EE-211 CIRCUIT ANALYSIS (4+0+0) 4

Electrical quantities and elements, source and signals. Characteristics of reference signals and wave forms. Kirhoff's laws and Circuit equations. Method of loop currents and node voltages. State equations and variables. Thevenin and Norton theorems. Sinusoidal steady state operation of circuits.

EE-212 COMPUTER APPLICATIONS IN ELECTRICAL ENGINEERING (0+2+0) 1

Basic operations, operations with series and matrices, drawing facilities, programming and various applications, all using matlab. Mathematical p operations, data analysis, plotting and drawing using MATHCAD. Circuit analysis with PSPICE.

EE-221 ELECTRONICS-I (3+1+0) 3.5

Energy bands in solids and semiconductors. Diode characteristics and applications. Transistor characteristics. BJT transistor amplifiers. H parameters . Field effect (JFET) transistors. JFET and MOSFET applications.

TE-242 CIRCUIT ANALYSIS-II (3+0+0) 3

Steady state analysis of state equations Tree transformations. Laplace transforms. Frequency response and resonance. Two-port Representations.

EE-223 LABORATORY OF CIRCUITS (0+0+2) 1

Kirhoff's laws, superstition theorem. Thevenin and Norton theorems, RCL circuits. Three-phase systems.

EE-224 ENERGY CONVERSION (3+0+1) 3.5

Energy types, energy conversion principles, electromechanical energy conversion. DC machines: construction, operation, equivalent circuit and control. Synchronous machines . construction, operation, equivalent circuits and control. Synchronous machines: construction, operation and control.

EE-225 ELECTRICITY (2+0+1) 2.5

Fundamental units and definitions DC circuits. Circuit analysis methods. Delta-star transformations. Measurement devices. Electromagnetism and magnetic. Electric fields and behavior of conductors in electric. Fields. Alternating current and voltage.

RCL circuits.

EE-226 COMPUTATIONAL METHODS IN ELECTRICAL ENGINEERING (2+1+0) 2.5

Numerical errors. Matrices and linear algebra. Methods root finding. Newton-Raphson, Regulo-Falsi, Midpoint,  etc. Numerical Integration and differentiation. Least mean squares method. Differential equations. Solution of linear equation systems.

EE-311 ELECTRONICS-II (4+0+0) 4

Frequency analysis of BJT and JFET amplifier circuits. Pulse amplifiers. Feedback and its types. Operational amplifiers. Oscillators. Power amplifiers. Power supplies.

EE-312 ELECTROMAGNETIC FIELD THEORY (3+0+0) 3

Vector analysis. Static electrical fields Gauss law. Electrical potential. Poisson and Laplace equations. DC electrical currents. Static magnetic fields and Biot-Savart law. Magnetic circuits.

EE-313 ELECTRONICS LABORATORY (1+0+2) 2

Diodes and diode amplifiers. Transistor characteristics. Transistor amplifiers. BJT and FET amplifier circuits, and OPAMP circuits.

EE-314 ELECTRICITY-II (2+0+2) 2

DC motors and generators. Alternators and synchronous machines. AC motors and synchronous motors. Parallel operation of electrical machines md efficiency. Transformers. AC measurement devices. electrical systems. In ships. Maintenance of electrical machines.

EE-315 DIGITAL SYSTEMS (3+0+0) 3

Numben systems, bolean arithmetic, kamayhmgs, design, with larc doors, combinatical circuits, consecrate circuits regibters, memory, numerical computer organization, arithmetical control unit.

EE-321 SIGNALS AND SYSTEMS (3+0+0) 3

Sıgnals and systems. Linear time-invariant systems. Convolution. Fourier transforms. Dicrete time fourier transforms. Modulation. Sampling. Filtering Z- Transform.

EE-322 HIGH FREQUENCY TECHNIQUES (3+0+0) 3

Maxwell equations. Mono -kinematics waves. Energy carried by electromagnetic waves. Planar waves. Wave guides Antennas.

