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M ME EC CH HA AN NIIS SM M S SY YTTH HE ES SIIS S Co ur s e c o de : 06.1-WM-MiBM-S1-KM-01_12 06.1-WM-MiBM-N1-KM-01_12 T yp e of c o ur s e: obligatory La n gu a ge of i ns tr uc t io n: polish Dir ek tor of s t ud i es : dr inŜ. Izabela Gabryelewicz Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur e : dr inŜ. Izabela Gabryelewicz F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture 30 2 grade Class Laboratory VI Seminar W or k s h o p Project 30 2 grade Part-time studies 4 Lecture Class Laboratory VII Seminar W or k s h o p Project 16 2 grade СOURSE AIMS: The aim of the course is to familiarize students with selected stages of designing mechanisms with particular emphasis on kinematic pattern selection mechanism, designed to meet specific requirements. Pointing to the need for a discussion on possible solutions as a condition for the optimum. Presentation of the method of drawing a set of possible solutions and the selection rules solutions. PREREQUISITES: Theory of machines and mechanisms, Fundamentals of Machine Designcourse contents. Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn COURSE CONTENTS: Lecture content: The structure of mechanical systems. Selection of mechanical structures. Kinematic geometry. Two, three and four positions of a plane figure. The angle of deviation. Issues specific synthesis mechanisms. Selection pattern of structural and geometric dimensions for selected groups of mechanisms. Lever arch mechanisms, lever arch mechanisms of członami fixed and variable length. Mechanisms flat pair higher. Cam mechanisms. Planetary gears. Mechanisms gear intermittent traffic. Selection of tolerance in kinematic systems. Project content: Implementation of a simple mechanism by pre-defined motion. Corresponding mechanism design in advance the conditions posed kinematic / or dynamic. Selection of the appropriate structural diagram for the overall concept of the mechanical system. Describe it using geometrical parameters. TEACHING METHODS: Lectures with audiovisual aids. Working with the book. LEARNING OUTCOMES: In the field of technical sciences Knowledge, skills, competence K_W10 knows and understands the basic concepts and principles of the protection of industrial property, copyright, and the need for intellectual property management, can make use of patent information resources K_W16 knows the basic methods, techniques and tools required to solve simple tasks in the field of construction engineering, technology, manufacturing and operating of machinery K_U01 The student can obtain information from literature, databases and other sources, in English or another foreign language; able to integrate the information, make their interpretation, as well as draw conclusions and formulate and justify opinions K_U05 has self-education abilities. K_U13 can use modern computer techniques in solving engineering tasks related to the design, manufacturing and operating of machines K_U15 The student can critically analyze and evaluate the functioning of the existing solutions in terms of construction and operation of machinery, in particular equipment, objects, systems, processes and services K_K01 The student can understand the importance and the need of lifelong education and is able to organize the learning process of others K_K03 can interact and work in a group, adopting different roles LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: The verification methods for learning outcomes are presented in the table below: Odniesienie do efektów dla kierunku studiów Metoda sprawdzenia efektu kształcenia K_W10 K_W16 K_U01 K_U05 Grade based on written test K_U13 K_U15 K_K01 K_K03 Grade based on project classes The pass mark for the course is to achieve positive evaluations of written tests carried out at least once a semester. Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn The pass of the project is to get positive ratings from all classes of design, to be implemented in the curriculum. STUDENT WORKLOAD: The student workload of 100 hours, including work in the auditorium 60 (16) hours, working alone 40 (84) hours, including preparation for class 10 (40) hours, the development of the project 20 (44) hours, to prepare for the test first completion of the lecture 10 hours. RECOMMENDED READING: 1. Miller S., Teoria mechanizmów i maszyn. Synteza układów mechanicznych., wyd. II poprawione, Wydawnictwo Politechniki Wrocławskiej, Wrocław 1979 OPTIONAL READING: 1. Miller S., Teoria maszyn i mechanizmów. Analiza układów kinematycznych, Politechnika Wrocławska, Wrocław 1996 2. Gronowicz A., Miller S., Twaróg W., Teoria mechanizmów i maszyn. Zestaw problemów analizy i projektowania, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 1999. REMARKS: Workloads in parentheses are the numbers for part time studies. Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn TT--FFLLE EX X Co ur s e c o de : 06.1-WM-MiBM-S1-KM-04.1_12 06.1-WM-MiBM-N1-KM-04.1_12 T yp e of c o ur s e: Optional La n gu a ge of i ns tr uc t io n: Polish Dir ec tor of s t ud i es : : dr inŜ. Marek Malinowski Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : dr inŜ. Marek Malinowski, dr inŜ. Tomasz Belica F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture Class Laboratory 60 4 VII Grade Seminar Workshop Project 5 Part-time studies Lecture Class Laboratory 36 4 VII Grade Seminar Workshop Project The aim of the course is to familiarize students with methodology of computer aided design (CAD). In particular, the main emphasis is on the practical use of tools for modeling 3D of parts and assemblies. The main objective of the course is the student's mastery of the practical tools towards the design of complex mechanical systems PREREQUISITIES: - Technical drawing , Computer Aided Design AutoCAD - 01, Fundamentals of Machine Design Parametric modeling of solids and surfaces. Methodology of computer aided design. Fundamentals of Mechanical Desktop. Coordinate systems, universal and locals. sketch plans, construction planes, Boolean operations, Solids primitives, Construction elements. Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn Parts and assemblies modeling, Sheet parts. Parts and assemblies presentation. Parts and assemblies analysis. TEACHING METHODS: The first part of the course: Introduction to T-FLEX CAD software. Working with books. The individual work of the student during the execution of each laboratory. The second part of the course: Student prepares parts and assembly one selected device itself. Project presentation and group discussion. LEARNING OUTCOMES: In the field of technical sciences K_W09 Knowledge, skills, competence has an elementary knowledge of the principles of workpiece design and mechanical equipment constructions K_W11 has knowledge of computer-aided design, manufacturing and operating of machinery and mechanical equipment K_U04 can prepare and present in Polish and a foreign language an oral presentation concerning specific issues in the field of Mechanics and Mechanical Engineering K_U05 has self-education abilities K_U13 can use modern computer techniques in solving engineering tasks related to the design, manufacturing and operating of machines K_K06 can demonstrate entrepreneurship and ingenuity in action related to the professional activities LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: The reference to the learning outcomes of the field of study K_W04 K_W07 K_W14 K_U04 K_U05 K_U13 The method of the learning outcomes assessment grade based on written test grade based on laboratory classes arithmetic mean of all grades Laboratory - A passing grade in laboratory part comprises positive evaluation of reports based on each laboratory class, attendance and initiative on the part of the student. The final grade received by the student is the arithmetic mean of all partial grades for each reports. STUDENT WORKLOAD: The student workload of 125 hours, including work in the auditorium 60 (36) hours, consultations 3 (8), individual work and read the literature 62 (81) hours, preparing for classes and study reports 19 (24) hours, analysis and solution of task problem - project 37 (46) hours. Total hours of practical classes: 110 (110) which corresponds to 4 ECTS Total hours of lessons with a teacher: 63 (44) which corresponds to 2 ECTS. RECOMMENDED READING: 1. T-FLEX PARAMETRIC CAD, Podręcznik uŜytkownika, Modelowanie 3D, АО Top Systems Ltd., 2005. Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn 2. http://www.tflex.pl/?go=pobierz&ka=7: Tutorials, February 2012. Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn D DM MU U--C CA ATTII A A Co ur s e c o de : 06.1-WM-MiBM-S1-KM-04.2_12 06.1-WM-MiBM-N1-KM-04.2_12 T yp e of c o ur s e: Optional La n gu a ge of i ns tr uc t io n: Polish Dir ec tor of s t ud i es : : dr inŜ. Marek Malinowski Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : dr inŜ. Marek Malinowski, dr inŜ. Tomasz Belica F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture Class Laboratory 60 4 VII Grade Seminar Workshop Project 5 Part-time studies Lecture Class Laboratory 36 4 VII Grade Seminar Workshop Project COURSE AIMS: The aim of the course is to familiarize students with methodology of computer aided design (CAD). In particular, the main emphasis is on the practical use of tools for modeling 3D of parts and assemblies. The main objective of the course is the student's mastery of the practical tools towards the design of complex mechanical systems PREREQUISITIES: - Technical drawing , Computer Aided Design AutoCAD - 01, Fundamentals of Machine