Degree Course: Industrial Engineering
A.Y. 2022/2023 
Conoscenza e capacità di comprensione
Le conoscenze e capacità di comprensione di base sono conseguite attraverso i corsi di matematica, informatica, fisica e chimica.
Il laureato raggiungerà la conoscenza e la comprensione sistematica degli argomenti caratterizzanti l'ingegneria energetica (termodinamica, trasmissione del calore e meccanica dei fluidi termotecnica, macchine a fluido, sistemi motori termici e frigoriferi).
Verranno acquisite, d’altra parte, le conoscenze e capacità di comprensione sistematica degli argomenti caratterizzanti l'ingegneria meccanica: meccanica dei solidi e dei fluidi, termo-meccanica, metodologie e strumenti di progettazione, macchine a fluido e termiche, tecnologie di lavorazione e produzione, impianti industriali e dei sistemi di misura.
Il corso prevede di fornire allo studente la conoscenza dei sistemi di produzione industriali attraverso la loro identificazione e classificazione, la definizione dei modelli organizzativi, l’individuazione delle problematiche progettuali e gestionali come supporto alle competenze ingegneristiche.
Il corso fornisce infine conoscenze e capacità di comprensione in ambito aerospaziale.
In particolare per quanto riguarda le tematiche relative alla manutenzione e la sicurezza degli aeromobili civili e militari e dei sistemi avionici.Capacità di applicare conoscenza e comprensione
Lo studente che consegue la laurea in ingegneria industriale potrà applicare le conoscenze scientifiche di base, le metodologie e gli strumenti per la modellazione ed il calcolo sia dei sistemi energetici, sia di quelli meccanici, di media complessità, per identificare, formulare e risolvere problemi propri sia dell'Ingegneria energetica (come ad esempio la verifica e la progettazione di sistemi termo-tecnici o la soluzione di problematiche di processo nella conversione energetica) o di quella meccanica (quali ad esempio la verifica e la progettazione di semplici macchine o componenti meccanici, l'analisi e la soluzione di problematiche di processo nella produzione industriale e di tecnologie e sistemi di lavorazione).
Inoltre, sarà acquisita la capacità di gestire progetti industriali di media complessità con relativa analisi tecnico-economica, di effettuare un dimensionamento di base tecnico ed economico di un impianto industriale e di comprendere e supportare attività di gestione e organizzazione aziendale.
Autonomia di giudizio
La preparazione dell'ingegnere industriale, consentirà al laureato di esercitare autonomia di giudizio a diversi livelli.
Il laureato avrà la capacità di selezionare, elaborare ed interpretare dati e informazioni tecniche e bibliografiche, le conoscenze per fare le scelte metodologiche e tecnologiche necessarie alla risoluzione di problemi progettuali e gestionali di media difficoltà nell'ambito dell'ingegneria industriale.
Sarà in grado di valutare le prestazioni di un apparato meccanico, avionico, di un sistema energetico, di una tecnologia di lavorazione e di un processo industriale e di valutare i risultati ottenibili in relazione alle scelte effettuate.
Le tecniche necessarie alla progettazione, alla scelta degli strumenti, alla valutazione e verifica, all'analisi tecnico-economica sono insegnate prevalentemente nei corsi caratterizzanti e consolidate attraverso le attività di esercitazione e di laboratorio.
Il percorso formativo proposto è orientato a sviluppare nello studente anche la capacità di lavorare in gruppo.
L'effettivo possesso dell'autonomia di giudizio è verificato sia nella discussione dell'elaborato triennale, sia attraverso l'elaborazione di casi di studio aziendali e project work affrontati dagli studenti, individualmente e/o in gruppo, per il superamento delle prove di esame di alcuni insegnamenti del CdS.
Attraverso le prove orali, inoltre, lo studente potrà dimostrare capacità di sintesi e appropriatezza di linguaggio.
Infine, in sede di attività di stage, tirocini, o di ulteriori attività formative, lo studente può dare prova della propria attitudine di analizzare problemi di natura applicata in un ambiente di apprendimento diverso da quello sperimentato durante le lezioni.
Abilità comunicative
Il laureato in Ingegneria Industriale avrà sviluppato la capacità di redigere sintesi di ricerche tecniche su base bibliografica, relazioni tecniche ed elaborati progettuali, interpretare e discutere i risultati di indagini sperimentali, comunicare con altri tecnici, presentare i risultati di analisi, studi e progetti.
Le abilità comunicative verranno conseguite sia attraverso le lezioni teoriche impartite dai docenti, sia attraverso lo studio e l'analisi di testi tecnici e articoli scientifici, con particolare riferimento ai corsi caratterizzanti nell'ultimo anno di studi.
La maggior marte delle prove di esame prevedono, inoltre, prove orali che richiederanno allo studente di applicarsi per sviluppare le abilità comunicative necessarie a dimostrare la preparazione e l'apprendimento, anche in riferimento a tecniche comunicative tipiche dell'ingegneria.
Nei corsi delle materie caratterizzanti sono previsti, inoltre, elaborati progettuali sviluppati autonomamente o in gruppo, e la predisposizione di relazioni e documentazioni tecniche relative alle esercitazioni pratiche.
L'obiettivo è quello di sviluppare nel laureato la capacità di operare in autonomia e di lavorare in gruppi di lavoro, anche interdisciplinari e la propensione all'aggiornamento.
Per lo sviluppo delle attività comunicative va anche considerata la prova di verifica della conoscenza della Lingua Inglese e l'attività di stage e tirocinio con relazione conclusiva.
L'espletamento del progetto di stage nelle diverse Aree di apprendimento costituisce, infatti, una occasione sia per il tutor aziendale che per quello accademico di verificare la capacità dello studente di utilizzare le proprie competenze di comunicazione per interagire all'interno di un contesto organizzativo.
Infine nella stesura e nella discussione della tesi di laurea, lo studente può dar prova della propria capacità di sintesi e di trasmissione di concetti ed applicazioni metodologiche, implementando diverse modalità di indagine della realtà.Capacità di apprendimento
Il corso di Laurea in Ingegneria Industriale è organizzato e strutturato in modo da fornire allo studente la formazione necessaria per inserirsi nel mondo del lavoro dopo il conseguimento del titolo di laurea triennale e una capacità di apprendimento sufficiente ad intraprendere studi di livello superiore (laurea magistrale ed eventualmente dottorato di ricerca).
Gli studi in ingegneria industriale consentiranno al laureato di risolvere problemi ingegneristici di media complessità, sia attraverso il rigore metodologico caratteristico delle materie di base, sia attraverso lo studio di problematiche ingegneristiche e l'utilizzo di metodologie e tecniche nelle materie caratterizzanti.
Il corso è strutturato in modo tale da consentire allo studente di sviluppare le capacità di apprendimento per stadi e in maniera graduale, partendo dallo sviluppo di un ragionamento logico ipotesi-tesi, dall'impostazione e la risoluzione di un problema generico di matematica, informatica, fisica e chimica, fino ad arrivare alla preparazione di relazioni tecniche e di elaborati ingegneristici e alla risoluzione di problemi di carattere tecnico ed organizzativo, direttamente applicabili nell'esercizio dell'attività di ingegnere.
Il laureato sarà in grado di approfondire autonomamente le conoscenze e le competenze acquisite nel percorso formativo del CdS, in modo tale da percepire la necessità di aggiornamento rispetto alle novità normative e al progresso tecnologico.
Il principale punto di verifica della capacità di ulteriore autonomo apprendimento consiste nella prova finale in cui lo studente si misura con problematiche nuove, che richiedono l'apprendimento di conoscenze non necessariamente fornite dai docenti..
Le diverse fasi del processo di redazione dell'elaborato finale (progettazione, raccolta ed elaborazione dati ed informazioni, stesura sequenziale), e le caratteristiche dell'elaborato stesso (chiarezza, coerenza delle argomentazioni esposte, ricchezza delle fonti bibliografiche) permettono di accertare l'attitudine dello studente all'autonomo approfondimento sui temi specifici trattati.
Requisiti di ammissione
Per essere ammessi al corso di Laurea in Ingegneria Industriale occorre essere in possesso di:
1) diploma rilasciato da un istituto di istruzione secondaria superiore dì durata quinquennale;
2) diploma di scuola media secondaria superiore di durata quadriennale e relativo anno integrativo;
3) titolo di studio di scuola media secondaria superiore conseguito all'estero, al termine di un percorso scolastico di almeno 12 anni, che consenta, nel Paese in cui è stato conseguito, l'ammissione ad un corso di studio analogo a quello prescelto, come risulta dalla 'dichiarazione di valore in loco' (mod.
E) rilasciata dalla Rappresentanza Diplomatica o Consolare italiana competente.
Sono richiesti agli studenti conoscenze di fondamenti di matematica e fisica, nonchè capacità di logica e ragionamento sia analitico che sintetico, uniti a buona capacità di comprensione della lingua italiana.
Il possesso di tali requisiti è verificato preventivamente attraverso un test di ammissione selettivo a risposta multipla che consenta la valutazione di una preparazione di base in logica, comprensione verbale matematica, fisica e chimica.
