Point Kinematics. Point Mechanics: Newton's laws, forces and moment of momentum, First Cardinal Equation of the dynamic - Fictitious forces (centrifugal / centripetal, Coriolis), weight, elastic, contact, viscous (Stokes' Law ) forces - Work and energy theorem;-Principles of conservation and conservative systems;-mechanics of particles systems of particles: center of mass and gravity; Particles collision and Impulse. Mechanics of rigid bodies: Inertia, Angular, Forces Moments and their conservation, Second Cardinal Equation of the dynamic. Motion of an object constrained to a spring - simple pendulum;-forced and damped oscillations - Resonance; Gravitation: Kepler's Laws and the Universal Law of gravitation - variation of g with latitude;-fluids: pressure, compressibility;-Archimedes' principle;-surface tension - Capillarity - Dynamics of viscous and non-viscous fluids - Bernoulli's equation - Poiseuille flow; waves: shear and pressure waves - harmonic waves. Doppler’s effect - Energy and intensity of the waves - the wave equation - Introduction to Fourier analysis. Elements of Thermodynamics: Temperature - The temperature scales - Thermal expansion - Ideal gas - Van der Waals Gas – Outline of kinetic theory of gases - Heat Capacity and Specific Heat - First Law of Thermodynamics - Phase changes - Simple thermodynamic diagrams - Transmission of the Heat - Second law of thermodynamics - Entropy. Electrostatics: Coulomb force - Motion of charged particles - Gauss's law - Electric potential - Dielectrics - Dipoles - Electric capacity and energy density - Capacities in series and in parallel. Electric current and resistance: Ohm’s laws - Joule effect. DC (direct current) Circuits: Resistors in series and in parallel - Kirchoff laws - Instrumentations - RC circuits: charging and discharging. Magnetic fields: First and Second law of Laplace with examples - Motion of charged particles in a magnetic field (Lorentz force) – Biot-Savart’s law - Ampere's law - Magnetism in the matter. Electromagnetic induction: Faraday-Neumann-Lenz’s law, with applications; Inductance. Circuits with RL, RC and RLC in series – Stored Electromagnetic Energy. Alternating currents. Maxwell's equations in integral and differential form; Electromagnetic waves and Poynting vector; Instruments of measurements;-Introduction to Optics: interference, diffraction, refraction, Snell's law, Fermat's Principle.