Design Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn COURSE CONTENTS: Parametric modeling of solids and surfaces. Methodology of computer aided design. Fundamentals of Catia software. Coordinate systems, universal and locals. sketch plans, construction planes, Boolean operations, Solids primitives, Construction elements. Parts and assemblies modeling, Sheet parts. Parts and assemblies presentation. Parts and assemblies analysis. CATIA DMU (Digital Mock-up). TEACHING METHODS: The first part of the course: Introduction to CATIA software. Working with books. The individual work of the student during the execution of each laboratory. The second part of the course: Student prepares parts and assembly one selected device itself. Project presentation and group discussion. LEARNING OUTCOMES: In the field of technical sciences K_W09 Knowledge, skills, competence has an elementary knowledge of the principles of workpiece design and mechanical equipment constructions K_W11 has knowledge of computer-aided design, manufacturing and operating of machinery and mechanical equipment K_U04 can prepare and present in Polish and a foreign language an oral presentation concerning specific issues in the field of Mechanics and Mechanical Engineering K_U05 has self-education abilities K_U13 can use modern computer techniques in solving engineering tasks related to the design, manufacturing and operating of machines K_K06 can demonstrate entrepreneurship and ingenuity in action related to the professional activities LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: The reference to the learning outcomes of the field of study K_W04 K_W07 K_W14 K_U04 K_U05 K_U13 The method of the learning outcomes assessment grade based on written test grade based on laboratory classes arithmetic mean of all grades Laboratory - A passing grade in laboratory part comprises positive evaluation of reports based on each laboratory class, attendance and initiative on the part of the student. The final grade received by the student is the arithmetic mean of all partial grades for each reports. STUDENT WORKLOAD: Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn The student workload of 125 hours, including work in the auditorium 60 (36) hours, consultations 3 (8), individual work and read the literature 62 (81) hours, preparing for classes and study reports 19 (24) hours, analysis and solution of task problem - project 37 (46) hours. Total hours of practical classes: 110 (110) which corresponds to 4 ECTS Total hours of lessons with a teacher: 63 (44) which corresponds to 2 ECTS. RECOMMENDED READING: 1. WyleŜoł M., CATIA v5. Modelowanie i analiza układów kinematycznych, Wyd. HELION, 2007. 2. Skarka W., Mazurek A., CATIA. Podstawy modelowania i zapisu konstrukcji, Wyd. HELION, 2005. 3. WyleŜoł M., Modelowanie bryłowe w systemie CATIA. Przykłady i ćwiczenia. Wyd. HELION, 2002. 1. Wełyczko A., CATIA V5. Przykłady efektywnego zastosowania systemu w projektowaniu mechanicznym, Wyd. HELION, 2005. Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn M MD DTT Co ur s e c o de : 06.1-WM-MiBM-S1-KM-04.3_12 06.1-WM-MiBM-N1-KM-04.3_12 T yp e of c o ur s e: Optional La n gu a ge of i ns tr uc t io n: Polish Dir ec tor of s t ud i es : : dr inŜ. Marek Malinowski Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : dr inŜ. Marek Malinowski, dr inŜ. Tomasz Belica F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture Class Laboratory 60 4 VII Grade Seminar Workshop Project 5 Part-time studies Lecture Class Laboratory 36 4 VII Grade Seminar Workshop Project COURSE AIMS: The aim of the course is to familiarize students with methodology of computer aided design (CAD). In particular, the main emphasis is on the practical use of tools for modeling 3D of parts and assemblies. The main objective of the course is the student's mastery of the practical tools towards the design of complex mechanical systems PREREQUISITIES: - Technical drawing , Computer Aided Design AutoCAD - 01, Fundamentals of Machine Design Faculty of Mechanical Engineering Subject area of studies: Mechanics and Mechanical Engineering COURSE CONTENTS: Parametric modeling of solids and surfaces. Methodology of computer aided design. Fundamentals of Mechanical Desktop. Coordinate systems, universal and locals. sketch plans, construction planes, Boolean operations, Solids primitives, Construction elements. Parts and assemblies modeling, Sheet parts. Parts and assemblies presentation. Parts and assemblies analysis. TEACHING METHODS: The first part of the course: Introduction to MDT CAD software. Working with books. The individual work of the student during the execution of each laboratory. The second part of the course: Student prepares parts and assembly one selected device itself. Project presentation and group discussion. LEARNING