| C1. Introduction in Physics. Fundamental and derivate physical quantities and their measurement units. Basics of kinematics:
| C2. Elements of motion (reference system, trajectory, space). Velocity. Linear motions with constant velocity. Acceleration. Linear motion with constant acceleration. Kinematics: Curvilinear motions (trajectory, velocity and acceleration).
| C3. Circular motion (angle, circular velocity, circular acceleration, law of motion with uniform angular velocity, law of motion with uniform angular acceleration). Relations between linear and circular quantities. Specific measurement units.
| C4. Dynamics: 1st, 2nd and 3rd principles of dynamics. Inertial mass. Force. Linear momentum. Mechanic work. Power. Energy (kinetic, potential, total).
| C5. Momentum of force. Angular momentum. Conservations laws of: linear momentum, kinetically momentum, energy.
| C6. Oscillatory motion: Linearly harmonically oscillator. Dumped oscillations. Forced oscillations, resonance.
| C7. Waves. Wave function. Differential equation, Characteristic phenomena: reflection, refraction,
| interference, diffraction. Standing waves.
| C8. Acoustics: Definition. Sound sources. Fundamental sound and superior harmonics. Sounds quality. Closed chambers acoustics, sound reverberation, reverberation time.
| C9. Electricity. Introduction. Electric charge. Coulombian Force. Electric Field. Electric Field intensity. Electric Flux. Gauss law for the electric field. Electric field work.
| C10. Electric current. Definition. Electric current intensity. Density of the electric current. Ohm’s law. Electrons in solids. Electrically conductibility. Elements of electric circuit.
| C11. Magnetism: Magnetic field. Sources of the magnetic field. Lorentz force.
| C12. Magnetic flux. Gauss law for the magnetic field. Element of current. Magnetic force (Laplace force). Biot-Savart law.
| C13. Magnetic field produced by a liner conductor. Magnetic field produced by a loop. Ampere’s law. Electromagnetic induction. Faraday’s law.
| C14. Maxwell’s equations (differential and integral forms). Electromagnetic waves: Maxwell’s equations without sources, velocity, transversally, intensity, and range
