FISICA
(objectives)
Educational goals The aim of the course is to provide students with the fundamental concepts of physics while conveying, at the same time, the logical-deductive tools necessary to arrive at a full understanding of the topics presented. Students will have to acquire the basic principles of the scientific method that combines the experimental approach with a mathematical-deductive approach. Particular attention will be paid to the critical and historical analysis of the concepts on which a scientific theory is based. The course also aims to provide the basis for understanding the physical principles involved in some biological processes and in the applications of some physical methodologies in the biomedical field.
Expected learning outcomes Knowledge and ability to understand. To have developed the knowledge of the fundamental principles of Physics and of the relative methodologies. Ability to apply knowledge and understanding. Knowing how to use the concepts learned even in contexts different from those presented. Autonomy of judgment. Develop critical analysis skills and be able to solve new problems even if similar to those discussed in class. Communication skills. Students' ability to discuss the implications of concepts presented in class and the possible questions that may emerge from the topics discussed will be stimulated. Learning ability. Being able to discuss fundamental scientific topics of Physics and its applications. This skill will be developed and verified by involving students in oral discussions in the classroom.
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Code
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13639 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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7
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Scientific Disciplinary Sector Code
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FIS/07
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Contact Hours
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40
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Laboratory Hours
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16
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Type of Activity
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Basic compulsory activities
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Group: 1
Teacher
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BIZZARRI Anna Rita
(syllabus)
Models, theories, laws, measurements and uncerntainty. Unity of measurements (International system). Physics and its relationship with other disciplines. Description of motion: kinematics in one dimension and in two dimensions; vectors. Force, mass. Newton’s Laws,; circular motion; gravity. Work, kinetic energy. Power. Conservative forces, potential energy. Conservation of mechanical energy. Momentum. Rotatory motion. Vibrations and waves (harmonic motions, sound). Equilibrium of bodies. Elasticity. Fluids (statics, dynamics, viscosity, surface tension). Temperature and kinetic theory, heat, principles of thermodynamics, thermic engines, entropy. Electric charge and electric field. Electrostatic potential and energy, capacity, dielettrics. Electrical currents, resistance. Circuits at constant current. Laws of magnetism. Electromagnetic induction and Faraday's law. Electromagnetic waves and their spectrum. Light: geometric optics, Ondulatory behaviour of light: interference, diffraction, spectroscopy, polarization. Optical instruments. Quantum theory and Bohr's model of atom. Nuclei and radioactivity. Biological effects of ionizing radiations.
(reference books)
Fisica, Giancoli, Ambrosiana (III edizione con fisica moderna)
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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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not mandatory
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Evaluation methods
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Written test
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Group: 2
Teacher
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BIZZARRI Anna Rita
(syllabus)
Models, theories, laws, measurements and uncerntainty. Unity of measurements (International system). Physics and its relationship with other disciplines. Description of motion: kinematics in one dimension and in two dimensions; vectors. Force, mass. Newton’s Laws,; circular motion; gravity. Work, kinetic energy. Power. Conservative forces, potential energy. Conservation of mechanical energy. Momentum. Rotatory motion. Vibrations and waves (harmonic motions, sound). Equilibrium of bodies. Elasticity. Fluids (statics, dynamics, viscosity, surface tension). Temperature and kinetic theory, heat, principles of thermodynamics, thermic engines, entropy. Electric charge and electric field. Electrostatic potential and energy, capacity, dielettrics. Electrical currents, resistance. Circuits at constant current. Laws of magnetism. Electromagnetic induction and Faraday's law. Electromagnetic waves and their spectrum. Light: geometric optics, Ondulatory behaviour of light: interference, diffraction, spectroscopy, polarization. Optical instruments. Quantum theory and Bohr's model of atom. Nuclei and radioactivity. Biological effects of ionizing radiations.
(reference books)
Fisica, Giancoli, Ambrosiana (III edizione con fisica moderna)
|
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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not mandatory
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Evaluation methods
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Written test
Oral exam
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