. "Aerospace engineering"@en . . "English"@en . . "Professional ethics"@en . . "2" . "General ethics, which constitute the basis for professional ethics:\nsubject and divisions of ethics, basic ethical concepts and catego-\nries, ethical systems and directions. Professional ethics: essence\nand objectives of professional ethics, essence and functions of\ncodes of ethics, traditional and contemporary codes of ethics and\nethical requirements in technical professions" . . "Presential"@en . "TRUE" . . "Introduction to study"@en . . "1" . "The aim of the course is to familiarise a student with modern meth-\nods of studying and to enable a student to acquire the skills neces-\nsary for studying, such as the ability to learn independently, self-\npresentation, public speaking, scientific discussion, responsible\nteamwork, studying scientific literature, preparing research reports,\ninitiating topics for study, developing a research and creative atti-\ntude, as well as managing his/her time and coping with stress - thus\nall those elements of knowledge and skills and competences that\nare required in the course of studying other subjects. The course is\nintended to help students to overcome difficulties they may encoun-\nter at the beginning of their studies in connection with the need to\nchange the style of learning typical to school into the academic style\nof independent knowledge acquisition and the acquisition of skills\nand competences." . . "Presential"@en . "TRUE" . . "Basics of management and entrepreneurship"@en . . "3" . "The aim of the course is to provide theoretical and practical\nknowledge of the basics of management in contemporary compa-\nnies. To introduce students to the basic issues of contemporary\nmanagement and the mechanisms of organization functioning. To\npresent the most important methods and tools for supporting entre-\npreneurship in Poland." . . "Presential"@en . "TRUE" . . "Selected Issues of law"@en . . "2" . "Basic knowledge of law and sources of law. Learning the basics of\nlegal nomenclature necessary to understand the legal language,\nand elements of the law of the Republic of Poland in the field of\nconstitutional, civil and economic law. The specificity of international\nlaw and European Union law." . . "Presential"@en . "TRUE" . . "Introduction to computer science"@en . . "3" . "Introduction to the architecture and functioning of contemporary\ncomputers. Basics of computer networks and the Internet. Win-\ndows and Linux operating systems. Standards, formats and com-\nputer software for electronic office documents. Text editors - se-\nlected functions and applications. Spreadsheets. Software for" . . "Presential"@en . "TRUE" . . "Physical education"@en . . "0" . "no data" . . "Presential"@en . "TRUE" . . "Foreign language"@en . . "8" . "Structural-grammatical material: revision, expansion and systema-\ntisation of the following topics: grammatical tenses/ tenses of nar-\nration; active/passive voice; de-pendent speech; conditionals;\nquestion formation; collocations; compound sentences; word order\nin a sentence; modal verbs; phrasal verbs. Conceptual-functional\nmaterial: requests; suggestions; offers; ad-vice; consent/refusal;\nnegations; agree/disagree; ex-pressing opinion, cause/effect; rea-\nson/purpose; wishes, apology; summary; choice of register/style,\nspecialized language" . . "Presential"@en . "TRUE" . . "Poland history"@en . . "2" . "A history of Poland from the beginning of a Polish statehood to the\nturn of the 20th and 21st centuries: Poland of the Piasts, the Jagi-\nellons, the elected monarchs, the era of partitions, regaining inde-\npendence in 1918 and the history of the Polish state in the inter-war\nperiod, World War II and afterwards." . . "Presential"@en . "TRUE" . . "Protection of intellectual property"@en . . "2" . "A history of industrial property protection in Poland and in the world.\nInternational organizations for protection of intellectual property.\nPatent protection, utility models and industrial designs. Trade-\nmarks, geographical indications, brand name and service marks.\nTopographies of integrated circuits. Proceedings before the Polish\nPa-tent Office. Procedures, fees, registers. Law on Copyright and\nRelated Rights" . . "Presential"@en . "TRUE" . . "Occupational health and safety"@en . . "0" . "Occupational health and safety in the applicable law. Principles of\noccupational (academic) safety and health - rules of safe conduct,\nrequired in the performance of specific work (activities), resulting\nfrom scientific and technical requirements. Protection against\nthreats to students' health and safety. Use of personal protective\nequipment during classes (exercises). Insurance against accidents.\nBehaviour in case of accidents and emergency situations. The prin-\nciples of first aid." . . "Presential"@en . "TRUE" . . "Introduction to metrology"@en . . "2" . "The place and role of metrology as an interdisciplinary area of\nknowledge in contemporary society. Definitions of basic concepts\nin metrology. The essence of basic measurement methods. The\nstructure and purpose of basic standards and measurement instru-\nments of physical quantities. Errors and uncertainty of measure-\nment" . . "Presential"@en . "TRUE" . . "Mathematics 1"@en . . "6" . "no data" . . "Presential"@en . "TRUE" . . "Mathematics 2"@en . . "6" . "The course aims to provide students with knowledge and under-\nstanding of basic concepts and theorems of mathematics, particu-\nlarly mathematical analysis, and to master elementary calculus\nskills with a range of knowledge including: real numbers, number\nsequences and number series; differential and integral calculus of\nfunctions of one real variable and ordinary differential equations.." . . "Presential"@en . "TRUE" . . "Basics of engineering graphics"@en . . "3" . "Basics of preparing and knowing how to read engineering technical\ndocumentation. Methods of representing geometric figures in the\nplane based on parallel and median projection. Standardization in\nthe field of technical documentation. Learning about basic software\nsupporting the process of developing technical documentation." . . "Presential"@en . "TRUE" . . "Mathematics 3"@en . . "4" . "The course aims to provide students with knowledge and under-\nstanding of basic concepts and theorems of mathematics, particu-\nlarly mathematical analysis, and to master elementary calculus\nskills including: differential and integral calculus of real functions of\nmany variables; vector analysis; calculus of probability and ele-\nments of mathematical statistics." . . "Presential"@en . "TRUE" . . "Physics 1"@en . . "6" . "Discussing the basic