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PORTALE DELLA DIDATTICA

Machine dynamics

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A.A. 2024/25

Course Language

Inglese

Course degree

1st degree and Bachelor-level of the Bologna process in Ingegneria Dell'Autoveicolo (Automotive Engineering) - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Informatica (Computer Engineering) - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Dell'Autoveicolo - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Aerospaziale - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Biomedica - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Civile - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Energetica - Torino
1st degree and Bachelor-level of the Bologna process in Matematica Per L'Ingegneria - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Informatica - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Fisica - Torino
1st degree and Bachelor-level of the Bologna process in Ingegneria Del Cinema E Dei Mezzi Di Comunicazione - Torino
1st degree and Bachelor-level of the Bologna process in Civil And Environmental Engineering - Torino

Course structure
Teaching Hours
Teachers
Teacher Status SSD h.Les h.Ex h.Lab h.Tut Years teaching
Teaching assistant
Espandi

Context
SSD CFU Activities Area context
ING-IND/13 6 D - A scelta dello studente A scelta dello studente
Valutazione CPD 2021/22
2022/23
The subject is addressed at providing the knowledge and capabilities for the mathematical modelling of mechanical systems within industrial and automotive applications, with particular attention to the analysis of dynamic phenomena that can be verified in mechanical components.
The subject is addressed at providing the knowledge and capabilities for the mathematical modelling of mechanical systems within industrial and automotive applications, with particular attention to the analysis of dynamic phenomena that can be verified in mechanical components.
Knowledge related to dynamic behavior of structures, mechanical systems and rotating machines in stationary or periodical regime and in transitory phases. Capability to model and analyse the dynamic behaviour of structures, mechanical systems and rotating machines.
Knowledge related to dynamic behavior of structures, mechanical systems and rotating machines in stationary or periodical regime and in transitory phases. Capability to model and analyse the dynamic behaviour of structures, mechanical systems and rotating machines.
Basic knowledge within the mechanical theory and applied mechanics, of mechanical components and of fundamental of differential and integral calculus
Basic knowledge within the mechanical theory and applied mechanics, of mechanical components and of fundamental of differential and integral calculus
Syllabus: vibrations of damped sdof systems [lecture 6 h, tutorial 4.5 h] vibrations of mdof systems with proportional viscous damping [lecture 9 h, tutorial 4.5 h] elements of analytical dynamics [lecture 4.5 h, tutorial 4.5 h ] vibrations of continuous systems (distributed parameters) [lecture 7.5 h, tutorial 4.5 h] dynamics of rotors [lecture 3 h, tutorial 2 h] engine balance [lecture 3 h, tutorial 2 h] 3D rigid body dynamics [lecture 3 h, tutorial 2 h]
Syllabus: vibrations of damped sdof systems [lecture 6 h, tutorial 4.5 h] vibrations of mdof systems with proportional viscous damping [lecture 9 h, tutorial 4.5 h] elements of analytical dynamics [lecture 4.5 h, tutorial 4.5 h ] vibrations of continuous systems (distributed parameters) [lecture 7.5 h, tutorial 4.5 h] dynamics of rotors [lecture 3 h, tutorial 2 h] engine balance [lecture 3 h, tutorial 2 h] 3D rigid body dynamics [lecture 3 h, tutorial 2 h]
The course consists of 60 class hours: 39 lecture hours, 21 tutorial hours Theoretical lectures will be illustrated with examples and applications. Lectures on each topic of the syllabus will be followed by applied lectures meant to further deepen the understanding of the concepts dealt with within the lectures, through examples and exercises related to real applications. Solution or frames for solution of the proposed exercises will be provided by the tutor. Attendance to both lectures and tutorial classes is strongly recommended.
The course consists of 60 class hours: 33 lecture hours, 21 tutorial hours, 6 lab hours Theoretical lectures will be illustrated with examples and practical case applications. Lectures on each topic of the syllabus will be followed by applied tutorials meant to further deepen the understanding of the concepts dealt with within the lectures, through examples and exercises related to real applications. Solution or frames for solution of the proposed exercises will be provided by the tutor. Numerical examples will be proposed and solved by the students by using Matlab® scripts, specifically prepared to exploit the material presented during the lectures. For this task students are continuously supported by staff members. The ability of using Matlab® will not be checked during the exam. An assigment in which a 2 dof system is model, numerically analysed and results are discussed might possibly substitute part of the exam. Attendance to lectures, tutorial and lab classes is strongly recommended. The lecturer and the tutors are available weekly (contact them by e-mail) during the teaching period in order to meet students for consultation.
Lectures subjects, text of practices as well as other didactic material are available on Corse Website. Students are recommended to download provided files before lectures. Reference textbooks for improving the study: Meirovitch L., Fundamentals of Vibrations, Mc Graw Hill Vigliani A., Lectures on Rotordynamics, Clut
Lectures subjects, text of practices as well as other didactic material are available on Corse Website. Students are recommended to download provided files before lectures. Reference textbooks for improving the study: Meirovitch L., Fundamentals of Vibrations, Mc Graw Hill Vigliani A., Lectures on Rotordynamics, Clut
Modalità di esame: Prova scritta (in aula);
Exam: Written test;
The final exam is aimed at assessing the knowledge of the topics listed in the syllabus and the ability to apply the theory and the relative methods of calculation to the solution of exercises. The assessment is a closed book exam and the duration is 2 h. It consists of a written test composed of: 1 question about a topic seen during the lectures (theoretical question) and 3 open-ended calculation exercises that require the need to choose and apply the course knowledge and understanding (see Expected learning outcomes) most appropriate for the their resolution. The evaluations are expressed in thirtieths, the maximum score is 30/30 with merit (cum laude) and the exam is passed if the score is at least 18/30. Each question is worth maximum 8 points; actual grades are proportional to the correctness and completeness of the answers to the proposed problems and questions. The results of the exam are communicated on the “Portale della didattica”, together with the date on which the students can view the written output, grading criteria and request clarifications.
Gli studenti e le studentesse con disabilità o con Disturbi Specifici di Apprendimento (DSA), oltre alla segnalazione tramite procedura informatizzata, sono invitati a comunicare anche direttamente al/la docente titolare dell'insegnamento, con un preavviso non inferiore ad una settimana dall'avvio della sessione d'esame, gli strumenti compensativi concordati con l'Unità Special Needs, al fine di permettere al/la docente la declinazione più idonea in riferimento alla specifica tipologia di esame.
Exam: Written test;
The final exam is aimed at assessing the knowledge of the topics listed in the syllabus and the ability to apply the theory and the relative methods of calculation to the solution of exercises. The assessment is a closed book exam and the duration is 2 h. It consists of a written test composed of: 1 question about a topic seen during the lectures (theoretical question) and 3 open-ended calculation exercises that require the need to choose and apply the course knowledge and understanding (see Expected learning outcomes) most appropriate for the their resolution. The evaluations are expressed in thirtieths, the maximum score is 30/30 with merit (cum laude) and the exam is passed if the score is at least 18/30. Each question is worth maximum 8 points; actual grades are proportional to the correctness and completeness of the answers to the proposed problems and questions. The results of the exam are communicated on the “Portale della didattica”, together with the date on which the students can view the written output, grading criteria and request clarifications.
In addition to the message sent by the online system, students with disabilities or Specific Learning Disorders (SLD) are invited to directly inform the professor in charge of the course about the special arrangements for the exam that have been agreed with the Special Needs Unit. The professor has to be informed at least one week before the beginning of the examination session in order to provide students with the most suitable arrangements for each specific type of exam.
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