FISICA SPERIMENTALE
(objectives)
The course aims to introduce students to the principles of kinematics, mechanics, statics and dynamics of fluids, oscillations and thermodynamics, and electromagnetism, providing them with the fundamental knowledge of classical physics both from a theoretical and an experimental point of view. The course has the following educational objectives: - understanding of the kinematics and classical dynamics of the material point; - acquisition and understanding of the laws and principles of dynamics and statics of rigid bodies; - acquisition of laws governing the static and dynamic of fluids; - understanding of oscillatory phenomena; - Research of the fundamental principles of thermodynamics. - Look for the fundamental principles of electromagnetism. The course aims to introduce the basic methodologies of Experimental Physics by developing the ability to identify the essential aspects of physical phenomena and the critical logical skills they offer to offer and / or verify phenomenological models capable of describing them.
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).
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Code
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17933 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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FIS/01
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Contact Hours
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36
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Type of Activity
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Related or supplementary learning activities
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Group: 1
Teacher
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CELASCHI MASSIMILIANO
(syllabus)
Physical quantities • International System of Units • Prefixes • Length equivalences • Equivalences of volumes • Density Measure • Significant figures • Scientific notation • Values and uncertainties Kinematics • Reference systems • Linear motion • Speed • Equivalence between km/h and m/s • Uniform linear motion • Calculation of position and time in uniform motion • Acceleration • Uniformly accelerated motion • Fall of the bodies • Uniformly accelerated motion from rest • Instantaneous speed • Position Motion in plane • Vectors and scalars • Sum of two vectors • Uniform circular motion: speed and period • Acceleration in uniform circular motion • Centripetal acceleration Forces and balance • Forces change speed • Measurement of forces • Strength, weight and mass • Elastic force • Hooke's law • Material point Balance in fluids • Pressure (definition and unit of measurement) • Unit of measurement for pressure • Pressure of the weight force in liquids • Archimedes' principle Newton's laws of motion • Dynamics • First Newton’s law • Second Newton’ law • Third Newton’s laws Forces and movement • Free fall • Falling motion from rest • Strength, weight and mass Conservation laws • Work • Force and displacement (parallel, antiparallel, perpendicular) • Power • Energy • The kinetic energy • The kinetic energy theorem The temperature • The thermometer • Temperature • The kelvin degree • Ideal gas law Heat and phase transitions • Heat • Thermal capacity and specific heat capacity • Heat and temperature • Phase transitions • Melting and freezing • Vaporization and condensation Electricity • Constitution of the matter • Conducting bodies and insulating bodies • Electrification of bodies • Electric generator • Electrical circuit • Resistance and conductance
(reference books)
Ugo Amaldi, Le traiettorie della fisica. Azzurro, Zanichelli Appunti del corso
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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Mandatory
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Evaluation methods
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Written test
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Group: 2
Teacher
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LAMPASI DOMENICO ALESSANDRO
(syllabus)
Basics of mathematics
Physical quantities • International System of Units • Prefixes • Length equivalences • Equivalences of volumes • Density
Measure • Significant figures • Scientific notation • Values and uncertainties
Kinematics • Reference systems • Linear motion • Speed • Equivalence between km/h and m/s • Uniform linear motion • Calculation of position and time in uniform motion • Acceleration • Uniformly accelerated motion • Fall of the bodies • Uniformly accelerated motion from rest • Instantaneous speed • Position
The motions in the plane • Vectors and scalars • Sum of two vectors • Uniform circular motion: speed and period • Acceleration in uniform circular motion • Centripetal acceleration
Forces and balance • Forces change speed • Measurement of forces • Strength, weight and mass • Elastic force • Hooke's law • Material point
Balance in fluids • Pressure (definition and unit of measurement) • Unit of measurement for pressure • Pressure of the weight force in liquids • Archimedes' principle
Newton's laws of motion • Dynamics • First Newton’s law • Second Newton’ law • Third Newton’s laws
Forces and movement • Free fall • Falling motion from rest • Strength, weight and mass
Conservation laws • Work • Force and displacement (parallel, antiparallel, perpendicular) • Power • Energy • The kinetic energy • The kinetic energy theorem
The temperature • The thermometer • Temperature • The kelvin degree • Ideal gas law
Heat and phase transitions • Heat • Thermal capacity and specific heat capacity • Heat and temperature • Phase transitions • Melting and freezing • Vaporization and condensation
Electricity • Constitution of the matter • Conducting bodies and insulating bodies • Electrification of bodies • Electric generator • Electrical circuit • Resistance and conductance
(reference books)
Ugo Amaldi, Le traiettorie della fisica. Azzurro, Zanichelli.
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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At a distance
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Attendance
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Mandatory
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Evaluation methods
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Written test
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