concepts and laws governing the motion of\nbodies for models of material point and rigid solid: finding equations\nof motion, applying principles of dynamics to rectilinear and curvilin-\near motion in inertial and non-inertial systems. Comparing the New-\ntonian and relativistic physics. Discussing classical theory of gravi-\ntation and quantities describing the gravitational field. Presenting\nthe basic concepts and laws governing oscillatory and wave motion\nand phenomena characteristic for these movements. Discussing\nthe fundamentals of classical thermodynamics. Discussing electro-\nstatic interactions and the quantities describing this field." . . "Presential"@en . "TRUE" . . "Engineering graphics"@en . . "3" . "CAD/CAM/CAE systems - organisation and structure. Performing\n2D drawings. Modelling solids based on primitives and NURBS\ncurves. Modelling solid assemblies using standards. Performing\ndetailed drawings (2D) from solid components and assembly draw-\nings (2D) from solid subassemblies. Introducing changes to 2D\ndrawings and solids." . . "Presential"@en . "TRUE" . . "Computer science"@en . . "3" . "Basic concepts of computer science. Algorithmisation of data pro-\ncessing objectives. Fundamentals of programming in a high-level\nlanguage. Management support software using databases. Data-\nbase functions. Data-base and database management system\n(DBMS). Relational data models. Structured query language SQL.\nArchitectures of DBMS. Computer networks and DBMS." . . "Presential"@en . "TRUE" . . "Materials science"@en . . "4" . "Fundamentals of materials engineering. Principles of proper selec-\ntion of materials and their impact on safety in operation of machines\nand technical equipment. Types of engineering materials. Methods" . . "Presential"@en . "TRUE" . . "Manufacturing engineering"@en . . "3" . "Basic knowledge of the cutting process. Materials used for cutting\ntools. Machining technology. Abrasive technology and other meth-\nods of reductive machining. Metal cutting machines - jigs and fix-\ntures. Fundamentals of technology process design - components\nof the machining process, selection of semi-finished products.\nTechnological aspects of powder metallurgy. Processing technolo-\ngies applied to selected plastics. Fundamentals of welding. Welding\nmethods and heat sealing. Welding methods of applying coatings." . . "Presential"@en . "TRUE" . . "Metrology 1"@en . . "3" . "Digital measurement technology - introduction. Analog and digital\ninstruments for measuring electrical quantities. Analog vs. digital\noscilloscope. Measuring transducers in mechatronic systems. Dig-\nital measurement systems. Metrology of geometric quantities." . . "Presential"@en . "TRUE" . . "Metrology 2"@en . . "2" . "Measurement of electrical quantities. Measurement of geometrical\nquantities Measurement of non-electrical quantities by electrical\nmethods. Measurement of transducers in mechatronic systems." . . "Presential"@en . "TRUE" . . "Physics 2"@en . . "4" . "Discussing the basic concepts and laws governing electric current.\nIntroducing the concepts of magnetic field and the quantities de-\nscribing it and comparing with electrostatic and gravitational fields.\nDiscussing the electromagnetic field and its laws. Introducing the\nbasic concepts of optics. Discussing the corpuscular-wave dualism\nof radiation. Discussing the structure of atom including quantum\nconcepts. Introducing the concept of corpuscular-wave dualism of\nmatter. Discussing the principle of laser construction and features\nof laser light. Learning the fundamentals of solid state physics, in-\ntroducing a band model, discussing basic physical phenomena in\nsemiconductors. Discussing the structure of the atomic nuclei, phe-\nnomena and laws of radioactivity and reactions of heavy nuclei fis-\nsion and synthesis of light nuclei" . . "Presential"@en . "TRUE" . . "Electrical engineering and electronics"@en . . "6" . "Basic concepts and laws of electrical engineering, methods of anal-\nysis of DC and AC circuits. Basic electronic components and their\napplication in circuits. Basics of construction and analysis of electri-\ncal circuits, necessary for synthesis and analysis of more complex\nelectrical and mechatronic systems. DC and AC electric circuits.\nMethods of analysis and design and determination of basic param-\neters and characteristics. Principles of operation of selected DC and\nAC machines. Basic electronic components and systems, their pa-\nrameters and characteristics." . . "Presential"@en . "TRUE" . . "Engineering mechanics"@en . . "6" . "Statics includes the concepts and principles of statics, reduction of\nforce systems and equilibrium conditions, laws of friction and the\ncalculation of centres of gravity. Strength of materials includes the\nbasic concepts of strength of materials, tension, compression,\nbending, torsion and buckling, characterisation of multidimensional\nstress states, deflection calculations of beams and plane trusses.\nKinematics includes the basic concepts and terms of kinematics,\npoint kinematics, rigid body motion, compound point motion, plane\nmotion, and spherical rigid body motion. Dynamics includes the\nbasic concepts and definitions of dynamics, dynamics of a point and\nsystem of material points, dynamics of rotary motion and motion of" . . "Presential"@en . "TRUE" . . "Strength and materials science laboratory"@en . . "2" . "Experimental determination of strain and stress in a selected sec-\ntion of a bending beam. Experimental verification of the formula de-\ntermining the deflection line of a bending beam. Calculation of re-\nactions of a statically indeterminate structure. Experimental deter-\nmination of material constants, i.e. Young's modulus and Poisson's\nnumber of a metal sample. Experimental determination of critical\nforce in a compression bar. Thermal analysis of alloys. Microscopic\nexamination of the structure of steels, cast steels and cast irons.