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Insegnamento
APPLIED MATHEMATICS AND PHYSICS
AVP7077508, A.A. 2017/18
Informazioni valide per gli studenti immatricolati nell'A.A. 2017/18
Dettaglio crediti formativi
Tipologia |
Ambito Disciplinare |
Settore Scientifico-Disciplinare |
Crediti |
BASE |
Discipline matematiche e fisiche |
FIS/07 |
6.0 |
BASE |
Discipline matematiche e fisiche |
MAT/02 |
4.0 |
CARATTERIZZANTE |
Discipline economiche, statistiche, giuridiche e informatiche |
SECS-S/02 |
2.0 |
Organizzazione dell'insegnamento
Periodo di erogazione |
Secondo semestre |
Anno di corso |
I Anno |
Modalità di erogazione |
frontale |
Tipo ore |
Crediti |
Ore di didattica assistita |
Ore Studio Individuale |
ESERCITAZIONE |
3.0 |
24 |
51.0 |
LEZIONE |
9.0 |
72 |
153.0 |
Inizio attività didattiche |
26/02/2018 |
Fine attività didattiche |
01/06/2018 |
Visualizza il calendario delle lezioni |
Lezioni 2019/20 Ord.2017
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Commissioni d'esame
Commissione |
Dal |
Al |
Membri |
4 Commissione a.a. 2019/20: dal 01/03/2020 |
01/03/2020 |
30/11/2020 |
AZAELE
SANDRO
(Presidente)
BRSCIC
MARTA
(Membro Effettivo)
CAMPI
CRISTINA
(Supplente)
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3 Commissione a.a. 2019/20: fino al 29/02/2020 |
01/12/2019 |
29/02/2020 |
MERANO
MICHELE
(Presidente)
BRSCIC
MARTA
(Membro Effettivo)
CAMPI
CRISTINA
(Supplente)
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2 Commissione a.a. 2018/19: dal 01/03/2019 |
01/03/2019 |
30/11/2019 |
MERANO
MICHELE
(Presidente)
BRSCIC
MARTA
(Membro Effettivo)
CAMPI
CRISTINA
(Supplente)
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1 Commissione a.a. 2017/18 |
01/12/2017 |
30/11/2018 |
FARISELLI
PIERO
(Presidente)
BRSCIC
MARTA
(Membro Effettivo)
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Prerequisiti:
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Students are required to have basic background in high school mathematics, possibly including trigonometry. |
Conoscenze e abilita' da acquisire:
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To develop theoretical and practical knowledge and skills enabling students to deal with theoretical and formal problems.
To understand the foundation basis Calculus, Physics and data management systems. |
Modalita' di esame:
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Written test |
Criteri di valutazione:
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The examination focuses on the presented materials and in particular on the exercised solved in classroom. The students are expected to be able to solve by themselves mathematical, statistical and physical problems. |
Contenuti:
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The course lectures cover:
Basic calculus, such as functions and their graphs. The elementary functions (polynomials, power, exponential, logarithmic, trigonometric). Limits. The limit of the sum, product, quotient and composed of two functions. Derivative and their geometrical meaning. Derivatives of elementary functions. Derivation rules to find function extremes. This will be applied to optimization problems. The concept of integral as anti-derivative and as area of a function. Physics will be treated in the context of biological systems (when possible). It will cover, mechanics, kinetic and potential energy. Energy conservation. Thermodynamics. Pressure, temperature, heat. Temperature scales. Statics and dynamics of fluids. Introduction to electrostatics, currents, magnetism and waves.
General concepts of biostatistics. Descriptive statistic: measures of position and variation. Sampling methodologies. Probability distribution for continuous random variables. Simple linear regression. Basic of parametric test. |
Attivita' di apprendimento previste e metodologie di insegnamento:
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The course includes 72 lecturing hours of lectures and 24 hours of practical applications and exercises. |
Eventuali indicazioni sui materiali di studio:
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Detailed learning objectives and weekly program are available on Moodle (https://elearning.unipd.it/scuolaamv/). |
Testi di riferimento: |
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David Guichard, Single Variable Calculus. --: --, --. open text book
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Martin Zinke-Allmang et al., PHYSICS FOR THE LIFE SCIENCES. --: Cengage Learning, 2016. ISBN-13: 978-0176558697
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Kaps M. and Lamberson W.,, Biostatistics for Animal Science. --: CABI Publishing, --.
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Robert G. Brown, Introductory Physics I and II. Duke University: --, --. free here: http://www.phy.duke.edu/~rgb/Class/intro_physics_1.php and http://www.phy.duke.edu/~rgb/Class/intro_physics_2.php
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