EE-323 CONTROL SYSTEMS (3+0+0) 3

Analysis of linear control systems by differential equations and transfer function methods using Laplace transforms. Stability of closed loop control systems. Routh-Hurwitz criterion, root locus diagrams, bode and polar plots ,nichols charts.Nyguist stability criterion. Introduction to design and optimization of linear control systems, compensation techniques.

TE-471 COMMUNICATION ENGINEERING (3+0+1) 3.5

History of communication, broadcasting, Fourier integrals. Phase shifting. Convolution. Modulation. Receivers. FM and properties AM receivers.

EE-412 MICROWAVE TECHNIQUES (3+0+0) 3

Introduction to microwave theory, electromagnetic theory, transmission lines, wave guides. Microwave measurements and components. Semiconductor microwave components. Resonator, microwave tubes, millimeter waves.

EE-413 POWER ELECTRONICS (2+0+1) 2.5

Applications of electronics. Inverters. Three-phase circuits. Input currents and transformers. Current switching. Direct converters.

EE-414 ELECTRONIC MEASUREMENT AND INSTRUMENTATION (1+0+1) 1.5

Measurement and error. Measurement principles. Measurement techniques. Frequency counters. Digital voltmeter. Oscilloscope. Signal generators. Time-domain measurements Frequency domain measurements. Transducers.

EE-221 ELECTRONICS (2+0+1) 2.5

Introduction to electronics. Diodes, power supplies. BJT's and small signal amplifiers. Large signal amplifiers. Operational amplifiers. Operational amplifiers. Oscillators and multi -vibrators. Communication systems and radar.

EE-415 DIGITAL CONTROL SYSTEMS (3+1+0) 3.5

Linear discrete time systems and Z-transformation. Design of digital filters. Design of digital control systems using transformation techniques and state space methods. Sampled data systems. Controller and observer design state space methods.

EE-416ELECTRONICS-II (2+0+1) 2.5

EE-417 ELECTRONICS-III (3+1+0) 3.5

Properties of basic wave shapes. Linear and nonlinear wave shaping. TTL,ECL, Cmos and I L logic gates. Flip-Flops,A/D and D/A converters, multiplexer circuits.

EE-418 DIGITAL SIGNAL PROCESSING (3+0+0) 3

Discrete-time signals. Discrete-time systems sampling. Correlation and convolution sum. FFT Frequency analysis of linear time invariant systems. Digital filters.

EE-421 RADAR SYSTEMS (3+0+0) 3

Radar frequency brands, radar systems, block diagrams. Radar range equation. Power calculations and performance criteria .CW and FM-CW radars. Pulse compression MTI systems. Tracking radars. Radar transmitters.  Radar antenna and wave propagation Electronic (EW)

EE-423 SONAR SYSTEMS (2+1+0) 2.5

Propagation of sound waves in water. Shell law and ray path plot. B/T analysis. Sonar equations. Noise analysis. types of transducers, arrays, signal spectrum and detection threshold.

EE-411 COMMUNICATION ENGINEERING -II (3+0+0) 3

Sampling theorem. Pulse amplitude modulation (PAM), multiplexing. Pulse code modulation (PCM), quantization, information capacity in PCM. Delta and adaptive delta modulation. ASK,FSK,PSK.

EE-425 ELECTRONICS LABORATORY-II (1+0+2) 2

Logic gates fiber optics. Power control. Digital receivers and transmitters. AM transmission systems.

EE-426 COMMUNICATION ELECTRONICS (2+1+0) 2.5

Introduction to communication systems. RF amplifiers. Noise and distortion. Frequency selective circuits. Oscillators. Modulators and demodulators. Phase-locked loops. Frequency synthesizers.

EE-429 PROJECT (1+2+0) 2

Graduation Thesis.