\nMicroscopic examination of non-ferrous metal alloys. Dilatometric\nanalysis of metals. Measurements of metal hardness. Examination\nof hardiness of steel. Precipitation strengthening of aluminium al-\nloys. Density testing of porous materials and powders." . . "Presential"@en . "TRUE" . . "Mathematics 4"@en . . "5" . "Probability calculus. Basic probability distributions and their appli-\ncations. Mathematical statistics and its application in experimental\nresearch. Using numerical methods in probability calculus and sta-\ntistics." . . "Presential"@en . "TRUE" . . "Human factor"@en . . "1" . "Necessity to consider human factors, incidents influenced by hu-\nman factors/human error, Murphy's Law. Formation of executive\nprocesses and activities. The role of training and habits. Human ca-\npabilities and limitations. Vision, lighting, hearing, association and\ninference, concentration and perception, memory, claustrophobia\nand physical limitations, health hygiene, nutrition. Social psychol-\nogy (sociology). Responsibility: individual and group, motivation\nand inhibition of motivation, group pressure on the individual, cul-\ntural background/influences, working in groups, management, su-\npervision and leadership. Factors affecting the performance capa-\nbilities. Physical fitness/health, stress: domestic and work related,\ntime pressure and deadlines, workload: excess and lack, sleep and\nfatigue, shift work, alcohol, medication, drugs. Surrounding environ-\nment. Noise and fumes, lighting, climate and temperature, move-\nment and vibration, working conditions. Tasks/activities. Physical\nwork, repetitive activities, visual inspection, complex systems.\nCommunication. Communication within and between teams, work\ndistribution and recording, updating, information circulation, sharing\ninformation (access levels). Human error. Models and theories of\nerror, types of error in maintenance activities, consequences of er-\nrors (e.g. accidents), avoiding and controlling errors. Hazards in the\nworkplace. Recognising and avoiding hazards, dealing with emer-\ngency situations." . . "Presential"@en . "TRUE" . . "Aviation law and regulations"@en . . "2" . "General knowledge of law. Areas and branches of law. The system\nof law in Poland - basic legal acts. The European Union and Com-\nmunity law. Aviation law - basic concepts and subject matter. A his-\ntory of aviation law. Applicable regulations of the national and inter-\nnational aviation law. Conventions and legal systems in interna-\ntional aviation law - International Civil Aviation Organisation (ICAO).\nSelected problems of law jurisdiction in the field of aviation law. The\nconcept of common aviation regulations in the European Union and" . . "Presential"@en . "TRUE" . . "Basics of machine constructions"@en . . "5" . "Basics of mechanical construction theory. Fatigue and shape\nstrength of structural elements and assemblies. Inseparable and\nseparable connections used in machine construction. Susceptible\nelements used in mechanical engineering. Mechanical transmis-\nsions – gear transmissions. Mechanical transmissions - friction\ngears and pulley-based transmissions. Mechanical clutches. Me-\nchanical brakes. Tubular connections and valves. Fundamentals of\nhydrostatic propulsion. Modelling of design process. Elements of\ntribology." . . "Presential"@en . "TRUE" . . "Basics of automation"@en . . "4" . "Basic concepts of control theory. Types and structures of control\nsystems. Structure of automatic control sys-tem. Elements of auto-\nmation systems. Modelling of objects and elements of automatics.\nOperator transmittance, spectral, state space. Controllability and\nobservability. Time and frequency characteristics. Stability - stability\ncriteria. Quality of regulation processes - criteria of regulation qual-\nity. Types of correction and types of regulators. Synthesis of control\nsystems by classical methods. Impulse control. Discrete transmit-\ntance of impulse control system. Digital control - basic structures.\nLogic and sequential control. Technology of automation systems:\nmeasuring devices (angle position sensors), regulators (control-\nlers), and actuators (setting and executive elements). Automated\nand robotic systems. Structures of 1st, 2nd and 3rd generation ro-\nbots. Simulation methods of dynamic systems study" . . "Presential"@en . "TRUE" . . "Digital and microprocessor systems"@en . . "3" . "Counting systems and conversions. Binary codes. Fixed and float-\ning point arithmetic. Basics of Boolean algebra. Logic gates and flip-\nflops. Basic combinatorial, sequential and arithmetic blocks. Pro-\ngrammable circuits. Classification and organisation of memory. Mi-\ncroprocessor architecture, command cycle, command list. Design\nand operation of microprocessors and microcontrollers. Micropro-\ncessor system organisation. Input-output (I/O) systems and em-\nbedded peripherals of microcontrollers. Introduction to micropro-\ncessor programming - languages and programming environments." . . "Presential"@en . "TRUE" . . "Basics of modelling physical systems"@en . . "2" . "Basics of modelling. Introduction to Matlab-Simulink and LabView.\nDetermination of mathematical models of complex mechatronic\nsystems. Modelling of complex mechatronic systems in LabView\nand Matlab-Simulink. Data input to simulation. Basic data struc-\ntures and their representation. Basic structures used in modelling.\nM-function and script files, VI and subVI. Presentation of simulation\nresults. Graphical user interface in the process of modelling and\ntesting complex mechatronic structures." . . "Presential"@en . "TRUE" . . "Aircraft materials"@en . . "2" . "Requirements for aircraft construction materials. Strength, techno-\nlogical (formability, heat treatment, joining methods) and" . . "Presential"@en . "TRUE" . . "Aircraft integrated laboratory"@en . . "5" . "Health and safety rules applicable during aircraft maintenance. Cur-\nrent maintenance of aircrafts. Airframe assembly maintenance of\naircraft and helicopter. Aircraft airborne equipment maintenance.\nDamage verification and replacement of airframe components.\nControlling the main operating parameters of individual airframe\nsystems. Operation of aircraft emergency systems and equipment.\nAnalysis of operational parameters of an aircraft propulsion system\nbased on an engine test." . . "Presential"@en . "TRUE" . . "Aircraft maintenance engineering"@en . . "3" . "Aircraft as an object of operation. Operation strategies. Organisa-\ntion of aircraft operations. Standardisation of aircraft operation pro-\ncess. Probability of service in airworthiness. Operation definitions\nand methods. Major components of operation system structure and\nselection criteria. Structure of safe working life. Passenger aircraft\noperation. Operational safety factors of flights." . . "Presential"@en . "TRUE" . . "Strength of materials and structures"@en . . "7" . "Introductory information. Experimental basis for the determination\nof mechanical properties of materials. Calculation of tensile and\ncompressive strength of rods. Moments of inertia of plane figures.\nInternal forces in rods. Bending of a straight bar. Axis of deflection\nof a straight bar. Statically indeterminate bending beams. Stress\nstate theory. Strain state theory. Relationships between defor-\nmation state and stress state. Stress hypotheses. Torsion of bars.