OUTCOMES: In the field of technical sciences K_W09 Knowledge, skills, competence has an elementary knowledge of the principles of workpiece design and mechanical equipment constructions K_W11 has knowledge of computer-aided design, manufacturing and operating of machinery and mechanical equipment K_U04 can prepare and present in Polish and a foreign language an oral presentation concerning specific issues in the field of Mechanics and Mechanical Engineering K_U05 has self-education abilities K_U13 can use modern computer techniques in solving engineering tasks related to the design, manufacturing and operating of machines K_K06 can demonstrate entrepreneurship and ingenuity in action related to the professional activities LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: The reference to the learning outcomes of the field of study K_W04 K_W07 K_W14 K_U04 K_U05 K_U13 The method of the learning outcomes assessment grade based on written test grade based on laboratory classes arithmetic mean of all grades Laboratory - A passing grade in laboratory part comprises positive evaluation of reports based on each laboratory class, attendance and initiative on the part of the student. The final grade received by the student is the arithmetic mean of all partial grades for each reports. STUDENT WORKLOAD: Faculty of Mechanical Engineering Subject area of studies: Mechanics and Mechanical Engineering The student workload of 125 hours, including work in the auditorium 60 (36) hours, consultations 3 (8), individual work and read the literature 62 (81) hours, preparing for classes and study reports 19 (24) hours, analysis and solution of task problem - project 37 (46) hours. Total hours of practical classes: 110 (110) which corresponds to 4 ECTS Total hours of lessons with a teacher: 63 (44) which corresponds to 2 ECTS. RECOMMENDED READING: 1. Stasiak F., Mechanical Desktop 4.0PL/4.0, Wyd. HELION, 2000 Faculty of Mechanical Engineering Subject area of studies: Mechanics and Mechanical Engineering M MO OD DE ELLIIN NG G A AN ND D S SIIM MU ULLA ATTIIO ON N IIN N D DE ES SIIG GN N Co ur s e c o de : 06.1-WM-MiBM-S1-KM-06_12 06.1-WM-MiBM-N1-KM-06_12 T yp e of c o ur s e: Optional La n gu a ge of i ns tr uc t io n: Polish Dir ec tor of s t ud i es : : dr inŜ. Marek Malinowski Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : dr inŜ. Marek Malinowski, dr inŜ. Daniel Dębowski, dr inŜ. Tomasz Belica F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture 30 2 30 2 Grade Class Laboratory VII Grade Seminar Workshop Project 3 Part-time studies Lecture 18 2 18 2 Grade Class Laboratory VII Grade Seminar Workshop Project COURSE AIMS: The aim of the course is to familiarize students with the mathematical and physical models. Rules of modeling. Discrete and others models, Use of different models and carrying out computer simulations with a critical assessment of the obtained results. PREREQUISITIES: - Matthematic, Programming Languages-01, Technical Mechanics – 01/02, Strength of Materials-01/02, Fundamentals of Machine Design Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn COURSE CONTENTS: Lecture: Intoduction to mathematical modeling and simulation. Wprowadzenie do matematycznego modelowania i symulacji. The terms: model, modeling, simulation. Types of models. Features of models. Basic steps of modeling. Methods for identifying the static and dynamic models. Fundamentals of analysis of selected features of selected mechanical systems. Test methods of mathematical. Fundamentals of numerical simulation. Computer modeling: eg Working Model 2D, SCILAB. Modeling of deflection of the machine parts in dynamics, vibration. Fundamentals of numerical methods: secondorder differential equations. Presentation of selected applications of computational models used in the industry, a discussion of the physical environment, and how to deal with the simulation results obtained. Laboratory: Static and kinetic models, Modeling of mechanisms: velocity and accelerations. Forces. System dynamic – analysis in XY coordinate system. Crank-piston system. Dynamic response of dynamic system.Differential equations system. System damping. The second part of course: solution of engineering task – itself. Student use software: SCILAB, Working Model 2D. METODY KSZTAŁCENIA: Pierwsza część semestru: Wprowadzenie do programu Working Model 2D, Octavia z wykorzystaniem środków audiowizualnych. Praca z ksiąŜkami. Sprawdziany z przygotowania do zajęć. Indywidualna praca studenta podczas realizacji kaŜdego laboratorium. Druga część semestru: Student rozwiązuje samodzielnie zadanie inŜynierskie z wykorzystaniem opracowanego modelu obliczeniowego. Koniec semestru: prezentacja projektu i dyskusja w grupie. LEARNING OUTCOMES: In the field of technical sciences K_W02 Knowledge, skills, competence