EE-422 MODERN CONTROL SYSTEMS (3+0+0) 3

State space analysis of control systems. Model analysis. Controllability and observability of state space representations. analysis of discrete time systems using state space and Z-transform methods. Controller and observer design. Introduction to nonlinear systems theory. Lyapunov stability analysis.

EE-427 CONTROL TECHNOLOGY AND DESIGN (2+1+0) 2.5

System component’s equipment, mechanical electric liquid gas and heat components. meaning components. Actuator and control.

Gİ-211 SHIP DRAWING (1+2+0) 2

Geometry of ships. Ship lines, body plan, sheer plan and water plane area curves. Integration rules and methods. Form factors to be considered in naval ship design. Geometry and design of naval ships.

Gİ-212 NAVAL ARCHITECTURE (3+0+0) 3

General description of ships. Classification of ship types. Geometrical properties of ships. Hydrostatic parameters. Integration rule sand methods. Intact stability. Subdivision and stability in damaged condition. Introduction to strength and structure of ships. Resistance and propulsion. The motion of ships in waves. Ship maneuvering and control. Shipbuilding and ship design methods. present and future on and beneath the sea.

Gİ-221 COMPUTER APPLICATIONS OF NAVAL ARCHITECTURE (1+2+0) 2

CAD, AutoCAD, dimensions, curves, trim calculation analysis. Drafting, parametric design applications.

Gİ-222 NAVAL ARCHITECTURE-I (2+1+0) 2.5

General description of ships. Geometrical properties of ships. Hydrostatic parameters. Integration rules and methods. Intact stability. Subdivision and stability in damaged condition. Introduction to strength and structure of ships.

Gİ-311 SHIP STRUCTURES AND STRUCTURAL COMPONENTS (3+0+0) 3

The framing systems of various ship types. The function of the structural components of the ships. Classification societies and rules. Application of classification rules. Welding. Materials used in ship construction. Structure, alignment and continuity. Frames, beams and stiffeners.

Bottom constructions. Shell and deck plating. Longitudinal framing. Bulkheads, superstructures and deckhouses, foundations.Pillars, girders and hatch comings. Machinery casings. Stress concentrations and cuts in structures Crak arresting methods. Bow and structures. Submarine structure and construction.

Gİ-312 NAVAL ARCHITECTURE-II(3+0+0) 3

Resistance and propulsion of ships, the motion of ships in waves, Ship maneuvering and control strength ships.

Gİ-321 SHIP STRENGTH-I(2+0+0) 2

Response to waves. Load, shearing force, bending moments and deflection evaluation methods Stresses in inclined vessels. Effect to the load translation on the structure. Effect wave form and height to longitudinal strength. Experimental ship strength.

Gİ-322 SHIP HYDROSTATICS (4+0+0) 4

Ship hydrostatic curves. Numerical integration methods. Longitudinal stability and trim. Wetted surface area. Transversability. Heel experiment, moments, addition and removal of weights. wind effect, forces. Free surface effect. Dynamic stability longitudinal stability. Stability when grounded, docking. Stability criteria.

Gİ-323 SHIP RESISTANCE (3+0+0) 3

Dimensional analysis. Frictional resistance. Wave resistance. Other components of resistance. Resistance at restricted and shallow water. Relation of hull forms to resistance. Determination of ship resistance, model experiments, standard series of Experiments, statistical methods, diagrams.

Gİ-414 SHIP STRENGTH-II (2+0+0) 2

Strength of ship beams. Methods used in ship beam solutions. Transverse strength of ships. Elementary methods applied to plate strength of ships. Critical buckling loads on offshore structures. Supported longitudinal stringer and ring stiffened tubes under loads and hydrostatic pressure. Critical loads on plates supported by stringers under axial loading and hydrostatic pressure.

Gİ-472 SHIP PROPULSION (2+0+0) 2

Fundamentals of ship propulsion different propulsion types. Geometry and hydrodynamic properties of propellers(Dimensional analysis Kt-Kq diagrams,Bp-8 design methods)Interaction between ship and propeller, propeller theories, design of propeller, cavitation ,propellers with nozzles.