\nCompound action of internal forces in simple rods. General energy\ntheorems and their application. Curved rods. Stability of rods. Fun-\ndamentals of stress analysis, free torsion of rods of any cross-sec-\ntion. Non-free deformation of thin-walled rods of open cross-sec-\ntions. Axially symmetric thin-walled tanks. Thin plates. Elements of\ndynamics of elastic systems. Stress of materials under periodically\nvarying loads. Material creep." . . "Presential"@en . "FALSE" . . "Aircraft construction and installation"@en . . "7" . "Aircraft requirements and classification. Forces on aircrafts and hel-\nicopters. Static and dynamic loads. Overload factor, disposable\noverload, limitations. Selection of layout and basic airframe param-\neters, statistical factors. Wing structure and its components. Work\nof girder, semi-shell, shell structures. Structure and work of the wing\nnear the recess, nodes and connections. Wing mechanisation. Ai-\nlerons, empennage and control system. Fuselage and flight deck.\nLanding gear, characteristics and classification, landing gear re-\nquirements. Main and auxiliary landing gear design, suspension,\nairwheel design. Selection of layout and basic parameters of heli-\ncopter airframe. Lift rotor requirements; types and parameters" . . "Presential"@en . "FALSE" . . "Fluid mechanics"@en . . "4" . "Description of fluid state and motion, kinematics elements, velocity\ncirculation. Local motion of a fluid element, deformation velocity ten-\nsor and stress tensor. Basic equations of fluid mechanics,\nNavier-Stokes equation, similarity of flows. Elements of hydrostat-\nics - equilibrium equation, hydrostatic thrust and buoyancy, stand-\nard atmosphere. Euler's equation of motion, Bernoulli's equation,\nelements of applied hydraulics. Laminar and turbulent motion,\nboundary layer, Prandtl equation, Karman equation.\nKarman equation. “Well and badly” flowing bodies, issues of bound-\nary layer detachment, effect of detachment on aerodynamic coeffi-\ncients. Wave phenomena, effect of gas compressibility, isentropic\nflows." . . "Presential"@en . "FALSE" . . "Fluid mechanics and aerodynamics"@en . . "4" . "Description of fluid state and motion, local motion of a fluid element,\ndeformation velocity tensor and stress tensor. Basic equations of\nfluid mechanics, similarity of flows. Equation of equilibrium of a fluid,\nstandard atmosphere. Euler's equation of motion, Bernoulli's equa-\ntion, boundary layer issues, boundary layer detachment. Determi-\nnation of basic flow parameters. Wave phenomena, effects of gas\ncompressibility.\nIntroduction to aerodynamics, aerodynamic objectives and re-\nsearch methods in aerodynamics. Airfoil theory: description of ge-\nometry, aerodynamic characteristics of the airfoil. Lifting surface:\ndescription of geometry, aerodynamic characteristics. Subcritical\nand supercritical airfoil and wing flow. Elements of high speed aer-\nodynamics." . . "Presential"@en . "FALSE" . . "Aerodynamics"@en . . "3" . "Introduction to aerodynamics, aerodynamic objectives and re-\nsearch methods in aerodynamics. Airfoil theory: description of ge-\nometry, pressure distribution over the airfoil, aerodynamic force co-\nefficients, airfoil aerodynamic characteristics. Finite extension air-\nfoil: description of geometry, rotary lifting line theory, induced drag,\nairfoil aerodynamic characteristics. Subcritical and supercritical air-\nfoil and wing flow. Elements of high speed aerodynamic theory:\nsmall disturbance theory, sound barrier, densification and dilution\nwaves, aerodynamic heating. Aerodynamic interference, super-\nsonic air flow, elements of complete aircraft aerodynamics, experi-\nmental aerodynamic characteristics of model aircraft." . . "Presential"@en . "FALSE" . . "Basics of flight mechanics"@en . . "3" . "Flight mechanics objectves, forces acting on the aircraft. Dynamics\nof aircraft motion as a material point. Motion of aircraft on rectilinear\ntrajectories inclined at any angle. Aircraft transient motions on rec-\ntilinear and curvilinear tracks in the vertical and horizontal plane and\non space tracks. Issues of aircraft take-off and landing, aerody-\nnamic characteristics in take-off and landing configurations. Dy-\nnamics of aircraft motion as a material solid. Aircraft equilibrium,\nstatic stability and longitudinal controllability. Equilibrium, static sta-\nbility and lateral controllability, aircraft equilibrium curve. Moments" . . "Presential"@en . "FALSE" . . "Thermodynamics"@en . . "4" . "Thermodynamic state. The equations of state of perfect and real\ngases. Properties of gas mixtures. Principles of thermodynamics.\nCharacteristic transformations. Thermodynamic circuits. Properties\nof single-component real substances. Phase transitions. Multicom-\nponent systems. Equilibrium conditions of thermodynamic system.\nCombustion of liquid and solid fuels. Properties of combustion prod-\nucts. Fundamentals of thermodynamics of flows. Heat transfer:\nconduction, convection and radiation. External and internal heat\nsources heating a structure. Fundamentals of energy conversion\nfrom renewable sources." . . "Presential"@en . "FALSE" . . "Basics of propulsion systems"@en . . "4" . "Thermodynamic state. The equations of state of perfect and real\ngases. Properties of gas mixtures. Principles of thermodynamics.\nCharacteristic transformations. Thermodynamic circuits. Funda-\nmentals of flow thermodynamics. Heat transfer: conduction, con-\nvection and radiation. Theoretical fundamentals of piston engines.\nTheoretical fundamentals of single and dual flow turbine jet engines\nand propeller turbine engines. Theoretical fundamentals of jet en-\ngines. Fundamentals of aeroplane propulsion systems (jet, helicop-\nter and propeller) with piston and turbine engines. Basic engine sys-\ntems (oiling, power, starting and ignition). Hydromechanical and\nelectronic control systems (FADEC). Engine parameter display\nsystems." . . "Presential"@en . "FALSE" . . "Modelling of avionic systems"@en . . "3" . "Modelling of avionic systems and circuits in Matlab-Simulink envi-\nronment. Basic principles of dynamic model creation based on the\ndescription using difference and differential equations to describe\ndynamic models. Modelling by finite element method of mechanical\nand electromagnetic processes in the Comsol Multiphysic environ-\nment. Software for virtual construction of measuring instruments in\nthe LabView environment. Principles of integration of the Matlab-\nSimulink with Comsol Multiphysic and LabView." . . "Presential"@en . "FALSE" . . "Aircraft radioelectronic systems"@en . . "3" . "Theoretical fundamentals of radioelectronic