La disciplina dei test di ammissione e del recupero degli eventuali Obblighi Formativi Aggiuntivi sono definite dal Regolamento delle prove di ammissione al Corso di Studio.
Prova finale
Lo studente può sostenere la prova finale dopo aver conseguito tutti i crediti previsti dal percorso formativo.
La prova finale è volta ad accertare l’autonomia di giudizio degli studenti e la capacità di svolgere lavori anche progettuali in autonomia.
La prova finale consiste nella redazione e discussione ad una commissione di valutazione di un elaborato scritto che si svolge sotto la guida di un relatore scelto tra i docenti del corso di studi.
Gli studenti possono optare per lo svolgimento di prove finali di tipo sperimentale che devono essere caratterizzate da un evidente contributo progettuale oppure di tipo compilativo.
Orientamento in ingresso
L'attività di orientamento in ingresso ha l'obiettivo di supportare gli studenti a realizzare in modo ottimale il proprio percorso formativo, dal passaggio dalla Scuola Media Superiore all'Università fino all'ingresso nel mondo del lavoro.
Il servizio erogato dal Dipartimento di Economia Ingengeria Società e Impresa è articolato su un insieme di attività che riguardano in prevalenza la divulgazione delle informazioni, il coordinamento tra Scuole Superiori ed Università e l'accoglienza.
In particolare questa forma di orientamento prevede le seguenti iniziative:
Incontri, organizzati in periodi dell'anno predefiniti, con le Scuole Superiori per presentare agli studenti il corso di laurea triennale in Ingegneria Industriale erogato dal Dipartimento.
Il servizio inoltre sviluppa attività collaterali, al di là della generica presentazione, svolte sia presso i singoli Istituti sia presso la sede, quali lezioni universitarie simulate, project work, simulazione dei test di accesso, visita presso le strutture didattiche.
Le predette attività sono finalizzate da un lato a creare familiarità di rapporti tra studente e struttura universitaria limitando il naturale disorientamento dovuto al passaggio dall'ambiente della scuola a quello dell'università, dall'altro a mettere lo studente della scuola di fronte ad attività concrete ed a temi che potrebbero rappresentare il core del suo futuro percorso universitario, consentendogli così di auto-valutare il proprio livello di interesse e identificare più precisamente le proprie inclinazioni.
In particolare le lezioni universitarie simulate riguardano generalmente argomenti connessi agli insegnamenti del primo anno del corso di laurea triennale; i project work, realizzati secondo le tipiche dinamiche universitarie, sono svolti suddividendo gli studenti interessati in gruppi di lavoro su tematiche comuni all'ultimo anno delle Scuole Superiori e al primo anno del corso di studio; i test di accesso simulati, sono simili, per struttura e difficoltà, a quelli che poi saranno erogati per l'accesso al sistema universitario, e consentono di dare allo studente una valutazione del proprio livello di conoscenza ai fini della preparazione; le visite presso le strutture sono effettuate tenendo particolare riferimento alle aule dove si svolgeranno le lezioni del primo anno.
Partecipazione ad eventi (locali/nazionali) e manifestazioni (Open Day Ateneo, Open Day di dipartimento) per l'orientamento.
In queste occasioni viene presentato il percorso formativo del corso di laurea triennale e i relativi sbocchi occupazionali.
In particolare nell'Open Day di dipartimento vengono presentate le proposte formative del corso di studio triennale con la partecipazione dei docenti, in modo che ciascuno studente possa avere un primo contatto con i futuri professori e formulare domande che chiariscano dubbi e curiosità.
Realizzazione di brochure, locandine, poster con la presentazione del corso di laurea triennale in Ingegneria Industriale e i relativi sbocchi occupazionali e professionali.
Aggiornamento costante del sito web del dipartimento e della home page del corso di studio, con una serie di pagine e sezioni dedicate alle diverse informazioni utili tanto agli studenti interessati all'iscrizione al corso quanto a coloro che già sono iscritti; al sito internet é associato il profilo Facebook del Dipartimento e un profilo Twitter.
Il corso ha inoltre attivato uno sportello telematico (https://unitus.zoom.us/J/99086497387) in cui tutti i giovedì dalle 16 alle 17 i docenti e tutor sono a disposizione dei futuri studenti.Il Corso di Studio in breve
Il Corso di Laurea in Ingegneria Industriale nasce come risposta alle esigenze di un territorio ricco di realtà industriali sia di tipo manifatturiero, che dei servizi.
La meccanica in particolare rappresenta sia nel territorio limitrofo che nell'intero paese una elevata percentuale della produzione industriale.
Il Corso di Laurea in Ingegneria Industriale dell'Università della Tuscia forma un professionista con una solida preparazione tecnica di base negli ambiti culturali propri dell'ingegneria industriale e dotato delle competenze specifiche negli ambiti meccanico ed energetico, privilegiando le conoscenze di base e gli aspetti metodologici.
Il laureato in Ingegneria Industriale è pertanto un tecnico con preparazione universitaria, in grado di svolgere la progettazione esecutiva di prodotto e di processo, lo sviluppo di prodotti, l'installazione e il collaudo di macchine e di sistemi, la manutenzione e la gestione dei reparti produttivi, la scelta delle tecnologie e la loro integrazione, l'innovazione di prodotto e di servizio, l'analisi degli investimenti, nonché lo svolgimento di attività di promozione, vendita ed assistenza tecnica.
La molteplicità dei settori che richiedono le competenze di un Ingegnere Industriale, ha consigliato di rendere possibile la diversificazione e l'approfondimento della preparazione degli allievi nei campi della meccanica, dell'energia e delle tecnologie meccaniche.
Lo studente espliciterà le proprie scelte al momento della presentazione,
tramite il sistema informativo di ateneo, del piano di completamento o del piano di studio individuale,
secondo quanto stabilito dal regolamento didattico del corso di studio.
Meccanica ed energetica
Percorso STANDARD
FIRST YEAR
First semester
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Course
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Credits
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Scientific Disciplinary Sector Code
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Contact Hours
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Exercise Hours
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Laboratory Hours
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Personal Study Hours
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Type of Activity
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Language
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119631 -
Mathematical analysis I
(objectives)
The objective of this course is to acquire the basic knowledge of Mathematical Analysis. In particular, the objectives, expressed according to the Dublin descriptors, are the following:
Knowledge and understanding:
the student will learn the fundamental notions relating to integral calculus for real functions of a variable and to differential calculus for functions of one variable. He will also learn the notions related to the study of numerical series and linear algebra.
Ability to apply knowledge and understanding:
Through targeted examples, the student will be able to verify the need to resort to Mathematical Analysis in the scientific field and not only as a discipline for its own sake. He will be able to use the calculation tools learned to solve problems applied to reality or to other disciplines.Making judgments the student is frequently assigned exercises to be carried out independently by stimulating the skills acquired. Furthermore, simulations of exam tests are periodically carried out.
Communication skills:
The student is constantly stimulated during the course to interact with the teacher; he will acquire the ability to communicate by expressing himself in a correct language applied to the mathematical context. This will stimulate the acquisition of a mathematical language useful for communicating clearly in the scientific field.
Learning skills:
The student will be guided to perfect their study method also through exercises carried out regularly, will be able to autonomously deepen their knowledge and tackle new topics by recognizing the prerequisites necessary for their understanding.
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9
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MAT/05
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72
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-
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-
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-
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Basic compulsory activities
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ITA |
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18122 -
FONDAMENTI DI CHIMICA
(objectives)
Learning objectives:
The course aim is to provide an introduction to the language and the methodology of study of general chemical phenomena. In particular the course aim is to provide the basic principles for the study of atomic structure of matter, the molecular structures and the properties of the matter, the chemical reactivity and the quantitative aspect of chemical reactions, the chemical equilibrium, the properties of the solutions and principles of chemical kinetics and electrochemistry. Knowledge of these concepts is of fundamental importance to undertake the study of subsequent courses characterizing the degree course.
Learning achievements
At the end of course the student will have to show:
1) Knowledge and understanding; to know the fundamental principles of General Chemistry: the atomic structure, the properties of the elements and their ability to form compounds, molecular structures, chemical reactions, energy exchanges, states of matter, chemical kinetics, equilibrium in solution, the properties acid -bases, electrochemistry, the chemistry of the elements of the main groups
2) Applying knowledge and understanding; to have acquired applicative skills concerning balance reactions, stoichiometry and problem solving on aqueous solution equilibria (acids-bases, solubility product) and electrochemistry
3) Making judgements; to be able to assess and solve autonomously problems related to the course content
4) Communication skills; to have developed oral and written communication skills suited to the presentation of the concepts acquired
5) Learning skills; to be able to explore the topics in different contexts and autonomously
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9
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CHIM/07
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72
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-
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-
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-
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Basic compulsory activities
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ITA |
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119632 -
COMPUTER SCIENCE
(objectives)
The objective of this course is to show to the students the fundamental aspects of computer science, aiming at introducing them to coding and at providing them with specific skills. Particular attention will be paid to the development of their logical and problem-solving skills.