Gİ-411 SHIPYARD ORGANIZATION AND MANAGEMENT (2+0+0) 2

Consideration for selection of shipyard site. Shipyard layout planning. Workshop planning methods and organization of man power in shipyards. Production methods and stages. in ship building. Optical methods in shipyard. cutting machines with optical and numerical controls. Production flow in shipyards. Capacity planning is shipyard organization, work capacity. Personnel planning, network planning techniques.

Gİ-413 SHIP DESIGN-I (2+0+0) 2

Classification of ships. Design goals. Warships. Feasibility studies. Steel body weight. Equipment of machinery. Howgard-Manning method. Resistance, propeller design. General arrangement in ships .Special ship types.

Gİ-421 SHIP THEORY (2+0+0) 2

Proofing calculations. Permeability. International using for subdivision of ships. Foldable length calculation. Bulkhead arrangements. Stability when flooded. Launching calculations . Static and dynamic calculations. Pressure calculations. Methods of Launching and Side Launching.

Gİ-422 SHIP HYDRODYNAMICS (3+0+0)

The Naval Architect and Ocean Waves, Wave theories. Pitch, heave and surge. Roll, yaw and sway motions. Strip theory. Combined ship motions. Effect of ship motions and applications to design. Introduction to ship maneuvering and control. Course keeping. Linear equations of motion. stability

Gİ-423 NAVAL ARCHITECTURE PROJECT (0+2+0) 1

Determination of major ship characteristics of a selected ship effecting cost and performance. Owners requirements. Ship Proportions. Steps in the design process, drawing lines and body plan, weight and center of gravity estimates, evaluation of hydrostatic parameters and stability curves. Power estimation. Choice of number and type of propellers. Estimation of the structural components of midsection according to classification rules. General arrangement of the ship. Ship cost estimation.

Gİ-424 SHIP DESIGN-II (2+0+2) 2

The effect of ship parameters on design. Underwater from design. Examination and selection of block coefficient with respect to resistance an propulsion. Effects of dimensional ratios. Effect of underwater volume distribution. Examination of special form ships with bulbs, ships with small water plane area. Selection of form : Optimization of ship form due to general design.

MM-311 NAVAL ENGINEERING-I (2+0+2) 3

Basic concepts of thermodynamics. energy,  heat thermodynamic operations, thermodynamic properties of steam. Rankine cycle main steam cycle of a ship. Turbines, nozzles, propulsion turbine systems, condenser and feed systems, boilers, distilling plants, Valves and steam traps.

TI-352 THERMAL ENGINES-1(2+0+2) 3

The conventional rankine cycle steam plants, including superheat ,reheat and regenerative cycle. Steam turbine elements, Boilers, condenser and feed-water header analysis and description. Steam turbines blade types,t ypes of nozzles and properties, control of turbines, methods of condensation condense and feed water pumps, boilers, dieseling plants, valves and steam traps

TI-353 SHIP AUXILIARY MACHINERY (3+0+0) 3

Capacity of pumping systems. System heads. Friction curves in a pumping system, velocity head, head components suction head discharge and characteristic curves. Specific speed. Pumps used in ships. Piping systems. Valves and corks. Fitting ventilation fans, engine room ventilating fans. Cargo hold ventilation. Fuel pumps. Air compressors. Rudder systems cranes.

MM-321 NAVAL ENGINEERING-II (2+0+2) 3

Thermodynamic properties of ideal gases thermodynamic processes of ideal gases. Otto, Diesel Sabathe and brayton cycles. Schedule of events in actual cycles, engine performance indices. Fixed and moving parts in engines. Inlet and exhaust system in engines. Starting. Fuel, firing ,lubricating ,cooling engine control and power transmission systems of internal combustion engines. Principles of gas turbines and marine applications.