systems. Fundamen-\ntals of radioelectronics and radiolocation. Range of radioelectronic\nequipment and systems. Radioelectronic methods of measure-\nment of navigation parameters. Distance measurement by impulse\nmethod - DME system. Distance measurement by the frequency\nmethod. Direction finding by a phase method - VOR system. Non-\ndirectional radio beacon and automatic radio compass. Aeronauti-\ncal radio-communication equipment. Satellite communications. Air-\ncraft rescue equipment and systems. Radioelectronic equipment\nfor military air defence systems. Air traffic control equipment and\nsystems. Principle of operation and use of secondary radar in avia-\ntion. Collision avoidance systems - TCAS. Low Altitude Flight Con-\ntrol Systems TAWS. Pulse Doppler Radar. Multi-role airborne radar\n-Principle of operation and use." . . "Presential"@en . "FALSE" . . "Servoactuators and actuators"@en . . "3" . "General characteristics of actuators and servo systems. Basic re-\nquirements. Fluids - thermodynamic and flow properties. Flow\nlosses. Pneumatic control and drive systems. Control and actua-\ntors elements. Mathematical model of pneumatic propulsion" . . "Presential"@en . "FALSE" . . "Aircraft measurement and diagnostic systems"@en . . "5" . "Classification of aircraft measuring instruments and systems.\nAircraft Traffic Environment. International Standard Atmosphere.\nOn-board installation of air pressure receivers. Aerometric Switch-\nboards. Angle of attack and glide sensors. Accelerometers and stall\ntransmitters. Aircraft heading measurement. Magnetic and induc-\ntive compasses. Theory and classification of gyroscopes. Review\nand characterisation of aeronautical gyroscopes. Characteristics of\naeronautical gyroscopic instruments and systems. Measurement\nand indication of engine exhaust gas temperature. Measurement\nand indication of rotational speed of engine rotors. Measurement\nand indication of pressure, fuel quantity and flow rate. Measure-\nment and indication of other engine operating parameters (vibra-\ntions, position of control bodies, unsteady compressor operation,\netc.). Essence of technical diagnostics. Basic terms and terminol-\nogy. Diagnostic signals and parameters. Diagnostic models. Diag-\nnostic algorithms. Diagnostic methods and equipment. Expert sys-\ntems in diagnostic inference process. Artificial neural networks in\ndiagnostic systems. Overview of design solutions for measurement\ncircuits and systems of selected aircraft used in the Polish Armed\nForces." . . "Presential"@en . "FALSE" . . "Avionics modules and systems programming"@en . . "6" . "Characteristics of programming languages. Principles of creating\nprograms in high and low level languages. General characteristics\nof integrated programming environments supporting programming\nand starting microprocessor-based systems. Program syntax in as-\nsembler language and C language. Declaration of variables and\nconstants. Operations on arithmetic operators. Operations on logi-\ncal operators. The use of pointers and variable arrays. Standard\ninput/output functions, input/output formatting. Operation of inter-\nrupt systems. Operation of input/output circuits and serial inter-\nfaces. Operation of built-in peripherals of microprocessor systems:\ncounters, timers, real-time clock, A/D and D/A converters. Opera-\ntion of external devices. General characteristics of visual high-level\nlanguages. Introduction to integrated programming environments.\nBasic data types. Characteristics of JAVA and NET runtime envi-\nronments. Internal instructions and functions of the language. Defi-\nnition and calling of user functions. Methods of returning values\nthrough a function argument. Basic features of object-oriented pro-\ngramming: range of available arguments and methods, inheritance,\nclasses. Developing a graphic interface of an application. The use\nof the interrupt system in an application. Operation of computer\nhardware resources." . . "Presential"@en . "FALSE" . . "Control theory"@en . . "5" . "Basic concepts of control theory. Time and frequency characteris-\ntics of basic elements. Control system structure. Basic quality indi-\ncators used to evaluate control systems. Stability of linear systems.\nOverview of basic control laws. Design of controllers. Theory of\nstate estimators and observers. Control from state vector using" . . "Presential"@en . "FALSE" . . "Aircraft power systems"@en . . "4" . "Classification of on-board electrical and energy systems (PUEE).\nAircraft accumulator batteries. Aircraft DC generators. Aircraft gen-\nerators of alternating current. Secondary sources of electrical\npower. On-board electrical power systems and their components.\nStructures of electrical power systems in a state of inoperability. El-\nements of on-board transmission and distribution systems. Light\nsignalling systems. Fire-fighting and anti-icing systems. Aircraft en-\ngine ignition systems." . . "Presential"@en . "FALSE" . . "Aircraft control systems"@en . . "5" . "Aircraft as an object of regulation in an automatic control system.\nMathematical description of dynamic properties of aircraft. Steering,\nstability and manoeuvrability characteristics of an aircraft. The con-\nstruction and principles of operation of semi-automatic flight control\nsystems, vibration damping automatics, longitudinal control auto-\nmatics, lateral control automatics, stability automatics, load auto-\nmatic, trim automatics, balance automatics and kinematic ratio con-\ntrol automatics. Technical structures, operating ranges, construc-\ntion and principle of operation of selected solutions of aircraft control\nsystems." . . "Presential"@en . "FALSE" . . "Aircraft navigation systems"@en . . "5" . "Objectives and basic functions of the navigation system. Classifica-\ntion and characteristics of basic aircraft navigation systems. Geo-\nphysical fields used in aircraft navigation. Shape and representation\nof the Earth. Time-keeping. Elements of astronomy. Fundamentals\nof astronavigation. Aeronautical charts. Navigational parameters of\nflight performance. Orthodromy and loxodromy. Using magnetic\nfield to determine flight parameters. Inertial track counting systems.\nInertial navigation systems. Integrated aircraft navigation systems.