Computer aided engineering CAE II
Transkrypt
Computer aided engineering CAE II
___________________________________________________________________________ Mechanical Engineering Master Degree Studies Subject: Subject type: Subject code: Year: Semester: Form of studies: Type of classes and hours per semester: Lecture Exercise Laboratory practice Project ECTS points: Form of credit: Lecture language: Computer Aided Engineering CAE II Compulsory I 2 Full-time course 60 30 30 4 Assessment English Subject objective C1 Getting acquainted with the subject of Computer Aided Engineering C2 Preparing for the use of advanced class CAE software Get to know the possibilities of realization of calculations and engineering analysis C3 using computer technology 1 2 Prerequisites in knowledge, skills and other competencies Fundamentals of mathematics Fundamentals of mechanics Educational effects EK 1 EK 2 EK3 EK4 EK5 EK6 W1 W2 Knowledge: Student knows the advanced class CAE software Student selects appropriate tools of computer technology to solve engineering tasks Skills: Student performs engineering calculations using advanced CAE software class Student is able to analyze and interpret the results of technical calculations, applying computer tools Social competencies: Student is prepared for professional work with use of support computer techniques Student has the ability to think critically, analyze and interpret the results of testing, measurement, data analysis in engineering activities, etc.. Curriculum content of Subject Form of classes - Lecture Curriculum content Introduction to CAE. Introduction to Matlab, examples of software capabilities, simple calculations, Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego ___________________________________________________________________________ document creation, the directory structure, system commands, data types, complex commands, expressions. Introduction to Matlab, examples of software capabilities, simple calculations, creating a document - definitions, variables, range variables, etc. Editing tools, W3 texts, equations and calculations. Introduction to Matlab, sample algebra calculations, matrices and chains, matrix W4 operators. Introduction to Matlab - cont., Numbers, functions and mathematical constants, W5 basic functions and constants, Elemental operations, matrix and array arithmetic. Issues of mathematical statistics in MATLAB, signal analysis. W6 Two-dimensional and three-dimensional graphics. Symbolic and numerical W7 computation and in Matlab. Toolbox Library. Class form: laboratory practice Curriculum content Introductory classes, safety training, credit rules, the division into subgroups, L1 schedule of classes, introduction to CAE. Introduction to Matlab, examples of software capabilities, simple calculations, L2 document creating, the directory structure, system commands. Introduction to Matlab, examples of software capabilities, commands, data types, L3 complex commands, expressions. Introduction to Matlab, examples of software capabilities, simple calculations, creating a document - definitions, variables, range variables, etc. Editing tools, L4 texts, equations and calculations. Introduction to Matlab, sample algebra calculations, matrices and chains, matrix L5 operators. Introduction to Matlab - cont., Numbers, functions and mathematical constants, L6 basic functions and constants, Elemental operations, matrix and array arithmetic. Introduction to Matlab - cont., numerical issues. L7 Complex data types, the use of functions and operators. L8 Basic concepts of mathematical statistics in MATLAB, signal analysis. L9 Descriptive statistics in Matlab. L10 Two-dimensional graphics and three-dimensional graphics L11 Symbolic and numerical computation and in Matlab. L12 Toolbox Library. L11 Examples of use MATLAB to analyze data obtained in the engineering L13 measurements. Refresher classes - MATLAB. L14 Credit with knowledge of MATLAB. L15 Teaching methodology 1 Multimedia lecture 2 Laboratory exercises using the computer and specialized software. Student workload Form of activity Average hours to complete activity Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego ___________________________________________________________________________ Teacher contact hours, including: Hours of contact with the teacher as teaching 60 activities : total hours per semester Hours of contact with the teacher as reference consultations: total hours per semester Total student work time, including: Individual preparation for laboratory practice: total hours per semester Individual preparation for classes: total hours per semester Total student work time 4 Total ECTS for the subject: Total of ECTS for practical classes (exercise, 2 laboratory practice, projects) 1 2 3 4 1 2 3 4 Basic reference literature B. Mrozek, Z. Mrozek, Matlab i Simulink – poradnik użytkownika. Warszawa 2004. A. Kamińska, B. Pańczyk, Matlab – przykłady i zadania. Warszawa 2002. W. Regel, Wykresy i obiekty graficzne w programie Matlab. Warszawa 2003. J. Brzózka, Matlab: środowisko obliczeń naukowo-technicznych. Warszawa 2005. Complementary reference literature P. Kłosowski, Metody numeryczne w mechanice konstrukcji : z przykładami w programie MATLAB. Gdańsk 2011. W. Treichel, Matlab dla studentów: Exercise, zadania, rozwiązania. Warszawa 2009. E. Szymczak, Matlab dla mechaników. Warszawa 2006. P. Drozdowski, Wprowadzenie do MATLAB-a : skrypt dla studentów wyższych szkół technicznych. Kraków 1995. Educational effect EK 1 EK 2 EK 3 Specific educational effect reference to curriculum-wide effects (PEK) MBM2A_W01 (+++), MBM2A_W03 (++), MBM2A_W04 (+), MBM2A_W06 (+++). MBM2A_W01 (+++), MBM2A_W03 (++), MBM2A_W04 (+), MBM2A_W06 (+++), MBM2A_W11 (+). MBM2A_U06 (+++), MBM2A_U08 (+++), MBM2A_U12 (+++), MBM2A_U16 (+), Subject objective Curriculum content Teaching methodology C1 W1-W7, L1L15 1, 2 C2, C3 W1-W7, L1L15 1, 2 C2, C3 L1-L15 1, 2 Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego ___________________________________________________________________________ EK4 EK5 EK6 MBM2A_U18 (++). MBM2A_U06 (+++), MBM2A_U07 (++), MBM2A_U08 (+++), MBM2A_U13 (++). MBM2A_K01 (+), MBM2A_K04 (+). MBM2A_K01 (+), MBM2A_K04 (+). C2, C3 C1, C2, C3 C1, C2, C3 W1-W7, L1L15 1, 2 W1-W7, L1L15 W1-W7, L1L15 1, 2 1, 2 Evaluation methods and criteria Evaluation method symbol O1 O2 O3 Curriculum author: E-mail: Unit: Evaluation method description Pass threshold Short task problem which results are discussed in groups. Written test (tasks for independent solution on the computer) from the scope of the first part of the course - 50% of the final grade. Written test (tasks for independent solution on the computer) from the scope of the second part of the course - 50% of the final grade. Dariusz Mazurkiewicz, PhD (hab.) Eng. [email protected] Department of Production Engineering Projekt współfinansowany ze środków Unii Europejskiej w ramach Europejskiego Funduszu Społecznego 60% 60% 60%