THE COURSE INTRODUCES THE SCIENTIFIC METHOD, PRESENTS NEWTON'S MECHANICS AND THE MAIN ELECTRIC AND MAGNETIC PHENOMENA, TOGETHER WITH THE PERTINENT LAWS. THE STUDENT BECOMES FAMILIAR WITH THE BASIC MODELS OF CLASSICAL PHYSICS AND, IN PARTICULAR, WITH SUCH CONCEPTS AS PHYSICAL QUANTITY, FIELD, CONSERVATION LAW. THE STUDENT IS ABLE TO APPLY THE ABOVE CONCEPTS TO THE SOLUTION OF SIMPLE PROBLEMS BY MEANS OF APPROPRIATE ANALYTICAL PROCEDURES.
Canali
teacher profile teaching materials
- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration (*)
- Parabolic motion
- Circular motion (*)
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force (*)
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium (*)
- R. Borghi, "Lezioni di Meccanica", amazon.com
(*) Notes on selected arguments are also available on the
course website, under the section complementi
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2
(freely available at http://feynmanlectures.info/)
Mutuazione: 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 1 BORGHI RICCARDO
Programme
Introduction- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration (*)
- Parabolic motion
- Circular motion (*)
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force (*)
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium (*)
Core Documentation
- P. Mazzoldi, M. Nigro, C. Voci, "Elementi di Fisica. Vol. I: Meccanica - Termodinamica", seconda edizione, Edises, Napoli- R. Borghi, "Lezioni di Meccanica", amazon.com
(*) Notes on selected arguments are also available on the
course website, under the section complementi
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2
(freely available at http://feynmanlectures.info/)
Type of evaluation
Standard procedure: The final exam consists of a written test, based on multiple-choice questions, open-ended problems and questions. It is possible to integrate the written test with an oral test. On-line procedure (due to COVID-19 pandemics): Only for exams for which standard procedure is not permitted, exam will comprise a written test to be done on-line through moodle platform and an oral test, both mandatory for all students. teacher profile teaching materials
- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration
- Parabolic motion
- Circular motion
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium
- R. Borghi, "Lezioni di Meccanica", amazon.com
Notes on selected arguments are also available on the course website, under the section "Complementi"
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2 (freely available at http://feynmanlectures.info/)
Mutuazione: 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 2 SANTARSIERO MASSIMO
Programme
Introduction- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration
- Parabolic motion
- Circular motion
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium
Core Documentation
- P. Mazzoldi, M. Nigro, C. Voci, "Elementi di Fisica. Vol. I: Meccanica - Termodinamica", seconda edizione, Edises, Napoli- R. Borghi, "Lezioni di Meccanica", amazon.com
Notes on selected arguments are also available on the course website, under the section "Complementi"
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2 (freely available at http://feynmanlectures.info/)
Type of delivery of the course
Lectures and exercisesType of evaluation
The final exam consists of a written test, based on multiple-choice questions, open-ended problems and questions. It is possible to integrate the written test with an oral test. During COVID-19 emergency, the exam will follow the indications of art.1 of the Rectoral Decree No. 703 of 5 may 2020. In this case, the exam will comprise a written test to be done on-line through moodle platform and an oral test, both mandatory for all students. teacher profile teaching materials
- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration (*)
- Parabolic motion
- Circular motion (*)
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force (*)
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium (*)
- R. Borghi, "Lezioni di Meccanica", amazon.com
(*) Notes on selected arguments are also available on the
course website, under the section complementi
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2
(freely available at http://feynmanlectures.info/)
Mutuazione: 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 3 GABRIELLI ANDREA
Programme
Introduction- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration (*)
- Parabolic motion
- Circular motion (*)
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force (*)
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium (*)
Core Documentation
- P. Mazzoldi, M. Nigro, C. Voci, "Elementi di Fisica. Vol. I: Meccanica - Termodinamica", seconda edizione, Edises, Napoli- R. Borghi, "Lezioni di Meccanica", amazon.com
(*) Notes on selected arguments are also available on the
course website, under the section complementi
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2
(freely available at http://feynmanlectures.info/)
Type of evaluation
Standard procedure: The final exam consists of a written test, based on multiple-choice questions, open-ended problems and questions. It is possible to integrate the written test with an oral test. On-line procedure (due to COVID-19 pandemics): Only for exams for which standard procedure is not permitted, exam will comprise a written test to be done on-line through moodle platform and an oral test, both mandatory for all students. teacher profile teaching materials
- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration
- Parabolic motion
- Circular motion
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium
- R. Borghi, "Lezioni di Meccanica", amazon.com
- Notes on selected arguments are also available on the
course website, under the section complementi
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2
(freely available at http://feynmanlectures.info/)
Mutuazione: 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 4 GORI PAOLA
Programme
Introduction- Physical quantities and units
- Fundamentals on vector algebra
Kinematics of a material point
- Kinematics quantities in the rectilinear motion
- Uniformly accelerated rectilinear motion
- Simple harmonic motion
- Kinematics in 2-D and 3-D
- Motion trajectory
- Tangential and normal components of acceleration
- Parabolic motion
- Circular motion
- Relative motion
Dynamics of a material point
- Principles of Dynamics and Newton's laws
- Momentum and Impulse
- Equilibrium and constraint reaction forces
- Gravitational force
- Weight and motion under gravity
- Forces and motion
- Forces of dry friction
- Inclined plane
- Elastic force and mass-spring system
- Tension force in ropes
- Applications to circular motion
- Viscous force
- Electrical charge and Coulomb force
- Simple pendulum
- Inertial and non-inertial reference frames
- Inertial forces
Work and Energy
- Work and power
- Work of weight, elastic and dry friction forces
- Work-energy theorem. Applications
- Conservative forces. Potential energy
- Central forces
- Gravitational and electrostatic potential energies
- Conservation of mechanical energy. Applications
- Stability conditions for static equilibrium
Core Documentation
- P. Mazzoldi, M. Nigro, C. Voci, "Elementi di Fisica. Vol. I: Meccanica - Termodinamica", seconda edizione, Edises, Napoli- R. Borghi, "Lezioni di Meccanica", amazon.com
- Notes on selected arguments are also available on the
course website, under the section complementi
For further studies, the following is suggested:
- R. P. Feynman, "La Fisica di Feynman", volumes 1 and 2
(freely available at http://feynmanlectures.info/)
Type of delivery of the course
Lectures and exercises.Type of evaluation
The final exam consists of a written test, based on multiple-choice questions, open-ended problems and questions. It is possible to integrate the written test with an oral test. During COVID-19 emergency, the exam will follow the indications of art.1 of the Rectoral Decree No. 703 of 5 may 2020. In this case, the exam will comprise a written test to be done on-line through moodle platform and an oral test, both mandatory for all students.