\nPreliminary knowledge of radio navigation. Positioning accuracy of\nradio navigation systems. Autonomous radio navigation equip-\nment. Radioelectronic systems for short-range navigation. Satellite\nnavigation systems. Systems and equipment supporting landing\nprocess" . . "Presential"@en . "FALSE" . . "Aircraft digital systems and computer networks"@en . . "4" . "Architectures and components of aircraft avionics systems. Se-\nlected organisational elements of on-board computers and avionics\nmodules. Digital circuits used for on-board computers and avionics\nmodules. Integrated avionics modular systems. Input and output\ndevices of on-board computer and avionics modules. General prin-\nciples and tools for hardware design and software implementation\nof avionic digital systems Specificity of technologies implemented\nin hardware and software of digital flight systems. Protection of dig-\nital aircraft equipment against electrostatic discharges. Fundamen-\ntals of data exchange in aircraft computer systems. On-board com-\nputer network architectures. Fibre optics and fibre optics technology\non aircraft. “Glass Cockpit” Information Imaging Systems. On-\nboard operational support systems. Cabin systems. Information\nsystems." . . "Presential"@en . "FALSE" . . "On-board visualization systems and simulators"@en . . "5" . "Evolution of aeronautical information imaging systems. Examples\nof instrument layout in the cockpit. Perception of information, char-\nacteristics of pilot-operator receptors. Elements of aeronautical er-\ngonomics. Electronic indicators. Computer-based information im-\naging systems. Construction and principle of operation of cathode" . . "Presential"@en . "FALSE" . . "Basics of mechatronics devices construction"@en . . "2" . "Characteristics, classification, applications and constructions of\nmechatronic, electronic, electrical and electromechanical compo-\nnents and systems. Applied materials and technologies. Basic cal-\nculations taking into account technical and reliability conditions.\nBasic kinematics and dynamics analysis calculations. Basic mod-\nelling principles in the environment of computer-aided design sys-\ntems, construction and drafting (CAD). Geometric analysis of sys-\ntem models. Concurrent and conceptual design. Collaborative de-\nsign using CAD systems. Visualisation and simulation of product\noperation in CAD systems." . . "Presential"@en . "FALSE" . . "Flight mechanics"@en . . "6" . "Flight mechanics tasks, forces operating on the aircraft (SP). Dy-\nnamics of aircraft motion as a material point. Aircraft motions on\nrectilinear trajectories inclined at any angle. Aircraft transient motion\non vertical and horizontal straight and curvilinear tracks and on\nspace tracks. SP take-off and landing issues, aerodynamic charac-\nteristics in the take-off configuration and in the landing configura-\ntion. Dynamics of SP motion as a material solid. Equilibrium, static\nstability and longitudinal controllability of aircraft. Equilibrium, static\nstability and lateral controllability, aircraft equilibrium curve. Mo-\nments acting on an aircraft in transient motion. Peculiarities of air-\ncraft flight at large angles of attack. Suborbital and orbital flights of\nspacecraft." . . "Presential"@en . "FALSE" . . "Heat transfer Issues"@en . . "2" . "Concepts and quantities of description of heat transfer issues. Fou-\nrier, Newton and Stefan-Boltzmann Laws. Calculation of steady-\nstate heat transfer through multilayered flat and cylindrical walls us-\ning thermal resistance. Calculation of heat transfer through rods\nand ribs under various boundary conditions. Determination of heat\ntransfer coefficients for fluid flows inside and outside channels. De-\ntermination of heat transfer coefficients for flowing flat walls. Cooling\nof gas turbine blades. Heat transfer boundary conditions for gas tur-\nbine blades. Determination of temperature distribution in a model\nturbine blade using Excel." . . "Presential"@en . "FALSE" . . "Avionics systems"@en . . "6" . "Definition, architectures and basic characteristics of avionics sys-\ntems. Electrical power sources on aircraft. Lighting and light signal-\nling systems. Rain and ice protection systems. Aircraft engine" . . "Presential"@en . "FALSE" . . "Theory of aircraft engines"@en . . "5" . "Operating principles of an aircraft piston engine and their charac-\nteristics. Operating parameters of a single-flow turbine jet engine.\nTwo-flow turbine jet engine and its application. Propeller and heli-\ncopter turbine engine. Parameters and operating characteristics of\ncomponents (inlet, compressor, combustion chamber, turbine and\ntypes of exhaust systems in turbine engines). Basic characteristics\nof turbine engines. Analysis of engine characteristics linking engine\nparameters to flight parameters. Conclusions resulting from the\nanalysis of fundamental importance to the problems of construction\nand operation of aircraft engines." . . "Presential"@en . "FALSE" . . "Strength of aircraft structures"@en . . "5" . "General information. Girders. Membrane theory of cylindrical\nshells. Free torsion of thin-walled prismatic bars. Open section\nbending and shearing of thin-walled bars. Bending and shear of\nthin-walled bars with closed cross-section. Sandwich construction\n(three layer construction). Elastic stability of bars. Elastic stability of\nplates. Structural work after loss of stability. Current directions of\ndevelopment of strength calculation methods for aeronautical struc-\ntures." . . "Presential"@en . "FALSE" . . "Aeroelasticity"@en . . "2" . "General knowledge of aerodynamics of non-stationary flow, main\nequations, Lagrange integral, velocity potential, boundary condi-\ntions, aerodynamic effects of circulationless and circulatory flow.\nFlow of a thin airfoil with finite velocity at the flow edge. Effect of\nwing haunch. Flatter, equations of motion, flexion-torsion flatter of\nwing airfoil. Influence of geometric, elastic and mass characteristics\non critical flatter velocity. Flex-torsional flatter of a finite span wing,\nequations of equilibrium. Approximate methods for calculating flat-\nter velocity and frequency. Galerkin method. Criteria of elastic sta-\nbility of a structure in flow. Wing flatter oblique wing. Low elongation\nwing flatter. Flatter of the tailplane. Flatter with one degree of free-\ndom. Flatter free-from-attachment aircraft. Flatter of plates and\nshells. Non-linear flatter issues. Detachment Flatter. Static aeroe-\nlasticity problems. Flatter research from historical perspective." . . "Presential"@en . "FALSE" . . "Aircraft structure design"@en . . "8" . "Aircraft requirements and classification. Selection of layout\nand basic airframe parameters, statistical factors. Construction of\nwing and its components. Work construction: girder, semi-shell,\ncrust. Structure construction and operation of the wing near the\nwingtip, nodes and connections. Wing mechanisation. Ailerons,\nempennage and control system. Fuselage and flight deck. Landing\ngear, characteristics and classification, landing gear requirements.