We aim to present to the student the main Physics principles dealing with Cinematic, Dynamics, Fluids and Thermodynamic, giving evidence to the applicative aspects.
Knowledge and understanding:
The student must demonstrate knowledge and understanding of the fundamentals of classical physics, with particular regard to Cinematics, Dynamics, Fluid dynamics and Thermodynamics, and their application context. The student must know how to use the vectors as physical quantities.
Ability to apply knowledge and understanding:
Students must demonstrate to use their own acquired knowledge to solve the main problems of physics, even when they appear in application contexts. These skills have also to be applied to solve exercises.
The student must be able to know how to independently evaluate the results of physical law applications.
The student should be able to support a basic physics conversation by also making examples of application of basic physical laws
The student must be able to update and deepen autonomously specific topics and applications of physical laws.
The student must have good knowledge of basic mathematics and analysis (functions, derivatives, integrals)
- velocity, acceleration
- ballistic motion, range
- uniform circular motion;
- Galilei's transformations; case of non-inertial system
- Coriolis acceleration and motions in the atmosphere
NEWTON'S LAWS AND EQUATION OF MOTION
- Newton's laws
- momentum and impulse theorem
- second principle
- constraint forces: normal and friction (static and dynamic); viscous forces
- elastic force
WORK AND ENERGY
- kinetic energy theorem
- kinetic energy
- conservative forces
DYNAMICS OF POINT SYSTEMS
- systems of material points
- momentum and energy of the system
- position and motion of the center of mass
- conservation of momentum
- internal forces and collisions; impulse theorem
DYNAMICS OF RIGID BODIES
- rotations and associated kinetic energy
- moment of inertia; Huygens-Steiner th.
- angular momentum, moment of a force
- conservation of angular momentum
- rolling phenomena
- precession of the gyroscope
- law of universal gravitation
- the 3 laws of Kepler
STATIC AND DYNAMICS OF PERFECT FLUIDS
- perfect fluid conditions and their meaning
- pressure; Pascal's principle
- Stevino's law; Torricelli's barometer, Archimedes principle
- Continuity equation, Bernoulli's theorem
THERMOLOGY and THERMODYNAMICS
- perfect gas; the equation of state of gases
- perfect gas temperature scale;
- heat as a form of energy;
- mechanical equivalent of the calorie
- changes of state and latent heat
- specific heat in ideal gases;
- reversible and irreversible transformations
- the first principle of thermodynamics and energy conservation;
- thermodynamic transformations
- thermal and refrigerating machines, efficiency, PV diagram
- the Carnot cycle
- refrigeration cycles
- the second law of thermodynamics: Kelvin and Clausius statements and their equivalence
- Carnot's theorem
- efficiency of real machines and limits imposed by the second principle
- the Clausius inequality and entropy; essential characteristics of entropy
Course's basic contents are those of basic physics: kinematics, dynamics for points and systems, rigid-body dynamics, statics and dynamics of fluids, perfect gases thermodyamics.
Course's contents support other following courses, by providing the basis of many topics.
The hours are thus distributed according to the macro-areas:
- kinematics, 14
- particle dynamics and particle systems, 14
- dynamics of rigid bodies, 18
- gravitation, 8
- static and dynamic of perfect fluids, 8
- thermodynamics, 10
Lectures with the support of the blackboard and of projected slides.
Exercises will be proposed to be solved in team.
Fundamentals of Physics, Vol. I
J. Walker, D. Halliday, R. R. Resnick
Other textbooks may be used; it is recommended to check with professors; e.g.,
Mencuccini, Silvestrini Fisica Generale I (ed. Liguori)
Mazzoldi, Nigro, Voci Fisica Generale I (ed. EdiSes)
The purpose of the assessment is to quantify the level of achievement of the training objectives previously indicated. The verification procedure consists of a written examination (exercises to be solved) and an oral examination, which follows a positive written examination.
Lectures are in Italian. The professor is fluent in English and is available to interact with students in English, and to allow the use of English during examinations.