After a first introductory part, where the basic aspects of Boolean algebra and of the functioning of a computer will be sketched, the software Matlab® will be presented, in order to show to the students the basics of coding (variables and formats, functions, alternatives, iterations etc.), and to make them capable of solving some mathematical problems algorithmically. Then, the language Python will be presented, since the basics to the classes, so as to introduce object-oriented programming.
During the course, some specific topics will be also addressed, as statistical operations, image representation/elaboration via computer and contents acquisition from web pages (scraping).
The expected learning results consists in:
1) Knowledge and understanding of the touched topics;
2) Application of sknowledge and understanding to real problems in which computer science can be employed;
3) Making judgements independently;
4) Communication skills;
5) Learning and self-learning skills.
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9
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ING-INF/05
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72
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-
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-
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-
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Basic compulsory activities
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ITA |
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16182 -
IDONEITA' LINGUISTICA (LINGUA INGLESE)
(objectives)
EDUCATIONAL AIMS:
The course aims to develop language skills at a pre-intermediate level (B1 in The Common European Framework of Reference for Languages), focusing on building essential grammatical and lexical foundations.
LEARNING OUTCOMES:
The student can:
- understand texts that consist mainly of high-frequency everyday or job-related language;
- understand the description of events, feelings, and wishes in personal letters;
- understand the main points of clear standard speech on familiar matters;
- enter into a conversation on topics that are familiar, of personal interest or pertinent to everyday life;
- connect phrases in a simple way in order to describe experiences and events, his/her dreams, hopes and ambitions;
- briefly give reasons and explanations for opinions related to scientific topics as well;
- write simple connected text on topics that are familiar or of personal interest;
- write personal letters describing experiences and impressions, and short stories sticking to specific hints.
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3
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L-LIN/12
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24
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-
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-
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-
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Final examination and foreign language test
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ITA |
Optional Group:
gruppo OPZIONALE altre attività - (show)
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6
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Second semester
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Course
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Credits
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Scientific Disciplinary Sector Code
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Contact Hours
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Exercise Hours
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Laboratory Hours
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Personal Study Hours
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Type of Activity
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Language
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15673 -
ANALISI MATEMATICA II
(objectives)
1) Knowledge and understanding of the functions of several variables and of the differential calculus for functions of several variables;
2) Knowledge and understanding applied to the study of the functions of several variables and of the differential calculus for functions of several variables;
3) Autonomy of judgment in the approach to the functions of several variables and of the differential calculus for functions of several variables;
4) Communication skills of the knowledge on the functions of several variables and of the differential calculus for functions of several variables;
5) Ability to learn the functions of several variables and the differential calculus for functions of several variables.
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9
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MAT/07
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72
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-
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-
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-
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Basic compulsory activities
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ITA |
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15664 -
FISICA I
(objectives)
The course that Industrial Engineering students attend in the second semester of the first academic year intends to introduce the student to the principles of Mechanics, Static and Dynamics of Fluids, Oscillations and Thermodynamics, providing them with the basic knowledge of classical physics both from a theoretical point of view to the experimental one.
The course has the following training objectives:
- understanding of the classical mechanics of the material point;
- acquisition and understanding of the laws and principles of
Dynamics and statics of rigid bodies;
- acquisition of laws regulating static and fluid dynamics;
- understanding of oscillatory phenomena;
- acquisition of the fundamental principles of thermodynamics.
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9
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FIS/01
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72
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-
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-
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-
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Basic compulsory activities
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ITA |
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18369 -
SCIENZE E TECNOLOGIE DEI MATERIALI
(objectives)
KNOWLEDGE AND UNDERSTANDING CAPACITY Having developed knowledge of the basic chemical-physical characteristics of the constituent materials of artefacts of industrial interest and related degradation processes.
ABILITY TO APPLY KNOWLEDGE AND UNDERSTANDING Have developed the ability to understand and apply the contents discussed during the lessons to the daily study activities of materials and the state of conservation of industrial interest.
AUTONOMY OF JUDGMENT To be able to evaluate and choose suitable materials for correct use in the design phase of materials.
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6
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ING-IND/22
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48
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-
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-
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-
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Related or supplementary learning activities
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ITA |
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Optional Group:
GRUPPO ESAMI A SCELTA - (show)
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6
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17713 -
ECONOMIA AZIENDALE
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Also available in another semester or year
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16187 -
MARKETING
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Also available in another semester or year
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16219 -
GESTIONE DELLA PRODUZIONE E DELLA QUALITA'
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Also available in another semester or year
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18391 -
INGEGNERIA DELL'INDUSTRIA AGROALIMENTARE E BIOTECNOLOGICA
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Also available in another semester or year
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18390 -
ENERGIE RINNOVABILI: PROCESSI E TECNOLOGIE
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Also available in another semester or year
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16220 -
MICRO E MACRO-ECONOMIA
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Also available in another semester or year
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119635 -
AUTOMATION AND CONTROL ENGINEERING
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Also available in another semester or year
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18371 -
SICUREZZA SUL LAVORO
(objectives)
TRAINING OBJECTIVES: The teaching will be oriented towards solving problems, analyzing and assessing risks, planning suitable prevention and protection interventions, paying attention to in-depth analysis based on the different levels of risk.
EXPECTED LEARNING RESULTS
1) Knowledge and understanding (knowledge and understanding):
It will allow the acquisition of knowledge / skills to: - identify the dangers and assess the risks present in the workplace, including ergonomic and work-related stress risks; - identify the specific prevention and protection measures for the sector, including PPE, with reference to the specific nature of the risk and the work activity; - help identify adequate technical, organizational and procedural safety solutions for each type of risk.
2) Applying knowledge and understanding; possibility to apply knowledge in all work environments, with understanding of the technical and regulatory terms of workplace safety. Furthermore, ability to manage both training projects and technical assessments.
3) Autonomy of judgment (making judgments); Understanding if the technical and / or legislative settings have been carried out in a workmanlike manner within the company, and knowing how to manage the non-conformities present both from a technical and legal point of view.
4) Communication skills; Ability to relate also through the design of appropriate training courses.
5) Ability to learn (learning skills): verify learning also through work groups on specific topics.
Invia commenti
Cronologia
Salvate
Community
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6
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AGR/09
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48
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-
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-
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-
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Related or supplementary learning activities
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ITA |
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119628 -
COMPLEMENTS OF KINEMATICS AND DYNAMICS
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Also available in another semester or year
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119627 -
ARTIFICIAL INTELLIGENCE APPLIED TO INDUSTRIAL PROCESSES
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Also available in another semester or year
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Optional Group:
gruppo OPZIONALE altre attività - (show)
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6
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15937 -
ULTERIORI ATTIVITA' FORMATIVE
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Also available in another semester or year
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17875 -
Laboratorio di Scienza dei materiali
(objectives)
The fundamental objective of the Materials Science Laboratory course is to provide the student with knowledge of laboratory methods useful for the characterization of materials of interest in industrial engineering, such as metals and alloys, composites, polymers.
The expected learning outcomes are:
1) know the definitions of the main quantities in spectroscopy and in optical and electron microscopy;
2) know the principles and applications of the treated techniques: spectroscopy, optical and electronic microscopy, mechanical tests, hardness measurements, contact angle and other surface properties;
3) understand the meaning of surface and structural properties of materials;
4) understand the functioning of laboratory instruments for the characterization of materials and their chemical-physical and surface properties
5) understand the significance of the experimental results obtained with the above techniques
6) knowing how to apply the acquired knowledge to the study of a specific material among those covered in the course
7) autonomy of judgment in choosing the most appropriate method of analysis for a certain type of material
8) communication skills in presenting the topics covered
9) learning skills are assessed during the practical tests that take place within the course
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3
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ING-IND/22
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24
|
-
|
-
|
-
|
Other activities
|
ITA |
|
17877 -
Laboratorio di Biocombustibili
|
Also available in another semester or year
|
|
17913 -
ULTERIORI ATTIVITA' FORMATIVE
|
Also available in another semester or year
|
|
119629 -
LABORATORY OF ENERGY SYSTEMS MODELING
|
Also available in another semester or year
|
|
119630 -
ADVANCED ENGLISH COURSE
(objectives)
The course, which provides an at least intermediate level of knowledge of the English language, is aimed at strengthening the main lexicogrammatical structures at level B2 of the CEFR.
|
3
|
|
24
|
-
|
-
|
-
|
Other activities
|
ITA |
|
SECOND YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
15677 -
FISICA II
(objectives)
The course aims to introduce students to the principles of Electromagnetism, Geometric Optics, Physical Optics, and Modern Physics, providing them with fundamental knowledge from both a theoretical and an experimental and logical deductive point of view. The course aims to apply the basic methodologies of Experimental Physics, developing the ability to identify the essential aspects of physical phenomena and the logical-critical skills that allow to propose and / or verify phenomenological models capable of describing them.