\nMain and auxiliary landing gear design, suspension, airwheel" . . "Presential"@en . "FALSE" . . "Aircraft propulsion systems"@en . . "4" . "Construction of aircraft propulsion systems with turbine engines\n(jet, propeller and helicopter) and piston engines; construction,\nloads and strength calculations of basic engine units and their parts;\nconstruction materials; engine installations - construction and prin-\nciples of operation, structure and operation of individual units, pro-\npellants and lubricants; hydro-mechanical and electronic control\nsystems; reduction gearing of aircraft engines; propeller construc-\ntion, propeller pitch control; inlet air dust collectors; starting of tur-\nbine and piston engines; operation and diagnosis of aircraft propul-\nsion systems; indication of operational parameters of propulsion\nsystems." . . "Presential"@en . "FALSE" . . "Hydropneumatic systems"@en . . "4" . "Working fluids and gases used in hydropneumatic systems and\nconditions of their use. Hydropneumatic energy sources used on-\nboard of aircraft. Hydraulic and pneumatic actuators. Hydraulic\nboosters. Control elements for flow direction, pressure and flow rate\nof liquids and working gases. Rigid and flexible hoses. Couplings\nand connections. Filters. Reservoirs and dampers. Fuel systems.\nFire suppression systems. Air-conditioning systems. Anti-icing sys-\ntems. Hydraulic systems. Oil systems and cooling. Aircraft crew ox-\nygen systems and emergency equipment. Principles of operation\nof on-board hydropneumatic equipment." . . "Presential"@en . "FALSE" . . "Design and manufacture of aircraft structures"@en . . "4" . "Specificity of the airframe as a production object. Methods of map-\nping airframe geometry. Methods of shaping parts from thin sheets\nand sections. Methods of manufacturing integral metal and compo-\nsite parts. Connection technologies used in the assembly of parts\nand subassemblies of airframes (riveting, bonding, gluing). Sub-as-\nsembly and final assembly. Methods of assuring quality and relia-\nbility of parts. Aircraft wear and damage. Capabilities\nand technologies for the repair of airframe coverings and strength\nmembers. Repairs of sandwich and composite structures." . . "Presential"@en . "FALSE" . . "Propellers and rotors"@en . . "2" . "General information. Aerodynes, rotorcraft, propellers, helicopters.\nLift rotors, rotor hubs, joints and blades of lift rotors. Propellers. Ge-\nometric and aerodynamic quantities characterising a propeller. Vor-\ntex theory as applied to propellers and carrier rotors. Flux theory of" . . "Presential"@en . "FALSE" . . "Basics of mechanical engineering 2"@en . . "2" . "Characteristics, classification and applications and design of sliding\nand rolling bearings. Bearing materials. Calculation and principles\nof bearing selection. Probability of damage on the example of rolling\nbearings. Mechanisms, types and applications.\nMethods of analysing kinematics and dynamics of mechanisms.\nKinematic analysis of plane and spatial mechanisms. Synthesis of\nmechanisms. Basic principles of modelling in the environment of\ncomputer-aided design, construction and drafting (CAD). Basic\nknowledge of databases. Geometric analysis of machine part mod-\nels. Concurrent and conceptual design. Collaborative design using\nCAD systems. Visualisation and simulation of product operation in\nCAD systems." . . "Presential"@en . "FALSE" . . "Flight mechanics"@en . . "6" . "Flight mechanics objectives, forces acting on the aircraft (SP). Dy-\nnamics of aircraft motion as a material point. Aircraft motions on\nrectilinear trajectories inclined at any angle. Aircraft transient motion\non vertical and horizontal straight and curvilinear tracks and on\nspace tracks. SP take-off and landing issues, aerodynamic charac-\nteristics in the take-off configuration and in the landing configura-\ntion. Dynamics of SP motion as a material solid. Aircraft equilibrium,\nstatic stability and longitudinal controllability. Equilibrium, static sta-\nbility and lateral controllability, aircraft equilibrium curve. Moments\nacting on an aircraft in transient motion. Peculiarities of aircraft flight\nat large angles of attack. Suborbital and orbital flights of spacecraft." . . "Presential"@en . "FALSE" . . "Heat transfer Issues with elements of combustion theory"@en . . "2" . "Concepts and quantities of description of heat transfer issues. Fou-\nrier, Newton and Stefan-Boltzmann Laws. Steady-state heat trans-\nfer through multilayer flat and cylindrical walls with application of\nthermal resistances. Calculation of heat transfer through bars and\nribs under different types of boundary conditions. General charac-\nteristics of heat interception for fluid flows inside and outside ducts.\nDetermination of heat interception coefficients for flowing of flat\nwalls. Heat transfer boundary conditions for gas turbine blades.\nChemical kinetics of combustion. Combustion of homogeneous\nmixtures in laminar turbulent flow. Diffusion combustion. Flame sta-\nbilisation." . . "Presential"@en . "FALSE" . . "Avionics systems"@en . . "6" . "Definition, architectures and basic characteristics of avionics sys-\ntems. Electrical power sources on aircraft. Lighting and light signal-\nling systems. Rain and ice protection systems. Aircraft engine igni-\ntion systems. Organisation elements of aircraft on-board computer\nand data exchange systems. Fibre optics and fibre optics technol-\nogy. Integrated modular avionics systems. On-board information\nand operation imaging systems. Flight data and cabin voice record-\ners. Cabin and information systems. Construction and principles of\naeronautical measuring instruments and systems. Autonomous" . . "Presential"@en . "FALSE" . . "Theory of aircraft engines"@en . . "5" . "Operating principles of an aircraft piston engine and their charac-\nteristics. Operating parameters of a single-flow turbine jet engine.\nTwo-flow turbine jet engine and its application. Propeller and heli-\ncopter turbine engine. Performance and characteristics of compo-\nnents (inlet, compressor, combustion chamber, turbine and types\nof exhaust systems in turbine engines). Basic characteristics of tur-\nbine engines. Analysis of engine characteristics linking engine pa-\nrameters to flight parameters. Conclusions resulting from the anal-\nysis of fundamental importance to the problems of construction and\noperation of aircraft engines." . . "Presential"@en . "FALSE" . . "Strength of aircraft structure"@en . . "5" . "General information. Girders. Membrane theory of cylindrical\nshells. Free torsion of thin-walled prismatic bars. Bending and\nshearing of thin-walled bars with open section. Bending and shear\nof thin-walled bars with closed section. Sandwich construction\n(three layer construction). Elastic stability of bars. Elastic stability of\nplates. Structural work after loss of stability. Current development\ntrends of strength calculation methods for aeronautical structures." . . "Presential"@en . "FALSE" . . "Aeroelasticity"@en . . "2" . "General knowledge of aerodynamics of non-stationary flow, main\nequations, Lagrange integral, velocity potential, boundary condi-\ntions, aerodynamic effects of circulationless and circulatory flow.