has knowledge of physics, including the fundamentals of mechanics, thermodynamics, optics, electricity and magnetism, nuclear physics, solid state physics and elements of quantum physics, including the knowledge needed to understand and use the description of physical phenomena in the manufacturing design and operating of mechanical systems K_W05 has ordered knowledge with strong theoretical underpinnings in the area of statics of rigid bodies systems, kinematics and dynamics of rigid bodies, as well as knowledge of the vibration area K_U08 can plan and carry out experiments, including measurements and computer simulations, to interpret the results and draw conclusions K_U09 can use analytical simulation and experimental methods to formulate and solve engineering tasks K_K06 can demonstrate entrepreneurship and ingenuity in action related to the professional activities Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: The reference to the learning outcomes of the field of study The method of the learning outcomes assessment K_W02 grade based on written test K_W05 K_U08 grade based on laboratory classes K_U09 A passing grade in the lecture part of the course is determined by five written responses to questions about the theoretical aspects of the subject. A passing grade in laboratory part comprises positive evaluation of reports based on each laboratory class, attendance and initiative on the part of the student. To get a credit the student has to receive both passing grades. The final grade received by the student is the arithmetic mean of the above grades STUDENT WORKLOAD: The student workload of 86 hours, including work in the auditorium 60 (36) hours, individual work 25 (46) hours, preparing for classes and study reports 15 (15) hours, revising for tests 15 (15) hours. Total hours of practical classes: 51 (63) which corresponds to 2 ECTS Total hours of lessons with a teacher: 61 (40) which corresponds to 2 ECTS RECOMMENDED READING: 1. 2. 3. 4. 5. Kłosowski P., Ambroziak A., Metody numeryczne w mechanice konstrukcji z przykładami w programie Matlab, Wyd. Politechniki Gdańskiej, Gdańsk 2011. Kamińska A., Pańczyk B., Matlab - przykłady i zadania, wyd. Mikom, 2002. Osiński J., Wspomagane komputerowo projektowanie typowych zespołów i elementów maszyn, PWN Warszawa, 1994. Tarnowski W., Modelowanie matematyczne i symulacja komputerowa dynamicznych procesów ciągłych, Koszalin, 1998. http://www.design-simulation.com/wm2d/index.php , luty 2012 OPTIONAL READING: 1. 2. 3. 4. 5. 6. Brzózka J., Dorobczyński L., Programowanie w Matlab, wyd. Mikom 1998. Mrozek B.,. Mrozek Z., MATLAB i Simulink, Poradnik uŜytkownika, Wyd. HELION 2004. Regel W., Wykresy i obiekty graficzne w MATLAB, Wyd. MIKOM 2003. Stachurski M., Metody numeryczne w programie Matlab, wyd. Mikom, 2003. Bielińska E.: Identyfikacja procesów, Wydawnictwo Politechniki Śląskiej, Gliwice 1997. Mańczak K.: Komputerowa identyfikacja obiektów dynamicznych, Warszawa, PWN 1983. Instytut Budowy i Eksploatacji Maszyn - Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn E EN NTTR RE EP PR RE EN NE EU UR RS SH HIIP P Co ur s e c o de : 06.1-WM-MiBM-S1-KM-07.1_12 06.1-WM-MiBm-N1-KM-07.1_12 T yp e of c o ur s e: compulsory La n gu a ge of i ns tr uc t io n: polish Dir ec tor of s t ud i es : Dr inz. Roman Sobczak Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : Dr inz. Roman Sobczak F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture 30 2 Project 30 2 Grade Grade 4 Part-time studies Lecture 18 2 Grade Project 18 2 Grade COURSE AIM: Course has specific goals: 1. To familiarize students with the issues and challenges facing entrepreneurs in emerging markets 2. To provide an understanding of the human and organizational contexts in which young entrepreneur will be working and the skills he will need to be productive and successful 3. To explore how to put the scientific, technical and organizational knowledge learned at University to work in today organizations. ENTRY REQUIREMENTS: None COURSE CONTENTS: Marketing and Entrepreneurship, Identifying Market Opportunities, Market Development, Entrepreneurial Communication Strategy, Entrepreneurial Pricing Strategy, Entrepreneurial Distribution Strategy, Building Customer Relationships. Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: Management as; planning, organizing, staffing, motivating, directing and controlling. Productivity, Lean management, Total Quality Management, Leadership and Team building. Project Management, Software support for Project management; Product oriented Prince2, Process oriented Ms Project. Quality Function Deployment ( QFD). Doman’s Rules of Quality, Elements of Law for entrepreneurship, Tax policy in Poland, Financing, Emerging markets, Trends of Development in Technology, Society of Future. Multi- culture Relations and Communication. Creativity, methods of creative thinking. Business Plan, Cash Flow, Payback of Innovation. How to start business. Decision Theory, Risk Management TEACHING METHODS: Lecture and class discussion. Homework with Business Plan preparing. Reading. LEARNING OUTCOMES: can make a preliminary economic analysis of engineering activities K_U12 undertaken in the design, manufacturing and operating of machines can understand the non-technical aspects of the mechanical engineer K_K02 actions, its validity and effects, including the impact on the environment and the responsibility for decisions accepted knows the general principles of creation and development of individual K_W20 entrepreneurship forms, used knowledge of the design and construction of machinery, manufacturing and operating of machines and equipment can understand the non-technical aspects of the mechanical engineer K_K02 actions, its validity and effects, including the impact on the environment and the responsibility for decisions accepted able to prioritize appropriately for implementation of tasks specified by K_K04 yourself or others has a basic knowledge of management, including quality management, K_W18 logistics and business T1A_U12 T1A_K02 T1A_W11 T1A_K02 T1A_K04 T1A_K02 T1A_W09 LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: End quiz for lecture and own made Project (Business plan) presentation evaluation For note 3 - only basic, standard knowledge from lectures For note 4 - knowledge from readings and own experience For note 5 – own experience, readings, participation in class discussions, use of modern methods like QFD, Prince 2 etc. STUDENT WORKLOAD: Student workload is about 107 hours (4 ECTS) including prepare to lessons - 45 hours and 62 hours participating lessons RECOMMENDED READING: 1. “The Essential Drucker” – Polish edition as „Myśli przewodnie Druckera”, wyd.MT Biznes sp z o.o, 2001 2. “The Post Capitalist Society” – Peter Drucker, 1993, Polish edition as “Społeczeństwo pokapitalistyczne” Wyd. Naukowe PWN, Warszawa 1999 Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: 3. 4. 5. 6. “The Toyota Way – 14 management principles from the world’s greates manufacturer”, Jeffrey K. Liker, by McGraw- Hill, 2004, Polish edition as “Droga Toyoty…” wyd. MT Biznes, 2005 “Future Shock” – Alvin Toffler, 1970, Polish edition as “Szok przyszłości” Wyd Zysk I S-ka, wyd. II 1974 “Kotler on Marketing. How to create, Win, and Dominate Markets”, Philip Kotler, The Free Press, 1999, Polish edition as ”Kotler o marketing, jak kreować I opanować rynki” Wyd. Profesjonalnej Szkoły Biznesu, Kraków, 1999 “Influence, Science and Practice” Robert B. Cialdini, A Pearson Educational Company, 2008, Polish edition as “ Wywieranie wpływu na ludzi – teoria i praktyka” wyd. Gdańskie Wydawnictwo Psychologiczne, 2010 OPTIONAL READING: 1. „Biznes – po prostu” Leszek Czarnecki, Wyd. Studio EMKA, Warszawa, 2011 2. „Przedsiębiorczość dla ambitnych – jak uruchomić własny biznes” Jerzy Cieślik, Wyd. Akademickie i Profesjonalne, Warszawa 2006 3. „Happier: Learn the Secrets to Daily Joy and Lasting Fullfilment” – Tal BenShahar, 2007, Polish edition “W stronę szcześcia”, Wyd. Dom Wydawniczy REBIS 2009 REMARKS: none Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: P PR RO OJJE EC CTT M MA AN NA AG GE EM ME EN NTT Co ur s e c o de : 06.1-WM-MiBM-S1-KM-07.2_12 06.1-WM-MiBM-N1-KM-07.2_12 T yp e of c o ur s e: optional La n gu a ge of i ns tr uc t io n: polish Dir ec tor of s t ud i es : Dr inŜ. Roman Sobczak Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : Dr inŜ. Roman Sobczak F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture 30 2 Project 30 2 Grade Grade 4 Part-time studies Lecture 18 2 Grade Project 18 2 Grade COURSE AIM: Project Management (PM) is focused on planning and managing product and system development projects. The course can focus on the preparation, planning, and execution of product development projects. ENTRY REQUIREMENTS: none COURSE CONTENTS: System Theory and Concepts, Organizational Structures, Organizing and Staffing the Project Team, Management functions, Time Management, The Variables for Success, Conflicts, Planning, Project Graphics, Pricing and Estimating, Cost Control, Project Management Software; PRINCE2, MsProject, Dependency Structure Management TEACHING METHODS: Lecture and Project with computer software (P2ware) Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: LEARNING OUTCOMES: can make a preliminary economic analysis of engineering activities undertaken in the design, manufacturing and operating of machines can understand the non-technical aspects of the mechanical engineer actions, its validity and effects, including the impact on the environment and the responsibility for decisions accepted able to