The course has the following educational objectives:
-knowledge and understanding of the essential aspects of the physical phenomena of electromagnetism and optics and the critical logic skills that allow you to propose and / or verify phenomenological models;
- knowledge and skills applied to general experimental problems such as measurement operations with analog and digital instruments (multimeters, signal generators, oscilloscopes) acquiring the knowledge to create and analyze some simple laboratory experiences;
- acquisition of the communication skills of the scientific method, and of the nature and methods of research in Physics;
- autonomy judgment: the student will have to develop skills capable of acquiring the ability to critically evaluate the relevant aspects of the physical phenomena that will be studied during the course;
- learning skills: at the end of the course the student will have developed the ability to autonomously consult a general physics textbook and to grasp the relevant aspects of a problem of electromagnetism, geometric optics, physical optics and modern physics.
|
9
|
FIS/01
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119633 -
TECHINICAL PHISICS
|
|
|
-
TECHINICAL PHISICS - Module 1
(objectives)
The objective of the module is to provide the basic knowledge of thermodynamics, necessary for solving different application problems of industrial engineering. In the first part of the module, the first and second thermodynamics law will be stated after a brief introduction on basics concepts and definitions. Direct and reverse thermodynamic cycles will be then illustrated on the main diagrams. In the second part of the module some moist air aspects will be addressed. In particular, the main moist air characteristics will be studied in terms of properties and basic transformations, in order to properly design air conditioning systems. In addition to theoretical classes, practice exercises will be carried out on the addressed theoretical topics.
The Course will provide the basic concepts of heat transfer by conduction, convection and radiation necessary for solving different application problems of industrial engineering. Basic principles for acoustic design are also provided for both noise control and optimization of sound quality.
Knowledge and understanding:
To understand the basic principles of thermodynamic systems including power generation machines, moist air, reverse cycles. Know the methods of heat transfer by conduction, convection, radiation. To acquire basic knowledge on acoustics.
Applying knowledge and understanding:
By carrying out case studies, the student will be encouraged to develop an applicative skills on the methodologies and techniques acquired.
Making judgments:
To be able to apply the knowledge acquired to solve simple application problems in the fields of thermodynamics, heat transmission and acoustics.
Communication skills:
Knowing how to explain, both in written and oral form, the problem and possible solutions of simple situations concerning thermodynamics, heat transmission, moist air and acoustics.
Learning skills:
Knowing how to collect information from textbooks and other material for the autonomous solution of problems related to the applications of Applied Physics.
|
5
|
ING-IND/10
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
-
TECHINICAL PHISICS - Module 2
(objectives)
The module intends to provide the basic notions of heat exchange by conduction, convection and radiation necessary to address numerous application problems, in the field of building physics, in the industrial engineering sector. The basic criteria for lighting design are also provided.
Knowledge and understanding: To understand the basic principles of conduction-convection-radiation heat transfer modes and to acquire the basic knowledge of lighting engineering.
Applied knowledge and understanding: Through the development of case studies, the student will be encouraged to develop an application capacity on the methodologies and techniques acquired.
Making judgements: Being able to apply the acquired knowledge to solve simple application problems in the field of heat transmission and lighting technology.
Communication skills: Knowing how to explain, both in written and oral form, the problem and possible solutions to simple situations concerning the transmission of heat and lighting technology.
Learning ability: Knowing how to collect information from textbooks and other materials for the autonomous solution of problems related to applications of Technical Physics.
|
4
|
ING-IND/11
|
32
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119625 -
FLUID MECHANICS
(objectives)
The objective of the first module is the comprehension of the basic physics involved in Newtonian fluid flows:
- Provide the theoretical and analytical bases for understanding basic flow physics relevant in engineering.
- Provide methods and instruments for the design of the flow field.
Expected results:
Coherently with the SUA-CdS objectives, the expected results are:
- Knowledge of the physical foundations and mathematical instruments useful fluid dynamics engineering applications.(Dublin descriptors 1 and 5)
- Capacity of utilizing the methodologies for the design of simple components, systems and fluid dynamic processes (Dublin descriptors 2 and 3)
|
6
|
ING-IND/08
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
17874 -
MECCANICA DEI SOLIDI
(objectives)
The course will introduce students to the principles of rational mechanics, rigid body mechanics. The course aims to give the basic knowledge of continuous mechanics, providing the tools for application in mechanical engineering. The course introduces students to the solving of the elastic problem for rigid and deformable bodies.
EXPECTED LEARNING RESULTS
- Knowledge and Understanding Capabilities: Have developed the knowledge of the principles of rational mechanics, rigid body mechanics.
- Applying Knowledge and Understanding: Know how to apply the principles of rational mechanics for solving the elastic problem.
- Making Judgment: To be able to interpret solution results.
- Communication Skills: Being able to describe scientific issues related to rational mechanics, rigid body mechanics.
- Learning Skills: Being able to describe scientific issues related to rational mechanics, rigid body mechanics. This skill will be developed through the active involvement of students through oral class discussions and exercises written on specific topics related to the course.
|
6
|
ICAR/08
|
48
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
15682 -
Energy machines and systems
(objectives)
The objective of the module is the comprehension of the basic working principles of fluid machinery :
- Provide the theoretical and analytical bases for understanding energy exchange processes in turbo machinery
- Provide methods and instruments for the design and choice of pumps and compressors and expanders.
Expected results:
Coherently with the SUA-CdS objectives, the expected results are:
- Knowledge of the physical foundations and mathematical instruments necessary for the understanding of the turbo machinery functioning.(Dublin descriptors 1 and 5)
- Capacity of utilizing the methodologies for the design of elements of compressors, pumps, and expanders (Dublin descriptors 2 and 3)
|
9
|
ING-IND/08
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119626 -
MACHINES DRAWING
(objectives)
SUMMARY OF THE OBJECTIVES
The course aims to provide to the students the following learning outcomes:
- to be able to read a technical drawing of a component, part or assembly, correctly interpreting the information contained in the orthogonal views, dimensioning, title block, bill of materials, and all the adopted symbols
- to be able to realize component, part or assembly draft with the related dimensioning indications, following the standards
- to be able to recognize and describe the most common components used in mechanical products and machines
- to be able to use geometrical modelling tools for virtual representations of parts/assemblies
EXPECTED LEARNING OUTCOMES
1. Knowledge and understanding: to know the relevant technical drawing standards; to know the technical drawing graphical conventions; to know the most relevant mechanical organs and component; to know the geometrical modelling techniques
2. Applying knowledge and understanding: to be able to correctly interpret views in projection/section; to be able to interpret graphical conventions and symbols used in technical drawings; to be able to realize technical drawings of mechanical components and assemblies; to be able to realize 3D models of simple parts/assemblies
3. Making judgements: to be able to correctly set a technical drawing; to be able to correctly choose the most appropriate views; to be able to choose the most proper geometrical modelling strategy
4. Communication skills: to demonstrate expertise on subjects related to technical drawing; to know and be able to correctly use the language and terminologies to communicate graphically, orally, in written form or virtually a technical drawing or a geometrical model
5. Learning skills: to be able to autonomously use tools and standards related to technical drawing and geometrical modelling
|
9
|
ING-IND/15
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
18331 -
ELETTROTECNICA
(objectives)
Learn the methodologies necessary for the analysis of DC lumped parameter electric circuits. Acquire the basic knowledge required for the analysis of single-phase and three-phase sinusoidal electric circuits and magnetic circuits. Provide the fundamentals of electrical machines and electrical systems in general.
The expected learning results are: (i) the knowledge of the theoretical contents of the course (Dublin descriptor n°1), (ii) the competence in presenting technical argumentation skills (Dublin descriptor n°2), (iii) autonomy of judgment (Dublin descriptor n°3) in proposing the most appropriate approach to argue the request and (iv) the students' ability to express the answers to the questions proposed by the Commission with language properties, to support a dialectical relationship during discussion and to demonstrate logical-deductive and summary abilities in the exposition (Dublin descriptor n°4).
|
9
|
ING-IND/31
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
THIRD YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
15838 -
ESAME A SCELTA DELLO STUDENTE
|
6
|
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
15774 -
MISURE MECCANICHE E TERMICHE
(objectives)
Educational aims:
The main objectives of the Mechanical and Thermal Measurements course is to give the student the knowledge of both the right metrological terms that have to be used and the working principle of the main measurement devices, investigating which is their design and the pros and cons of each sensor.
Expected learning outcomes:
Knowledge and understanding: understanding of the definitions of static and dynamic metrological characteristics; knowledge of the definitions of measurement units; knowledge of the probability distributions in order to be able to define the uncertainty; understanding of the working principle of mechanical, thermal and electric instruments.
Applying knowledge and understanding: understanding of the right scientific and methodological approach to the measurements; learning to independently perform a calibration procedure evaluating the calibration uncertainty; understanding the consistent of results applying a statistic approach; learning to perform a dynamic characterization of measurement instruments.
Making judgements: the student will be able to understand the experimental results gathered from calibration and measurement procedures; knowing how to choose the best instruments that has to be used as a function of the required measurements.
Communication skills: the student will be able to report on the performed experiments and to read and write both calibration reports and datasheets.
