GENERAL PHYSICS I M - Z
Academic Year 2017/2018 - 1° YearCredit Value: 15
Scientific field: FIS/01 - Experimental physics
Taught classes: 84 hours
Exercise: 45 hours
Term / Semester: One-year
Learning Objectives
The educational objective of the course is to provide a comprehensive knowledge of classical mechanics and thermodynamics. The training course to acquire such a result is as follows:
Study of the fundamental laws of classical mechanics of the material point and of a system of material points with particular regard to kinematics, Newton's laws and the principles of conservation.
Study of rigid body dynamics
Study of Universal Gravitation
Study of oscillatory phenomena and wave
Study of fluid mechanics
Study of the laws of thermodynamics and applications to different physical systems.
The approach to the description of the systems and phenomena described above will be experimental and the physical theories will be presented in terms of logical structure and mathematics and experimental evidence. After completing the course, the student will be able to assess similarities and differences between physical systems and methodologies to be applied. The student will have acquired the ability to apply knowledge and understanding through exercises and problem solving.
Detailed Course Content
Mechanics of a particle:
• Kinematics: motion in one, two, three dimensions
• Reference systems and related motions
• laws of dynamics
• force, work, kinetic energy
• momentum and impulse
• conservative forces, potential energy
• conservation theorems
• angular momentum
• moment of a force
• central forces
Mechanics of particle systems
• center of mass, reduced mass
• conservation of momentum
• conservation of angular momentum
• konig of theorems
• kinetic energy theorem
• elastic collisions and inelastic
Rigid body dynamics
• definition of rigid body
• rotations about a fixed axis
• moment of inertia
• Theorem of Huygens-Steiner
• pure rolling motion
• Angle and pulse time pulse
• ellipsoid of inertia
• gyroscope
• free rigid body
• static
Gravitation
• Kepler's laws
• law of universal gravitation
• inertial and gravitational mass
• gravitational field
• gravitational potential energy
• Gauss theorem
• calculation of the orbits
elastic properties of solids
• traction and compression
• Creep
• compressibility
• torsion balance
Oscillations and waves
• harmonic oscillator
• damped harmonic oscillator
• Forced harmonic oscillator
• resonance
• longitudinal and transverse waves
• Fourier analysis
• physical nature of sound
Mechanical properties of fluids
• statics of fluids: Stevin's law, Pascal, and Archimedes'
• fluid dynamics
• stationary regime and Bernoulli's theorem
• viscosity
• laminar flow and whirling motion
THERMODYNAMICS
• temperature thermometry
• Gas state equation
• kinetic theory of gases
• work and heat
• First Law of Thermodynamics
• Second Law of Thermodynamics
• entropy
• thermodynamic processes
• thermodynamic potentials
• phase changes
• real gases
• Third Law of Thermodynamics
Textbook Information
1) R. Mazzoldi, M. Nigro, C. Voci, Fisica – Vol. I , EdiSES - Napoli (Italia)
2) Focardi S., Massa I., Uguzzoni A., Villa M. - Fisica generale - MECCANICA E TERMODINAMICA, Casa editrice Ambrosiana
3) Halliday, Resnick, Krane, Fisica 1, Casa editrice Ambrosiana
4) Giancoli, Fisica 1, Casa editrice Ambrosiana
5) Young, Freedman, Ford, Principi di Fisica vol.1, _ each student will have free access to the pdf version of this text and to the web platform Mastering Physics