prioritize appropriately for implementation of tasks specified by yourself or others K_U12 K_K02 K_K04 has a basic knowledge of management, including quality management, logistics and business knows the general principles of creation and development of individual entrepreneurship forms, used knowledge of the design and construction of machinery, manufacturing and operating of machines and equipment can demonstrate entrepreneurship and ingenuity in action related to the professional activities K_W18 K_W20 K_K06 T1A_U12 T1A_K02 T1A_K04 T1A_K02 T1A_W09 T1A_W11 T1A_K06 LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: For grade course - lectures - Student must pass written quizze –enough 3 positive answers of 5 questions. For project – Student prepare own Project Plan with MsProject or Prince 2 (P2Ware) STUDENT WORKLOAD: Student workload is 81 (77) hours (2 ECTS) including prepare to lessons – 20 (60) hours, and 61 (19) hours participating lessons RECOMMENDED READING: 1. www.p2ware 2. Mocrosoft Project 2000 Biblia, Elaine Manuel, 2001 3. Zarządzanie projektami, M. Pawlak, 2007 OPTIONAL READING: 1. Project management, a system approach to planning, scheduling and controlling, Harold Kerzner, New York, 1987 REMARKS: none Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: E EN NG GIIN NE EE ER RIIN NG G D DE ES SIIG GN N M ME ETTH HO OD DS S 06.1-WM-MiBM-S1-KM-08-12 Co ur s e c o de : 06.1-WM-MiBM-N1-KM-08-12 T yp e of c o ur s e: optional La n gu a ge of i ns tr uc t io n: polish Dir ec tor of s t ud i es : Senior Lecturer Dr inŜ. Roman Sobczak Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : Senior Lecturer Dr inŜ. Roman Sobczak F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture 30 2 Project 30 2 Grade Grade 3 Part-time studies Lecture 18 2 Grade Project 18 2 Grade COURSE AIM: The objective of the course is to enable students through lecture to: Learn based on the scientific method, to turn ideas into robust reality: Identification, selection, and development of ideas, Generation and creation of design strategies and concepts. ENTRY REQUIREMENTS: none COURSE CONTENTS: Lecture; System Science and Engineering, System Design Process; Conceptual System Design, Preliminary Systems Design, Detail Systems Design and Development. Design for Operational Feasibility, System Engineering Management Project; Opportunity Identification, Product Planning, Identifying Customer Needs, Product Specifications, Concept Generation, Concept Selection , Concept Testing, Industrial Design, Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: Design for Environment, Design for Manufacturing, Prototyping, Robust Design, Patents and Intellectual Property, Product Development Economics , Risk Management in Project, TEACHING METHODS: Lecture and Project In class LEARNING OUTCOMES: has an elementary knowledge of the principles of workpiece design and mechanical equipment constructions has knowledge of computer-aided design, manufacturing and operating of machinery and mechanical equipment K_W09 K_W11 has basic knowledge on developments in the design, manufacturing and operating of machines The student can obtain information from literature, databases and other sources, in English or another foreign language; able to integrate the information, make their interpretation, as well as draw conclusions and formulate and justify opinions can prepare and present in Polish and a foreign language an oral presentation concerning specific issues in the field of Mechanics and Mechanical Engineering The student can use information and communication technologies relevant to the tasks related to the design, manufacturing and operating of machinery can – in formulating and solving engineering tasks – see their system and nontechnical aspects can make a preliminary economic analysis of engineering activities undertaken in the design, manufacturing and operating of machines can use modern computer techniques in solving engineering tasks related to the design, manufacturing and operating of machines can interact and work in a group, adopting different roles K_W14 K_U01 K_U04 K_U07 K_U10 K_U12 K_U13 K_K03 LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: Grading ACTIVITIES PERCENTAGES Class Participation Individual Project Proposal Team Assignments Final Project Presentation 20% 10% 35% 35% STUDENT WORKLOAD: Student workload is about 92 (89) hours (4 ECTS) including prepare to lessons – 30 (70) hours and 62 (19) hours participating lessons RECOMMENDED READING: 1. „Nauka Konstruowania” G. Phal, W. Beitz, WNT, Warszawa, 1984 2. „Systems Engineering and analysis”, B. Blanchard, W. Fabrycky, PtrenticeHall International Series in Industrial and Systems Engineers,2006 3. 