TI-362 THERMAL ENGINES-II (2+0+2) 3

General overview of internal combustion engines. Otto, diesel cycle and real cycles. Performance parameters of engines. Mean effective pressure and specific fuel consumption, columetric efficiency. Main structural components of engine, starting-up air Exhaust lubricating cooling speed control and power transmission systems .Thermal analysis and naval applications of thermal engines.

MM-423 GAS TURBINES (3+0+0) 3

General overview of gas turbine cycles. Regeneration double combustion, open and closed cycles. Basic components of gas turbine.Jet motors and power source applications. Active parameters of gas turbines. Combined cycles. Operational problems, auxiliary systems. COSAG, COGAG,GODAG STIG cycles. Material problems and solution methods naval applications.

MK-121 ENGINEERING GRAPHICS (1+2+0) 2

Principles of engineering drawing, fundamentals and techniques. Lettering and dimensioning. Geometric figures. Projection methods. Sectional views. Surface forms. Representation of various elements.

MK-211 COMPUTER-AIDED DRAWING (1+2+0) 2

Introduction to Auto CAD drawing software. General drawing commands and analysis, library creation, arranging the drawing environment. Layers, outer references, special commands, use coordinate systems. Viewing drawings, isometric and solid modelling,3D surfaces, parametric design. Autolips and its applications.

MK-212 STATICS (3+0+0) 3

Forces on a particle in a plane an in space, equilibrium of particles. equivalent of forces on rigid bodies. Free body diagrams.Equilibrium of rigid bodies. Distributed forces, centroids, frames and machines. Shear and bending moment diagrams for beams. Friction, moment of inertia of areas and masses.

MK-213 MATERIAL SCIENCE (3+0+1) 3.5

Atomic structure and inter atomic bonding. Crystal structure defects in crystal structures. Dislocations, alloys, phase diagrams equilibrium phase diagrams. The Iron-Iron carbide (Fe-Fe3C) phase diagram. Phase transformations. Thermal processing of material. Methods for increasing strength. Mechanical properties. Corrosion, ceramics, polymers, composite materials.

MK-214 THERMODYNAMICS-1 (4+0+0) 4

Fundamentals of thermodynamics. Control volume, thermodynamic systems and its properties. PVT properties of pure matter. Steam tables, P-V and T-V diagrams. Work and heat interactions. First law of thermodynamics for systems second law of thermodynamics. Entropy, heat change in reversible processes, second law of thermodynamics for state change of system. Entropy change in irreversible process. Entropy change of inert gases. Isotropic and irreversible polytropic change. Open system analyses. Applications of systems, usable energy.

MK-221 DYNAMICS (3+1+0) 3.5

Rectilinear and curvilinear motion of particles Kinetics of particles. Newton's second law of motion. Principle of work and energy .Principle of impulse and momentum. Power and efficiency. Impact. Linear and angular momentum. Kinematics of rigid bodies. Energy and momentum methods for plane motion of rigid bodies. Forces and accelerations.

TM-222 THERMODYNAMICS-II (3+0+0) 3

Steam cycles. Refrigeration cycles. Ideal gas cycles, gas-steam mixtures. refrigeration and air-conditioning system and methods of refrigeration and air-conditioning.

MK-223 COMPUTATIONAL TECHIQUES IN MECHANICAL ENGINEERING (2+1+0) 2.5

Solution of linear and nonlinear equations. Numerical differentiation and integration. Interpolation techniques. Numerical solution of differential equations.

MK-311 STRENGHT OF MATERIALS (3+0+0) 3

Analysis of internal forces, Stresses Axial deformation (Hooke's law) torsion and shear stress, bending moment and flexure stress, stresses in beams, Mohr circle, deflection of beams, combined stresses.

MK-312 FLUID MECHANICS (4+0+0) 4

Properties of fluids. Fluid static Fluid flow concepts. Conservation equations and applications. Dimensional analysis and similitude. Flow of viscous fluids. Turbulent flows. Boundary layer theory.