Learning skills: the ability to use the learned methodological accuracy in different measurement fields than those studied in the present course.
|
9
|
ING-IND/12
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
15692 -
FONDAMENTI DI COSTRUZIONE DI MACCHINE
(objectives)
The course will introduce students to the principles of mechanical design. The course aims to consolidate and broaden the basic knowledge of continuous mechanics, providing the tools for application in mechanical engineering. The course introduces students to the design of simple, mono-dimensional mechanical elements of common engineering interest and gears.
EXPECTED LEARNING RESULTS
- Knowledge and Understanding Capabilities: Have developed the knowledge of the principles of mechanical design and technical drawing. Knowledge of the principles of: continuous mechanics, static design and fatigue.
- Applying Knowledge and Understanding: Know how to apply the principles of static design and effort to mono-dimensional mechanical elements, gears and speed variators elements dimensioning.
- Making Judgment: To be able to interpret sizing results and to prepare the structural optimization of it.
- Communication Skills: Being able to describe scientific issues related to mechanical design in written and oral form.
- Learning Skills: To be able to describe scientific issues related to mechanical design and technical drawing in written and oral form. This skill will be developed through the active involvement of students through oral class discussions, exercises written and the elaboration of a group project on specific topics related to the course.
|
9
|
ING-IND/14
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
15683 -
TECNOLOGIE MECCANICHE
(objectives)
The student will have to acquire precise knowledge of the most commonly used technologies and processing systems in the industrial sector. In particular he will have to develop the ability to analyze machining technologies, choose the most suitable technologies, choose machining tools, define machining parameters and define a machining cycle.
Expected learning outcomes:
1) Knowledge and understanding:
Knowledge of different types of machining and their application areas.
2) Applying knowledge and understanding:
Knowledge of the main problems of production processes and the identification of material-process-product relationships.
3) Judgement autonomy.
Prediction of the mechanical behavior according to the used manufacturing techniques.
4) Communication skills:
Dimensioning of simple manufacturing processes, as chip removal operations, programming in machine language.
5) Learning skills:
Successful condition in learning is the ability to rebuild independently, without mnemonic repetitions, the basic notions of the various manufacturing processes for mechanical components.
|
9
|
ING-IND/16
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
Optional Group:
GRUPPO ESAMI A SCELTA - (show)
|
6
|
|
|
|
|
|
|
|
|
17713 -
ECONOMIA AZIENDALE
(objectives)
EARNING OUTCOMES: The course aims to provide an essential preparation on the conditions of existence of business administrations, the criteria governing their conduct, and the tools for measuring their results.
KNOWLEDGE AND UNDERSTANDING: At the end of the course the student must demonstrate that she/he has learned both issues of a mainly theoretical nature - regarding the company, its functioning and the relationship it establishes with its general and task environment - as well as operational issues, related to the estimation of income and book value.
APPLYING KNOWLEDGE AND UNDERSTANDING: The student must be able to recognize the various types of companies, to understand the roles of the people who work there and identify the parts that make up their structure. Furthermore, the student must be able to quantify the effect that the main management operations have on the capital, on the result of the period and on the internal equilibrium.
MAKING JUDGEMENTS: At the end of the course, the student will be able to understand the company and its functioning as well as the opportunity to undertake certain management operations in relation to the effects that the main management operations have on the qualitative and quantitative composition of the capital and the result. financial year and, more generally, on internal balances.
COMMUNICATION SKILLS: Knowledge of the general and operational part of the course will allow the student to acquire the technical language of the subject.
LEARNING SKILLS: At the end of the course, the student will be able to understand the basic issues of business economics that will allow her/him to read documents or participate in debates with business content.
|
6
|
SECS-P/07
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
16187 -
MARKETING
(objectives)
The course aims to analyse the subject of marketing from the methods and characteristics of the strategy to the operational aspects.
The analysis of marketing in its strategic and operational aspects will be articulated starting from the knowledge of the consumer up to the preparation of the marketing plan.
The student should be able to:
1) Knowledge and understanding: to know and understand the dynamics of marketing and how management can accurately plan its operational levers;
2) Applying knowledge and understanding: practically apply the knowledge acquired to develop marketing plans;
3) Autonomy of judgement (making judgments): having autonomy of judgement and ability to apply marketing methodologies and tools in an independent and original way;
4) Communication skills: to be able to communicate the acquired knowledge also through exercises and project work in comparison with other colleagues;
5) Learning skills: to learn a method of critical analysis and application of marketing tools.
|
6
|
SECS-P/08
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
16219 -
GESTIONE DELLA PRODUZIONE E DELLA QUALITA'
|
Also available in another semester or year
|
|
18391 -
INGEGNERIA DELL'INDUSTRIA AGROALIMENTARE E BIOTECNOLOGICA
(objectives)
Learning objectives: to provide the knowledge for the description of the phenomena at the basis of food technologies and biotechnologies and their framing in the approach scheme of "Unit Operations".
Expected Learning Outcomes:
1) Knowledge and Ability to Understand: to develop knowledge of the principles underlying unit operations, major unit operations and corresponding equipment.
2) Applied knowledge and understanding: to know how to make block diagram of processes and use quantitative methods of computation to solve exercises related to food and biotechnological systems, with particular reference to macroscopic matter and energy balances.
3) Autonomy of judgment: to know how to independently collect, select and evaluate information necessary for the analysis and resolution of problems related to unit operations in food and biotechnology;
4) Communication Skills: to know how to communicate information, ideas, problems and solutions related to unit operations in the food and biotechnology industry to both specialist and non-specialist audiences;
5) Learning skills: to develop those learning skills that will allow for continued independent or partially guided study of unit operations.
|
6
|
AGR/15
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
18390 -
ENERGIE RINNOVABILI: PROCESSI E TECNOLOGIE
|
Also available in another semester or year
|
|
16220 -
MICRO E MACRO-ECONOMIA
|
Also available in another semester or year
|
|
119635 -
AUTOMATION AND CONTROL ENGINEERING
|
6
|
ING-INF/04
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
18371 -
SICUREZZA SUL LAVORO
|
Also available in another semester or year
|
|
119628 -
COMPLEMENTS OF KINEMATICS AND DYNAMICS
|
Also available in another semester or year
|
|
119627 -
ARTIFICIAL INTELLIGENCE APPLIED TO INDUSTRIAL PROCESSES
|
6
|
ING-INF/05
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119634 -
Energy systems
|
9
|
ING-IND/08
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
18311 -
IMPIANTI MECCANICI
(objectives)
1) Knowledge and understanding;
The course aims to transfer the basic knowledge of industrial production systems through their classification and identification, the definition of organizational models, the identification of management and design issues. The expected results are related to the student's ability to carry out a sizing of a simple system from a technical and economic point of view.
2) Applying knowledge and understanding;
The course aims to transfer the tools useful for solving problems related to the design, sizing and management of an industrial plant. The expected results include the understanding of the techniques applied to real case studies.
3) Autonomy of judgment (making judgments);
The acquisition of an autonomy of judgment is a consequence of the didactic approach of the entire course of study, in which the theoretical training is accompanied by examples, applications, exercises, both practical and theoretical, single and group, which accustom the student to making decisions, and being able to judge and predict the effect of their choices.
4) Communication skills;
Throughout the course, the student is asked to expose the concepts acquired precisely in order to develop communication skills through the presentation of project work, of exercises solved on case studies proposed by the teacher. The development of communication skills involves the acquisition and use of the technical terminology of the subject.
5) Ability to learn (learning skills)
The course involves the transfer of engineering practice relating to:
(i) solve sizing problems of an industrial plant complete with handling, production and storage systems, combining theory and practice;
(ii) recognize the different production plants through knowledge of the classifications found in the literature;
(iii) recognize the most influential decision-making variables for determining decisions relating to production, handling and storage plants.
|
6
|
ING-IND/17
|
48
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
15837 -
ESAME A SCELTA DELLO STUDENTE
|
6
|
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
15836 -
PROVA FINALE
|
3
|
|
75
|
-
|
-
|
-
|
Final examination and foreign language test
|
ITA |
|
Optional Group:
GRUPPO ESAMI A SCELTA - (show)
|
6
|
|
|
|
|
|
|
|
|
17713 -
ECONOMIA AZIENDALE
|
Also available in another semester or year
|
|
16187 -
MARKETING
|
Also available in another semester or year
|
|
16219 -
GESTIONE DELLA PRODUZIONE E DELLA QUALITA'
(objectives)
The course aims to provide operational management plans both from the perspective of lean techniques and for a strategic vision of the technologies necessary for the production processes of goods and services.
