(in Polish) eksploatacja pojazdów - studia stacjonarne (EP-SI7P)

Learning outcomes in field of the study Vehicle Operation, the first-cycle studies, educational profile: practical:
* In range of the knowledge:
- has knowledge in area of mathematics in relation to description of practical engineering issues;
- has structured knowledge of physics, technical thermodynamics and vehicle mechanics, with particular emphasis on automotive vehicles;
- has knowledge from range of issues related to vehicle operation in area of: technical drawing, materials science, overhaul technology, properties of operating consumables;
- has essential knowledge of standards and legal regulations regarding transport of people and goods;
- is acquainted with issues related to durability, reliability and wear of technical objects;
- has structured knowledge on construction of basic mechanical systems and assemblies of automotive vehicles;
- knows operational principles of control and transmission systems of driver assistance units;
- knows structure and characteristics of modern sources of vehicle power;
- knows operating principles and basic control procedures for power transmission systems and vehicle sub-assemblies;
- has essential knowledge of vehicle diagnostics and modern power transmission systems;
- knows principles of selection of structural materials for various vehicle components and their power transmission systems and - is able to develop technologies for production of damaged components and vehicle assemblies;
- knows repair technologies of damaged automotive vehicles and principles of drawing parts and assemblies;
- has basic knowledge of metrology, understands measurement methods and reasons of measurement errors;
- knows substantive scopes of issues related to obtaining license of diagnostic inspector, inclusive of regulations related to vehicle technical inspections;
- has knowledge on structure of costs creation and algorithms for valuation of traffic accident damages;
- knows the basic environmental threats associated with transport processes;
- knows code of conduct with worn vehicles and their components. Understands issues of recycling of materials of automotive origin;
- has basic knowledge necessary to understanding of non-technical conditions in engineering activities, knows basic principles of occupational health and safety;
- has basic knowledge on teamwork and conditions related with proper interpersonal relations;
- has elementary knowledge on intellectual property protection and patent law;
- has elementary knowledge on quality control management and on running various forms of individual business activity;
* In range of the skills:
- is able to obtain information from literature, databases and other sources regarding issues of vehicle operation and power sources, is able to create synthetic information and to draw conclusions appropriate to engineering task being under consideration;
- can work individually and in team; can estimate the time needed to accomplish an assigned task;
- is able to develop and to implement a schedule of work that ensures deadlines are met;
- is able to prepare documentation regarding implementation of an engineering task and to prepare a text containing discussion of results of this task;
- is able to prepare and to present a short presentation in Polish language and in a foreign language on results of the engineering task;
- can speak English or another foreign language recognized as a language of international communication at the B2 level of the Common European Framework of Reference for Languages;
- has the ability to self-education, in order to improve professional competences, among others;
- in his engineering activities he is able to make use of learned diagnostic methods and computer simulations;
- can compare design solutions of components and assemblies regarding given functional and economic criteria;
- is able to make use of correctly selected methods and devices enabling investigation of basic quantities characterizing the static and dynamic characteristics of vehicles;
- is able to plan and carry out simulations and measurements of technical and economic characteristics of means of transportation, is able to present obtained results in numerical and graphical form, to interpret them and to draw appropriate conclusions;
- is able to formulate specifications for simple mechanical, mechanical-pneumatic and mechanical-electronic systems at the level of the functions performed;
- is able to use catalog cards and drawing standards to select appropriate components for vehicle system which are being designed or repaired and its power transmission system;
- is able to perform preliminary economic analysis and calculation of costs of vehicle operation, as well as preliminary analysis of functioning of a company acting in the field of vehicle operation;
- can select appropriate consumables for vehicles and power transmission systems;
- is able to select a working machine for a specific task;
- is able to select appropriate technology of production, overhaul and repair for means of transportation, and to prepare technical drawings of vehicle components and power transmission systems;
- can estimate value of means of transportation and costs of repairs;
- in industrial environment he applies occupational health and safety principles;
- is able - when formulating and solving tasks related to vehicle operation - to notice their non-technical aspects, including environmental, economic and legal aspects;
- is able -using appropriate procedures, equipment, and tools - to perform vehicle diagnostics;
- is able to analyze power transmission systems and to evaluate their operational characteristics;
- is able to make use of experience gained in a professional engineering environment, connected with maintenance of equipment, facilities, and systems typical of field of the study;
* In range of social competences:
- understands the need for lifelong learning and improving professional, personal and social competences; in case of difficulties in solving a problem independently, seeks expert opinion;
- is aware of the importance and understands non-technical aspects (including ecological and economic) and effects of engineering activities and related responsibility for decisions taken;
- is able to cooperate and work in a team, taking different roles in it;
- is able to appropriately define priorities serving for implementation of tasks specified by himself or by others;
- correctly identifies and resolves dilemmas related to practicing of the profession;
- is able to act and think in an entrepreneurial manner;
- is aware of social role of technical university graduate, and in particular, he understands the need to formulate and communicate to the public information and opinions regarding technological achievements and other aspects of engineering activity; endeavors to convey such information and opinions in a generally understandable manner;

The study program was established by Resolution No. 1653/03/VII/2022 of the Senate of the ATH of the March 1st, 2022.