TM-353 CONTROL AND MODELLING OF DYNAMIC SYSTEMS (3+0+0) 1

Modelling of dynamic systems. Laplace transforms. Transient-response analysis. Transfer functions. Frequency response analysis Block diagrams. Feedback control. Root locus. Logarithmic plots. State-Space analysis.

MK-321 COMPUTER APPLICATIONS IN MECHANICAL ENGINEERING (0+2+0) 1

Basic operations, operations with series and matrices, drawing facilities, programming and various applications all using MATLAB Mathematical operations data analysis,plotting and drawing using MATHCAD Applications related to mechanical engineering.

MK-322 HEAT TRANSFER (4+0+0) 4

Fundamentals of heat transfer and applications. One dimensional steady conduction. Two dimensional steady conduction. unsteady conduction. Principles of convection. Forced convection. Natural convection. Heat exchangers, radiation, condensation and boiling.

MK-323 APPLICATIONS OF FLUID MECHANICS (3+0+0) 3

Classification of pumps, reciprocating pumps, centrifugal pump ,gear pumps external piston lob pumps, fans, compressors.

MK-324 MANUFACTURING TECHNIQUES (3+0+0) 3

Casting techniques. Modeling and Moulding techniques casting cleansing, plastic deformation. Rolling techniques. Extrusion Welding technology and techniques, techniques of sticking by melting special welding techniques.

MK-411 DESIGN OF MACHINE ELEMENT-1 (3+0+0) 3

Failure theories and design static strength, design for fatigue strength, riveted connections, welded connections, keys, helical springs, design of shafts.

TM-472 DYNAMICS OF MACHINERY (3+0+0) 3

Analysis of Mechanism. Motion, velocity and acceleration Analysis of mechanisms, linear mechanical systems, Four link mechanisms, Gear-trains, Kinematics synthesis of mechanisms, Cam Mechanisms, intermittent Motion Mechanisms.

TM-473 FLUID POWER CONTROL (3+0+0) 3

Fundamentals of hydraulic systems, direction and velocity control in hydraulic cylinders, flow control, valves, pipes, hydraulic pumps, accumulators, hydraulic fluids, filters leakage, maintenance pneumatic control and systems, compressors, flow control,Hydraulic and pneumatic control systems applications.

MK-424 PROJECT (0+2+0) 1

Graduation thesis 

MK-421 DESIGN MACHINE ELEMENTS-II (3+0+0) 3

Critical speeds in the shafts, spur gears, helical gears, worm and bevel gears, rolling contact bearings, lubrication and journal bearings, clutches and couplings.

MK-422 EXPERIMENTAL METHODS IN MECHANICAL ENGINEERING (1+0+2) 2

Stress strain refrigeration, flow visualization flow in pipes, hydraulic pressure distribution, etc. Data analysis. Report writing. Measurement techniques.

MK-423 MECHANICAL VIBRATIONS (3+0+0) 3

Kinematics of mechanical vibrations and basis concepts. Systems with one, two and multiple degrees of freedom. Energy and Rayleigh method. Equivalent and string and mass systems Damped free vibrations. Coulomb damping and differential equation solutions, undamped free vibrations, damped, forced vibrations, resonance, damped response to periodic excitation, vibration isolation, vibration measurement equipment. Beam and shaft vibrations, noise and vibration control.

BG-425 PROJECT (1+2+0)

Final work.

MH-412 WEAPON SYSTEMS-1 (2+2+0) 3

Ballistics gunfire control systems, ammunition, fire control systems in the Turkish Navy. Gunnery communications, Submarines, General introduction and tactical concept of ASW weapons and components.

MH-422 WEAPON SYSTEMS-II (3+0+0) 3

The classification of missiles, the parts of missiles, the factors effect on flying of the missiles, the missiles in the Turkish Navy, techniques of mine sweeping ,tactics and components.