The course provides elements for a strategic vision of technologies and tools for evaluating possible implementation and development options in processes from the economical perspective also.Specifically: knowledge and understanding of the basics of manufacturing and industrial processes and services and Operation Management, applying knowledge and understanding of different kinds of processes and scheduling. making judgments and critical analysis of the studied subjects. communication skills in presenting projects and subjects of the class. learning skills of the basic principles of the methods and techniques of the topics covered by the course.
|
6
|
SECS-P/13
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
18391 -
INGEGNERIA DELL'INDUSTRIA AGROALIMENTARE E BIOTECNOLOGICA
|
Also available in another semester or year
|
|
18390 -
ENERGIE RINNOVABILI: PROCESSI E TECNOLOGIE
(objectives)
The fundamental objective of the "Renewable Energy: Processes and Technologies" course is to provide the student with the knowledge and technical and practical skills for the design and development of plant solutions aimed at producing energy that can be used for both civil and industrial purposes, also in relation to the renewable energy sector. The expected learning outcomes are the knowledge of both theoretical and practical notions associated with the energy cycle, the types of fossil fuels compared to those from renewable sources with obvious references to the dynamics of environmental pollution, biomass, biochemical processes of energy production (biochemical processes, in particular anaerobic digestion with biogas upgrading and thermochemical processes, in particular the gasification process), geothermal energy with low enthalpy plants, solar energy (both thermal and photovoltaic), bioliquids and biofuels, wind energy and hydroelectricity. In addition, the practical tools typically required in the context of the implementation / identification of strategies for integrated systems for the production of energy in the industrial sector (for example for sustainable industrial districts) will be discussed.
Therefore, the expected learning outcomes include the knowledge and development of a critical sense in terms of the ability to identify the parameters associated with the operation of the aforementioned equipment and systems in order to optimize their operation both in the sizing phase and in the activities (if possible) in relation to the requests of the final user, thus developing a critical sense from a technical point of view, as well as understanding the meaning of the technical terminology used in the renewable energy plant sector, in relation to technologies and processes. At the end of the course, the student will have practical and theoretical notions relating to the main types of plants for the exploitation of renewable energy sources, strengthening the skills already developed in the three-year degree course and having the ability to solve problems relating to issues, including new ones or which require multidisciplinary approaches, in any case deriving from the sector under study. At the end of the course, the student will be able to communicate their conclusions clearly and unambiguously to specialist and non-specialist interlocutors operating in the renewable plant engineering sector. In addition, the expected results include the student's development of a learning ability that allows him to deepen the issues addressed independently, adapting to the needs he will encounter in the workplace.
|
6
|
AGR/09
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
16220 -
MICRO E MACRO-ECONOMIA
|
6
|
SECS-P/01
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119635 -
AUTOMATION AND CONTROL ENGINEERING
|
Also available in another semester or year
|
|
18371 -
SICUREZZA SUL LAVORO
(objectives)
TRAINING OBJECTIVES: The teaching will be oriented towards solving problems, analyzing and assessing risks, planning suitable prevention and protection interventions, paying attention to in-depth analysis based on the different levels of risk.
EXPECTED LEARNING RESULTS
1) Knowledge and understanding (knowledge and understanding):
It will allow the acquisition of knowledge / skills to: - identify the dangers and assess the risks present in the workplace, including ergonomic and work-related stress risks; - identify the specific prevention and protection measures for the sector, including PPE, with reference to the specific nature of the risk and the work activity; - help identify adequate technical, organizational and procedural safety solutions for each type of risk.
2) Applying knowledge and understanding; possibility to apply knowledge in all work environments, with understanding of the technical and regulatory terms of workplace safety. Furthermore, ability to manage both training projects and technical assessments.
3) Autonomy of judgment (making judgments); Understanding if the technical and / or legislative settings have been carried out in a workmanlike manner within the company, and knowing how to manage the non-conformities present both from a technical and legal point of view.
4) Communication skills; Ability to relate also through the design of appropriate training courses.
5) Ability to learn (learning skills): verify learning also through work groups on specific topics.
Invia commenti
Cronologia
Salvate
Community
|
6
|
AGR/09
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119628 -
COMPLEMENTS OF KINEMATICS AND DYNAMICS
|
6
|
ING-IND/13
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119627 -
ARTIFICIAL INTELLIGENCE APPLIED TO INDUSTRIAL PROCESSES
|
Also available in another semester or year
|
|
|
Optional Group:
gruppo OPZIONALE altre attività - (show)
|
6
|
|
|
|
|
|
|
|
|
15937 -
ULTERIORI ATTIVITA' FORMATIVE
|
6
|
|
-
|
-
|
-
|
-
|
Other activities
|
ITA |
|
17875 -
Laboratorio di Scienza dei materiali
|
Also available in another semester or year
|
|
17877 -
Laboratorio di Biocombustibili
(objectives)
The fundamental objective of the "Biofuels Laboratory" course is to provide students with the knowledge and technical and practical skills in the field of biofuel production and the characterization of processes / raw materials according to standard procedures that can be implemented in a laboratory environment. The expected learning outcomes are the knowledge of the criteria and procedures for characterizing biomass and raw materials necessary for the production of biofuels, liquid and gaseous, having the opportunity to interface and assimilate the procedures, the operating principles of the equipment (through direct use at the laboratory) and the technical standards to be respected when experimenting in a biofuel laboratory but also generic, such as the design of experiments (DOE). To these are added the theoretical and practical notions associated with the regulations and incentives currently available to promote the use of biofuels and biofuels, with particular attention paid to the issue of residual biomass and their exploitation. During the course, purely applicative issues relating to multi-physics simulation software will also be addressed, useful for solving complex and multidisciplinary problems in the industrial sector. In addition, the practical tools typically required in the context of control, monitoring and data acquisition for the experimental plants and pilot plants available in the laboratory will be discussed.
Therefore, the expected learning outcomes include the knowledge and development of a critical sense in terms of the ability to identify the parameters associated with the operation of the equipment and systems associated with the production of biofuels, thus developing awareness and mastery of the technical terminology used in the biofuel production sector, in relation to technologies, processes and procedures to be implemented in the laboratory. At the end of the course, the student will have practical and theoretical notions relating to the main types of processes, technologies and plants through which liquid and gaseous biofuels are produced, strengthening the skills already developed in the three-year degree course and having the ability to solve problems related to themes, even new ones or requiring multidisciplinary approaches, in any case deriving from the sector under study. At the end of the course, the student will be able to communicate their conclusions clearly and unambiguously to specialist and non-specialist interlocutors operating in the biofuels sector, having also had the opportunity to interface with the laboratory environment. In addition, the expected results include the student's development of a learning ability that allows him to deepen the issues addressed independently, adapting to the needs he will encounter in the workplace.
|
3
|
ING-IND/09
|
-
|
-
|
75
|
-
|
Other activities
|
ITA |
|
17913 -
ULTERIORI ATTIVITA' FORMATIVE
|
Also available in another semester or year
|
|
119629 -
LABORATORY OF ENERGY SYSTEMS MODELING
|
3
|
ING-IND/08
|
24
|
-
|
-
|
-
|
Other activities
|
ITA |
|
119630 -
ADVANCED ENGLISH COURSE
|
Also available in another semester or year
|
|
Scienze e tecniche della manutenzione aeronautica
Percorso B1
FIRST YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119589 -
FUNDAMENTALS OF MATHEMATICS
(objectives)
The objective of this course is to acquire the basic knowledge of Mathematics. In particular, the objectives, expressed according to the Dublin descriptors, are the following: Knowledge and understanding the student will learn the fundamental notions related to algebra and the resolution of equations and inequalities. Applying knowledge and understanding: Through targeted examples, the student will be able to verify the need to resort to mathematics in the scientific field and not only as a discipline for its own sake. You will be able to use the calculation tools you have learned to solve problems. Making judgments: the student is frequently assigned exercises to be carried out independently by stimulating the acquired skills. Furthermore, simulations of exam tests are periodically carried out. Communication skills: The student is constantly stimulated during the course to interact with the teacher; you will acquire the ability to communicate by expressing yourself in a correct language applied to the mathematical context. This will stimulate the acquisition of a mathematical language useful for communicating clearly in the scientific field. Learning skills The student will be guided to perfect their study method also through exercises carried out regularly, they will be able to autonomously deepen their knowledge and tackle new topics by recognizing the prerequisites necessary for their understanding.
|
6
|
MAT/05
|
48
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119591 -
FUNDAMENTALS OF PHYSICS AND CHEMISTRY
|
|
|
-
FUNDAMENTALS OF PHYSICS AND CHEMISTRY Mod 1: PHYSICS 1
(objectives)
Expected learning outcomes
- Knowledge and understanding: develop the ability to understand the fundamental principles of Physics and related methodologies.
- Knowledge application abilities: use of the notions learned in similar scientific context and develop the ability to produce simple physical models.
- Autonomy of judgment: critical and analytical skills and capability to solve new problems even if similar to those discussed in class.
- Communication skills: Capability to discuss the implications of concepts presented in class and the possible questions that may emerge from the topics covered.
- Learning ability: Capability to discuss fundamental scientific issues of Physics and their applications.
|
9
|
FIS/01
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
-
FUNDAMENTALS OF PHYSICS AND CHEMISTRY Mod 2: CHEMISTRY
(objectives)
Expected learning outcomes
- Knowledge and understanding: develop the ability to understand the fundamental principles of Chemistry and related methodologies.
- Knowledge application abilities: use of the notions learned in similar scientific context and develop the ability to produce simple physical models.
- Autonomy of judgment: critical and analytical skills and capability to solve new problems even if similar to those discussed in class.
- Communication skills: Capability to discuss the implications of concepts presented in class and the possible questions that may emerge from the topics covered.