\nFlow of a thin airfoil with finite velocity at the flow edge. Effect of\nwing haunch. Flatter, equations of motion, flexion-torsion flatter of\nwing airfoil. Influence of geometric, elastic and mass characteristics\non critical flatter velocity. Flex-torsional flatter of a finite span wing,\nequations of equilibrium. Approximate methods for calculating flat-\nter velocity and frequency. Galerkin method. Criteria of elastic sta-\nbility of a structure in flow. Wing flatter oblique wing. Low elongation\nwing flatter. Flatter of the tailplane. Flatter with one degree of free-\ndom. Flatter free-from-attachment aircraft. Flatter of plates and\nshells. Non-linear flatter issues. Detachment Flatter. Static aeroe-\nlasticity problems. Flatter research from historical perspective." . . "Presential"@en . "FALSE" . . "Aircraft construction"@en . . "4" . "Evolution of aircrafts and helicopters design, classifications. Forces\noperating on airplane and helicopter. Static and dynamic loads.\nOverload factor, disposable overload, limitations. Load curve. Wing\nand rotor blade loads. Loads on ailerons, flaps and spoilers and\ncontrol system. Fuselage and landing gear loads. Design trend\nanalysis. Preliminary mass estimation. Wing, blade, fuselage, land-\ning gear, mechanisation elements of control systems. Airframe and\npropulsion system interaction." . . "Presential"@en . "FALSE" . . "Aircraft propulsion systems"@en . . "8" . "Construction of aircraft propulsion systems with turbine engines\n(jet, propeller and helicopter) and piston engines; construction," . . "Presential"@en . "FALSE" . . "Hydropneumatic systems"@en . . "5" . "Working fluids and gases used in hydropneumatic systems and\nconditions of their use. Hydropneumatic energy sources used on-\nboard of aircraft. Hydraulic and pneumatic actuators. Hydraulic\nboosters. Control elements for flow direction, pressure and flow rate\nof liquids and working gases. Rigid and flexible hoses. Couplings\nand connections. Filters. Reservoirs and dampers. Fuel systems.\nFire suppression systems. Air-conditioning systems. Anti-icing sys-\ntems. Hydraulic systems. Oil systems and cooling. Aircraft crew ox-\nygen systems and emergency equipment. Principles of operation\nof on-board hydropneumatic equipment." . . "Presential"@en . "FALSE" . . "Manufacturing technology of propulsion systems"@en . . "3" . "Production quality. Influence of selection of pig iron and surface\ntreatments on part quality. Methods of increasing fatigue life and\ncorrosion resistance of engine parts. Theoretical bases and tech-\nnological processes of sheet metal parts forming. Technologies of\naircraft engine parts manufacturing. Electrotechnology. Connec-\ntions used in engine construction. Wear of parts - types of wear and\ntear and methods of their identification. Overhaul of engines." . . "Presential"@en . "FALSE" . . "Propellers and rotors"@en . . "2" . "Fundamentals of propeller and rotor theory. Objectives of flight me-\nchanics, forces acting on the aircraft. Peculiarities of the helicopter\nas an aircraft. Propeller design. Propeller pitch control.\nPropeller synchronisation. Propeller ice protection. Helicopter and\nhelicopter engines. Reduction gears. Power units. Engine control\nsystems and propeller pitch control systems. Propeller speed limi-\ntation methods. Operation, maintenance, storage and servicing of\npropellers and rotors. Engine controls and propeller pitch control\nsystems. Propeller speed limitation methods. Aircraft propulsion\nsystem maintenance." . . "Presential"@en . "FALSE" . . "Aircraft fuels and lubricants"@en . . "1" . "General information about fuels and lubricants. Aviation fuels -\nmethods of obtaining, properties, energy characteristics. Combus-\ntion process of hydrocarbon fuels. Basic fuel combustion reactions.\nAviation fuels - basic characteristics, normative requirements, as-\nsortment range and principles of use. Additives to aviation fuels.\nMethods of assessing resistance to knocking combustion. Fuels for\naviation turbine engines - basic characteristics, normative require-\nments, assortment range and principles of use. Fuel additives. Air-\nport control of fuel quality. Deposits and smoking. Malfunctions of\naviation turbine engines related to fuel quality. Lubricating oils used\nin aviation - basic characteristics, normative requirements, range\nand principles of use. Greases, technical and auxiliary fluids used\nin aviation. Transport, storage and distribution of fuels and lubri-\ncants." . . "Presential"@en . "FALSE" . . "Basics of mechanical engineering 2"@en . . "2" . "Characteristics, classification and applications and design of sliding\nand rolling bearings. Bearing materials. Calculation and principles" . . "Presential"@en . "FALSE" . . "Bachelor in Aeronautics and Astronautics"@en . . "https://www.wojsko-polskie.pl/wat/bachelor-studies-in-english-aeronautics-and-astronautics/" . "125"^^ . "Presential"@en . "The studies are aimed at acquiring knowledge and practical skills in the field of construction, production and operation of aircraft and space objects. They give the opportunity to learn about technologically advanced construction systems, using innovative technologies and technical solutions based on the latest materials, the latest computer techniques, the latest \"electronics\" and extensive diagnostic systems ensuring the safety and reliability of flying objects.\nThe obtained education is based on thorough knowledge in the field of mechanics, materials and aviation technologies, the basics of electronics, microprocessor technology, automation, electrical engineering, applied computer science and advanced computer techniques (including CAD / CAM / CAE - UNIGAPHICS, CFD - FLUENT, ANSYS systems, NASTRAN, COSMOS, MATLAB etc.)."@en . . "3.5"@en . "FALSE" . . "Bachelor"@en . "Thesis" . "no tuition, other costs may apply" . "no data"@en . "Not informative" . "Mandatory" . "no data"@en . "4"^^ . "FALSE" . "Upstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Faculty of Mechatronics, Armament and Aerospace"@en . .