Compulsory
|
RSM2002 TOWING VEHICLES II
|
3
|
0
|
2
|
Lighting systems in towing vehicles. Control circuits of towing vehicles. Main parts of electric locomotives, operating principles, transfer of electrical energy from the overhead line to the wheels. Introduction of electric trains (units), their main parts, working principles. Engine Information, Traction Engines. Engine body and block systems of Towing Vehicles. Cooling, lubrication, fuel, exhaust and regulator systems of traction vehicles used in railways.
|
Compulsory
|
RSM2004 BRAKING TECHNIQUE
|
2
|
1
|
2
|
Basic concepts and terms in braking systems, general introduction of braking systems of rail system vehicles, braking effect, sabot pressure force, piston force, braking ratio, braking distance calculation in railway vehicles, braking force calculation in towing vehicles. Compressed air production and use. Introduction to the brake systems of mainline locomotives, direct and indirect brake systems. Brake systems and components of wagons, malfunctions that may occur in brake systems and their elimination. Reasons for missing the train.
|
Compulsory
|
RSM2006 HYDRAULIC AND PNEUMATIC
|
2
|
1
|
3
|
Basic principles in hydraulics and pneumatics, design principles, hydraulic and pneumatic control elements, hydraulic and pneumatic symbols, hydraulic and pneumatic circuit design, electro hydraulic and electro pneumatic circuit design and examples from industrial applications.
|
Compulsory
|
RSM2008 RAIL SYSTEM VEHICLE MECHATRONICS
|
2
|
1
|
3
|
Maintenance and repair of mechanical parts of rail system vehicles, powertrain and brake system. Maintenance and repair of electrical-electronic, lighting and air conditioning systems of rail system vehicles.
|
Elective
|
RSM2010 GENERAL ELECTRIC INFORMATION
|
3
|
0
|
4
|
Electrical history development, AC and DC currents, simple circuit, Ohm's law, Kirchoff's current law and Kirchoff's voltage law, loop current method, node voltage method, Thevenin's theorem, Northon's theorem, superposition theorem, maximum power theorem, source transformation method, eye current analysis by shape method, node analysis by shape method, storage elements in direct current, power and energy in direct current, alternating current, series circuits, parallel circuits, resonance, power and compensation in alternating current, power and energy in single phase alternating current.
|
Elective
|
RSM2012 TOWED VEHICLES
|
3
|
0
|
4
|
Basic concepts and classification of towed vehicles, Wagon; freight wagons, types, methods of loading and unloading freight wagons. Types of gauge, dimensions and interpretation. Conditions and development of passenger wagons. Explanation of signs and numbers on wagons. Numbering of wagons, passenger wagons, numbering of wagons, freight wagons, wagon parts and their duties. Passenger wagon, wagon parts and their duties. Freight wagon, container, land container terminals. General information about international container transportation.
|
Elective
|
RSM2014 SYSTEM ANALYSIS AND DESIGN
|
2
|
1
|
4
|
Ability to study any subject related to the profession, research the subject, prepare a report, present the report in writing at appropriate standards and present the subject orally.
|
Elective
|
RSM2016 URBAN RAILWAY TRANPORTATION SYSTEMS II
|
3
|
0
|
4
|
Definitions and concepts in urban rail transportation systems. Variables in urban rail transportation systems. Quality and concepts in urban rail transportation systems. Capacity and types in urban rail transportation systems. Capacity calculations in urban rail transportation systems. Service level in urban rail transportation systems. Train protection and control systems in urban rail transportation. Progression time calculations in fixed block systems. Progression time calculations in moving block systems. Capacity in monorail transportation systems. Capacity in funicular systems. Determination of operating characteristics in urban rail transportation systems. Stations and components in urban rail transportation systems. Capacities of stations in urban rail transportation systems. Stations and required performance criteria.
|
Elective
|
RSM2018 RAILWAY AND WAREHOUSE RELATIONS
|
2
|
1
|
4
|
Calculations Related to Pulling and Towed Vehicles: Calculations according to the passenger status to be carried on railways, Calculations according to the passenger status to be carried on urban rail transportation systems, Calculations in freight transportation on railways; Preventive Maintenance and Revision Programs of Pulling Vehicles; Calculation of Driver Personnel to Use Pulling Vehicles; Evaluation of Pulling Vehicles; Planning, Organization, and Examination of Workplaces (Depots) Where Periodic Maintenance of Pulling Vehicles is Performed; Economics of Passenger and Freight Transportation: Development of passenger and freight transportation according to GNP increase and determination of needs on a network basis, Intervention of depots in railway accidents and measures to be taken for opening the road.
|
Elective
|
RSM2020 GENERAL ROUTE INFORMATION
|
3
|
0
|
4
|
Transportation Systems. Identification and Classification of railroads. BasicTechnical Principles of Railway. The route, Line Determination of the number, speed, Aliyman, curve, and superelevation, Incline. Basic Technical Principles ofRailway. The railway infrastructure and superstructure constructions and conceptsthat form the basis of technical size. Infrastructure and superstructure elements.Energy Transfer of rail systems. At facilities in the stations. Road edge markingsand Rules. Road-Wheel-Speed Rail Systems Relations.
|
Elective
|
RSM2022 COMPUTER AIDED DRAWING II
|
1
|
2
|
4
|
Parametric modeling principles, SolidWorks interface, file creation, registration, programs and settings, and customize the toolbar to prepare parts with SolidWorks sketch command, SolidWorks solid modeling commands, SolidWorks surface modeling commands, drawing two or more parts made of their installation, assembly department in 3D mounting creation, creating SolidWorks drawings (basic view, sectioning, scales, template creation, scaling), Surface treatment and tolerance symbols shown on the picture
|
Elective
|
RSM2024 SYSTEM ANALYSIS AND DESIGN
|
3
|
0
|
4
|
To understand the importance of standardization and quality and be able to explain the concept of quality. To understand the importance of quality assurance, to explain professional standards, provide information on technical and fundamental models used in quality assurance and reliability analysis, to understand material on consumer rights.
|
Internship
|
RSM2052 INDUSTRIAL TRAINING
|
0
|
0
|
4
|
INDUSTRIAL TRAINING
|
Elective
|
USD2050 COMMUNICATION
|
3
|
0
|
4
|
The definition of communication and effective communication, its elements and characteristics, the language used, self-awareness, effective listening and feedback, factors that hinder and facilitate communication, persuasive communication, the role and use of emotions in communication, effective communication techniques, conflict in communication and its prevention, non-verbal communication skills, rules of conduct in social life; etiquette and courtesy, communication practices and the adoption of the relationships of communication with other disciplines.
|
Elective
|
USD2052 QUALITY ASSURANCE AND STANDARDS
|
3
|
0
|
4
|
To be able to comprehend standardization and its importance. To be able to explain quality and the concept of quality. To be able to comprehend the importance of Quality Assurance. To be able to explain professional standards. To provide information about techniques and basic models used in quality assurance and reliability analysis. To be able to comprehend articles related to consumer rights.
|
Elective
|
USD2066 WORK LIFE
|
3
|
0
|
4
|
|
Elective
|
USD2068 INTEGRATION OF FIRST AID INTO DISASTER ORGANIZATION
|
3
|
0
|
4
|
|
Elective
|
USD2072 STYLE CONSULTANCY
|
2
|
0
|
4
|
|