- Learning ability: Capability to discuss fundamental scientific issues of Chemistry and their applications.
|
3
|
CHIM/07
|
24
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119592 -
LAW AND HUMAN RESOURCES
|
|
|
-
LAW AND HUMAN RESOURCES Mod 1: AVIATION LAW
|
3
|
IUS/06
|
24
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
-
LAW AND HUMAN RESOURCES Mod 2: METHODS AND TECHNIQUES FOR THE MANAGEMENT OF HUMAN RESOURCES
|
3
|
ING-IND/35
|
24
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119593 -
COMPLEMENTS OF MATHEMATICAL ANALYSIS
(objectives)
The aim of the course is to teach the student the basic of differetial calcoulous. In particulars the aims are the following:
Knowledge and understandings: the student will learn the basics of the differential calcoulous for real functions in one real variable.
Applying knowledge and understandings: Thank to some examples students will understand the usage of techniques and theory
Making jugements: In order to develop authonomy of jugements exercises are given every lesson. Morover some old exams are made in class to prepare the students to their exam.
Communication skills: The lessons are interactive, the students are stumulated to communicate with the teacher and their class mates. This will be useful to develop a proper lenguage for the exam.
Learning Skills: The stundents will learn a new method that will help them to study new themes.
|
9
|
MAT/05
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119594 -
PHYSICS 2
(objectives)
The course aims to introduce students to a general knowledge of electrostatic interaction, electrical circuits and their main elements such as resistors, capacitors, generators etc. The course will also cover the fundamentals of magnetic interaction, its causes, magnetic induction and its consequences. The course will provide various examples and practical applications of the theoretical topics covered in the lecture; special attention will be given to applications in aeronautics. The course will include the exposition of the topics covered in EASA 66 from module 3.1 to module 3.11.
|
9
|
FIS/01
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
Optional Group:
New group - (show)
|
6
|
|
|
|
|
|
|
|
|
119617 -
MAINTENANCE PRACTICES II
|
Also available in another semester or year
|
|
119595 -
ELECTRICAL ENGINEERING
(objectives)
Learn the methodologies necessary for the analysis of DC lumped parameter electric circuits. Acquire the basic knowledge required for the analysis of single-phase and three-phase sinusoidal electric circuits. Provide the fundamentals of electrical machines and electrical systems in general.
The expected learning results are: (i) the knowledge of the theoretical contents of the course (Dublin descriptor n°1), (ii) the competence in presenting technical argumentation skills (Dublin descriptor n°2), (iii) autonomy of judgment (Dublin descriptor n°3) in proposing the most appropriate approach to argue the request and (iv) the students' ability to express the answers to the questions proposed by the Commission with language properties, to support a dialectical relationship during discussion and to demonstrate logical-deductive and summary abilities in the exposition (Dublin descriptor n°4).
|
6
|
ING-IND/31
|
48
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
SECOND YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119596 -
APPLIED THERMO-FLUID DYNAMICS
(objectives)
Expected learning outcomes:
- Knowledge and understanding: develop knowledge of the fundamental principles of atmospheric physics and related aerodynamic quantities; in addition, the student will learn the basics of flight theory by deepening the aspects of flight stability and dynamics.
- Ability to apply knowledge and understanding: have a correct understanding of the aerodynamic forces and their applications on the stability and dynamics of flight.
- Making judgments: developing critical analytical skills and being able to solve new problems, in accordance with those discussed in classes.
- Communication skills: discussing the implications of concepts presented in class and the possible issues that may arise from the topics covered.
- Learning skills: being able to autonomously deepen knowledge.
|
9
|
ING-IND/10
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119597 -
ELEMENTS OF COMPUTER SCIENCE
|
6
|
ING-INF/05
|
48
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119598 -
CYBERNETICS
|
6
|
ING-INF/04
|
48
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119600 -
MATERIALI E COSTRUZIONI AERONAUTICI
|
|
|
-
MATERIALS AND CONSTRUCTION FOR AVIATION Mod 1: MATERIALS SCIENCE
(objectives)
The course aims to provide the principles and information for the formation of a basic knowledge of materials widely adopted in the aeronautical sector. In particular, the student shall develop the ability to select materials and their areas of application. Expected learning outcomes:
1) Knowledge and ability to understand:
Knowledge of the different types of material and their areas of application.
2) Ability to apply knowledge and understanding:
Knowledge of the main problems related to the types of materials.
3) Autonomy of judgement:
Prediction of mechanical, physical and chemical behaviour as a function of the material.
4) Communication skills:
Knowing how to predict material behaviour in different applications
5) Learning ability:
A condition for success in learning is the ability to reconstruct independently, without mnemonic repetition, the basics of different materials and their applications
|
5
|
ING-IND/22
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
-
MATERIALS AND CONSTRUCTION FOR AVIATION Mod 2: FUNDAMENTALS OF MACHINE DESIGN
(objectives)
The expected results are summarised following the Dublin descriptors format:
- knowledge and understanding: o develop general knowledge of riveting and connections. Deepen knowledge of transmission systems, including the use of springs and bearings.
- applying knowledge and understanding: provide students the ability to apply the gained knowledge in the real field of the different connection and transmission systems in aircraft.
- making judgements: develop in students the critical thinking and the ability of probem solving of problems that have been encountered during the course as well as further potential issues thanks to a strong background.
- communication skills: students will be able to discuss about implications of the studied concepts using a proper technical language.
- Learning skills: students will gain the ability of indepently studying and deepening their knowledge in the field of connection and transmission systems.
|
4
|
ICAR/08
|
32
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119603 -
FUNDAMENTALS OF ELECTRONICS
|
9
|
ING-INF/04
|
72
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119601 -
ENGLISH
|
6
|
L-LIN/12
|
48
|
-
|
-
|
-
|
Final examination and foreign language test
|
ITA |
|
119604 -
GAS TURBINE ENGINES Mod 1
|
|
|
-
GAS TURBINE ENGINES Mod 1
(objectives)
The expected results are summarised following the Dublin descriptors format:
- knowledge and understanding: develop knowledge about fundamentals principles of gas turbine engines for aeronautic propulsion, their constructive schemes and functioning principles with a specific focus on the main components and systems that compose the propulsion system as well as the starting and ignition systems
- applying knowledge and understanding: provide students the ability to apply the gained knowledge in the real field regarding gas turbine engines for aeronautic propulsion
- making judgements: develop in students the critical thinking and the ability of probem solving of problems that have been encountered during the course as well as further potential issues thanks to a strong background
- communication skills: students will be able to discuss about implications of the studied concepts using a proper technical language
- learning skills: students will gain the ability of indepently studying and deepening their knowledge in the field of gas turbine engines for aeronautic propulsion
|
9
|
ING-IND/08
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
-
GAS TURBINE ENGINES Mod 2
(objectives)
The expected results are summarised following the Dublin descriptors format:
- knowledge and understanding: to increase the knowledge on turboprop and turboshaft engines, to learn the main aspects of starting, protection and power-boosting systems; to study in depth the ground operations related to engine control.
- applying knowledge and understanding: provide students the ability to apply the gained knowledge in the real field of the functioning of components, including auxiliary components and ground operations.
- making judgements: develop in students the critical thinking and the ability of probem solving of problems that have been encountered during the course as well as further potential issues thanks to a strong background.
- communication skills: students will be able to discuss about implications of the studied concepts using a proper technical language.
- Learning skills: students will gain the ability of indepently studying and deepening their knowledge in the field of turbogas engine system and ground operations.
|
3
|
ING-IND/14
|
24
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119608 -
CHOICE EXAM
|
6
|
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
|
Optional Group:
New group - (show)
|
6
|
|
|
|
|
|
|
|
|
119605 -
COMPLEMENTS OF ENGINES: PISTON ENGINES
|
6
|
ING-IND/08
|
48
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119609 -
COMPLEMENTS OF ENGINES: PROPELLERS
(objectives)
The expected results are summarised following the Dublin descriptors format:
- Knowledge and understanding: develop knowledge about fundamentals principles of propulsion and propeller, exploring the different features of engine structure and associated maintenance procedures.
- Applying knowledge and understanding: provide students the ability to apply the gained knowledge in the real field regarding the engine operation and the ground operations with associated maintenance procedures.
- Making judgements: develop in students the critical thinking and the ability of probem solving of problems that have been encountered during the course as well as further potential issues thanks to a strong background.
- Communication skills: students will be able to discuss about implications of the studied concepts using a proper technical language.