4. “Engineering Design Methods”, Nigel Cross, John Wiley & Sons, 1989 “Integriete Produktentwiklung”, Klaus Erlenspiel, Munchen, 1995 OPTIONAL READING: 1. www.mit.edu 2. „Materiały pomocnicze do wykładu Metodologia Projektowania”, R. Sobczak, UZ WM IBM, 2007 REMARKS: none Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: T1A_W07 T1A_W02 T1A_W04 T1A_W06 T1A_W05 T1A_U01 T1A_U04 T1A_U07 T1A_U10 T1A_U12 T1A_U07 T1A_U09 T1A_K03 Faculty of [ Kliknij i wpisz nazwę jednostki prowadzącej - wydziału! ] Subject area of studies: E ER RG GO ON NO OM MIIC CS S IIN N D DE ES SIIG GN N Co ur s e c o de : 06.1-WM-MiBM-S1-KM-10.2_12 06.1-WM-MiBM-N1-KM-10.2_12 T yp e of c o ur s e: Optional La n gu a ge of i ns tr uc t io n: Polski Dir ec tor of s t ud i es : dr inŜ. Izabela Gabryelewicz Semester Number of teaching hours per week Form of instruction Number of teaching hours per semester Nam e of lec t ur er : dr inŜ. Izabela Gabryelewicz F o r m o f r e c e i vi n g a c r e d i t for a course Number of ECTS credits allocated Full-time studies Lecture 30 2 Grade Class Laboratory VII Seminar Workshop Project 30 2 Grade Part-time studies Lecture 8 1 2 Grade Class Laboratory VIII Seminar Workshop Project COURSE AIMS: The main objective of the course is to familiarize students with the principles of ergonomic design of tools, machines and jobs. Adapt to humans, tools, equipment and working conditions, so that the float done by him was comfortable and safe. PREREQUISITIES: Ergonomics, Fundamentals of Machine Design COURSE CONTENTS: Lecture content: The traditional design and ergonomic. List of decision criteria for ergonomic design. Modern trends of ergonomic research. Ergonomic methods of diagnosis. Spatial parameters shaping the workplace and hand tools based on anthropometric data. Ergonomic principles of system design: a man - a technical object. Examples of ergonomic Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn design of: machining, assembly, dispatching, computer. Ergonomic design principles taking into account the requirements of machine vibration, acoustic, thermal, lighting and aesthetic. Project: Physical disturbance assessment and evaluation of the burden of mental effort for a given position. Evaluation and testing of human anthropometric characteristics and their impact on projected job, the tool and the machine. Physical work environment factors. TEACHING METHODS: Lectures with audiovisual aids. Teamwork in the development of the project. LEARNING OUTCOMES: In the field of technical sciences Knowledge, skills, competence K_W09 has an elementary knowledge of the principles of workpiece design and mechanical equipment constructions K_W14 has basic knowledge on developments in the design, manufacturing and operating of machines K_W17 has a basic knowledge necessary to understand the social, economic, legal, environmental and other non-technical considerations of engineering activities K_U01 The student can obtain information from literature, databases and other sources, in English or another foreign language; K_U11 has preparation necessary to work in an industrial environment, and knows the safety rules associated with this work K_U15 The student can critically analyze and evaluate the functioning of the existing solutions in terms of construction and operation of machinery, in particular equipment, objects, systems, processes and services K_U19 can select appropriate engineering materials to ensure the proper functioning of the machine K_K01 The student can understand the importance and the need of lifelong education and is able to organize the learning process of others LEARNING OUTCOMES VERIFICATION AND ASSESSMENT CRITERIA: The verification methods for learning outcomes are presented in the table below: The reference to the learning outcomes of the field of study The method of the learning outcomes assessment K_W09 K_W14 K_W17 K_U01 grade based on written test K_U11 K_U15 K_U19 K_K01 grade based on project classes The pass mark for the course is to achieve a positive evaluation of the test first completion. The pass of the project is to get positive ratings from all projects in the classes. STUDENT WORKLOAD: The student workload of 60 hours, including work in the auditorium 60 (8) hours, individual work (42) hours, preparing for classes (22) hours. Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn RECOMMENDED READING: 1. Wykowska M.: Ergonomia. Wyd. AGH Kraków 1994, 2. Tytyk E.: Ergonomia w projektowaniu maszyn i stanowisk pracy. Rozprawy. Politechnika Poznańska, 3. Górska E., Tytyk E.: Ergonomia w projektowaniu stanowisk pracy. Oficyna Wydawnicza Politechniki Poznańskiej. OPTIONAL READING: 1. 2. Pacholski red.: Ergonomia. Wyd. Politechnika Poznańska, Filipkowski S.: Ergonomia przemysłowa. WNT W-wa REMARKS: Workloads in parentheses are the numbers for part time studies. Wydział Mechaniczny Kierunek: Mechanika i Budowa Maszyn