology III
Objectıves Of The Course:
The objectives of this course is to introduce some of the major issues within the
Calculating wave height.
Course content:
STCW-78 steamship provide meteorological information required by the rules for
oceangoing captains and oceangoing chief officers.
MRE 412 Introduction to Marine Engine II
Objectıves Of The Course:
The objectives of this course are: 1) to introduce some of the major issues within the
description and importance ofIntroduction to marine engineering 2) to gain and understanding
Main and auxiliary engines.
Course content:
At the end of the second semester will be held for two months in summer ship to ship
machines to students as a preparation for an internship provide basic information about.
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SIM 402 SIMULATOR II
Objectıves Of The Course:
By reviving all navigation conditions in the simulator according to the STCW and
IMO rules giving ARPA/RADAR training.
Course content:
In this course, sailors will learn ARPA, acquisition of targets, tracking capabilities and
limitation, processing delays. Setting up and errors of interpretation in ARPA, errors
displayed data on ARPA, system operational tests and how to obtain information from ARPA
displays.
16. Information on the National Higher Education Systems
The basic structure of the North Cyprus Education System consists of four main stages
as pre-school education, primary education, secondary education and higher education.
Pre-school education consists of non-compulsory programs whereas primary education
is a compulsory 8 year program for all children beginning from the age of 6. The secondary
education system includes “General High Schools” and “Vocational and Technical High
Schools”.
The Higher Education System in North Cyprus is regulated by the Higher Education
Planning, Evaluation, Accreditation and Coordination Council (Yükseköğretim Planlama,
Denetleme, Akreditasyon ve Koordinasyon Kurulu, YÖDAK). Established in 1988, the
Council regulates the activities of higher education institutions with respect to research,
governing, planning and organization. The higher education institutions are established within
the framework of the Higher Education Law. All programs of higher education should be
accredited by YÖDAK.
Higher education in North Cyprus comprises all post-secondary higher education
programmes, consisting of short, first, second, and third cycle degrees in terms of terminology
of the Bologna Process. The structure of North Cyprus higher education degrees is based on a
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two-tier system, except for dentistry, pharmacy, medicine and veterinary medicine
programmes which have a one-tier system. The duration of these one-tier programmes is five
years except for medicine which lasts six years. The qualifications in these one-tier
programmes are equivalent to the first cycle (bachelor degree) plus secondary cycle (master
degree) degree. Undergraduate level of study consists of short cycle (associate degree) and
first cycle (bachelor degree) degrees which are awarded after the successful completion of
full-time two-year and four-year study programmes, respectively.
Graduate level of study consists of second cycle (master degree) and third cycle
(doctorate) degree programmes. Second cycle is divided into two sub-types named as master
without thesis and master with thesis. Master programmes without thesis consists of courses
and semester project. The master programmes with a thesis consist of courses, a seminar, and
a thesis. Third cycle (doctorate) degree programmes consist of completion of courses, passing
a qualifying examination and a doctoral thesis. Specializations in dentistry, accepted as
equivalent to third cycle programmes are carried out within the faculties of dentistry.
Specialization in medicine, accepted as equivalent to third cycle programmes are carried out
within the faculties of medicine, and university hospitals and training hospitals operated by
the Ministry of Health.
Universities consist of graduate schools (institutes) offering second cycle (master
degree) and third cycle (doctorate) degree programmes, faculties offering first cycle (bachelor
degree) programmes, four-year higher schools offering first cycle (bachelor degree) degree
programmes with a vocational emphasis and two-year vocational schools offering short cycle
(associate degree) degree programmes of strictly vocational nature.
Second cycle degree holders may apply to third cycle programmes if their
performance at the first cycle degree level is exceptionally high and their national central
Graduate Education Entrance Examination (ALES) score is also high and their application is
approved. The doctoral degree is conferred subject to at least one publication in a cited and
refereed journal.
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APPENDIX
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