- Learning skills: students will gain the ability of indepently studying and deepening their knowledge in the field of propulsion and propeller.
|
6
|
ING-IND/14
|
48
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
THIRD YEAR
First semester
Second semester
Percorso B2
FIRST YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119589 -
FUNDAMENTALS OF MATHEMATICS
(objectives)
The objective of this course is to acquire the basic knowledge of Mathematics. In particular, the objectives, expressed according to the Dublin descriptors, are the following: Knowledge and understanding the student will learn the fundamental notions related to algebra and the resolution of equations and inequalities. Applying knowledge and understanding: Through targeted examples, the student will be able to verify the need to resort to mathematics in the scientific field and not only as a discipline for its own sake. You will be able to use the calculation tools you have learned to solve problems. Making judgments: the student is frequently assigned exercises to be carried out independently by stimulating the acquired skills. Furthermore, simulations of exam tests are periodically carried out. Communication skills: The student is constantly stimulated during the course to interact with the teacher; you will acquire the ability to communicate by expressing yourself in a correct language applied to the mathematical context. This will stimulate the acquisition of a mathematical language useful for communicating clearly in the scientific field. Learning skills The student will be guided to perfect their study method also through exercises carried out regularly, they will be able to autonomously deepen their knowledge and tackle new topics by recognizing the prerequisites necessary for their understanding.
|
6
|
MAT/05
|
48
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119591 -
FUNDAMENTALS OF PHYSICS AND CHEMISTRY
|
|
|
-
FUNDAMENTALS OF PHYSICS AND CHEMISTRY Mod 1: PHYSICS 1
(objectives)
Expected learning outcomes
- Knowledge and understanding: develop the ability to understand the fundamental principles of Physics and related methodologies.
- Knowledge application abilities: use of the notions learned in similar scientific context and develop the ability to produce simple physical models.
- Autonomy of judgment: critical and analytical skills and capability to solve new problems even if similar to those discussed in class.
- Communication skills: Capability to discuss the implications of concepts presented in class and the possible questions that may emerge from the topics covered.
- Learning ability: Capability to discuss fundamental scientific issues of Physics and their applications.
|
9
|
FIS/01
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
-
FUNDAMENTALS OF PHYSICS AND CHEMISTRY Mod 2: CHEMISTRY
(objectives)
Expected learning outcomes
- Knowledge and understanding: develop the ability to understand the fundamental principles of Chemistry and related methodologies.
- Knowledge application abilities: use of the notions learned in similar scientific context and develop the ability to produce simple physical models.
- Autonomy of judgment: critical and analytical skills and capability to solve new problems even if similar to those discussed in class.
- Communication skills: Capability to discuss the implications of concepts presented in class and the possible questions that may emerge from the topics covered.
- Learning ability: Capability to discuss fundamental scientific issues of Chemistry and their applications.
|
3
|
CHIM/07
|
24
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119592 -
LAW AND HUMAN RESOURCES
|
|
|
-
LAW AND HUMAN RESOURCES Mod 1: AVIATION LAW
|
3
|
IUS/06
|
24
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
-
LAW AND HUMAN RESOURCES Mod 2: METHODS AND TECHNIQUES FOR THE MANAGEMENT OF HUMAN RESOURCES
|
3
|
ING-IND/35
|
24
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119593 -
COMPLEMENTS OF MATHEMATICAL ANALYSIS
(objectives)
The aim of the course is to teach the student the basic of differetial calcoulous. In particulars the aims are the following:
Knowledge and understandings: the student will learn the basics of the differential calcoulous for real functions in one real variable.
Applying knowledge and understandings: Thank to some examples students will understand the usage of techniques and theory
Making jugements: In order to develop authonomy of jugements exercises are given every lesson. Morover some old exams are made in class to prepare the students to their exam.
Communication skills: The lessons are interactive, the students are stumulated to communicate with the teacher and their class mates. This will be useful to develop a proper lenguage for the exam.
Learning Skills: The stundents will learn a new method that will help them to study new themes.
|
9
|
MAT/05
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119594 -
PHYSICS 2
(objectives)
The course aims to introduce students to a general knowledge of electrostatic interaction, electrical circuits and their main elements such as resistors, capacitors, generators etc. The course will also cover the fundamentals of magnetic interaction, its causes, magnetic induction and its consequences. The course will provide various examples and practical applications of the theoretical topics covered in the lecture; special attention will be given to applications in aeronautics. The course will include the exposition of the topics covered in EASA 66 from module 3.1 to module 3.11.
|
9
|
FIS/01
|
72
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
Optional Group:
New group - (show)
|
6
|
|
|
|
|
|
|
|
|
119617 -
MAINTENANCE PRACTICES II
|
Also available in another semester or year
|
|
119595 -
ELECTRICAL ENGINEERING
(objectives)
Learn the methodologies necessary for the analysis of DC lumped parameter electric circuits. Acquire the basic knowledge required for the analysis of single-phase and three-phase sinusoidal electric circuits. Provide the fundamentals of electrical machines and electrical systems in general.
The expected learning results are: (i) the knowledge of the theoretical contents of the course (Dublin descriptor n°1), (ii) the competence in presenting technical argumentation skills (Dublin descriptor n°2), (iii) autonomy of judgment (Dublin descriptor n°3) in proposing the most appropriate approach to argue the request and (iv) the students' ability to express the answers to the questions proposed by the Commission with language properties, to support a dialectical relationship during discussion and to demonstrate logical-deductive and summary abilities in the exposition (Dublin descriptor n°4).
|
6
|
ING-IND/31
|
48
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
SECOND YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119596 -
APPLIED THERMO-FLUID DYNAMICS
(objectives)
Expected learning outcomes:
- Knowledge and understanding: develop knowledge of the fundamental principles of atmospheric physics and related aerodynamic quantities; in addition, the student will learn the basics of flight theory by deepening the aspects of flight stability and dynamics.
- Ability to apply knowledge and understanding: have a correct understanding of the aerodynamic forces and their applications on the stability and dynamics of flight.
- Making judgments: developing critical analytical skills and being able to solve new problems, in accordance with those discussed in classes.
- Communication skills: discussing the implications of concepts presented in class and the possible issues that may arise from the topics covered.
- Learning skills: being able to autonomously deepen knowledge.
|
9
|
ING-IND/10
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119597 -
ELEMENTS OF COMPUTER SCIENCE
|
6
|
ING-INF/05
|
48
|
-
|
-
|
-
|
Basic compulsory activities
|
ITA |
|
119600 -
MATERIALI E COSTRUZIONI AERONAUTICI
|
|
|
-
MATERIALS AND CONSTRUCTION FOR AVIATION Mod 1: MATERIALS SCIENCE
(objectives)
The course aims to provide the principles and information for the formation of a basic knowledge of materials widely adopted in the aeronautical sector. In particular, the student shall develop the ability to select materials and their areas of application. Expected learning outcomes:
1) Knowledge and ability to understand:
Knowledge of the different types of material and their areas of application.
2) Ability to apply knowledge and understanding:
Knowledge of the main problems related to the types of materials.
3) Autonomy of judgement:
Prediction of mechanical, physical and chemical behaviour as a function of the material.
4) Communication skills:
Knowing how to predict material behaviour in different applications
5) Learning ability:
A condition for success in learning is the ability to reconstruct independently, without mnemonic repetition, the basics of different materials and their applications
|
5
|
ING-IND/22
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
-
MATERIALS AND CONSTRUCTION FOR AVIATION Mod 2: FUNDAMENTALS OF MACHINE DESIGN
(objectives)
The expected results are summarised following the Dublin descriptors format:
- knowledge and understanding: o develop general knowledge of riveting and connections. Deepen knowledge of transmission systems, including the use of springs and bearings.
- applying knowledge and understanding: provide students the ability to apply the gained knowledge in the real field of the different connection and transmission systems in aircraft.
- making judgements: develop in students the critical thinking and the ability of probem solving of problems that have been encountered during the course as well as further potential issues thanks to a strong background.
- communication skills: students will be able to discuss about implications of the studied concepts using a proper technical language.
- Learning skills: students will gain the ability of indepently studying and deepening their knowledge in the field of connection and transmission systems.
|
4
|
ICAR/08
|
32
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
Optional Group:
SMA - Gruppo 3 - 6 CFU a scelta - (show)
|
6
|
|
|
|
|
|
|
|
|
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
119601 -
ENGLISH
|
6
|
L-LIN/12
|
48
|
-
|
-
|
-
|
Final examination and foreign language test
|
ITA |
|
119603 -
FUNDAMENTALS OF ELECTRONICS
|
9
|
ING-INF/04
|
72
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ITA |
|
119606 -
FUNDAMENTALS OF MEASUREMENTS
(objectives)
The objective of the measurement fundamentals course is to provide the student with the basic concepts of measurement theory (metrology and uncertainty) and the functioning of electronic devices based on semiconductors. The expected results of the course are the following:
- Knowledge and understanding: develop general knowledge about integrated circuits, boards and servos.
- Ability to apply knowledge and understanding: have a proper understanding of the various circuits and servoactuators for aircraft.
- Making judgments: developing critical analytical skills and being able to solve new problems, in accordance with those discussed in class.
- Communication skills: discussing the implications of concepts presented in class and the possible questions that may arise from the topics covered.
- Learning skills: being able to deepen one's knowledge in the field of aeronautical
|
9
|
ING-IND/12
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119607 -
FLUID MACHINERY AND PROPULSION
|
9
|
ING-IND/08
|
72
|
-
|
-
|
-
|
Core compulsory activities
|
ITA |
|
119608 -
CHOICE EXAM
|
6
|
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
THIRD YEAR
First semester
Second semester
