Kinematics of a particle: the basic kinematic quantities, linear and circular movements.
- Dynamics of a particle: Newton's laws of motion, work, power, energy.
- Mechanical systems of particles and rigid bodies: physical center, center of gravity, translational,
rotary and compound motion, pulsed sentence, Steiner's theorem.
- Mechanical vibrations and waves: undamped, damped and forced vibrations,
superposition of vibrations, progressive and standing waves, interference, spreading waves
in space, acoustics, Doppler effect.
- Fluid Mechanics: Statics and dynamics of ideal fluids and gases flow
real fluids.
- Molecular Physics: thermal expansion materials, calorimetric equations, transfer
heat.
- The kinetic theory of gases: equation of state of ideal and real gas, reversible
happening in an ideal gas.
- Dynamics of a particle: Newton's laws of motion, work, power, energy.
- Mechanical systems of particles and rigid bodies: physical center, center of gravity, translational,
rotary and compound motion, pulsed sentence, Steiner's theorem.
- Mechanical vibrations and waves: undamped, damped and forced vibrations,
superposition of vibrations, progressive and standing waves, interference, spreading waves
in space, acoustics, Doppler effect.
- Fluid Mechanics: Statics and dynamics of ideal fluids and gases flow
real fluids.
- Molecular Physics: thermal expansion materials, calorimetric equations, transfer
heat.
- The kinetic theory of gases: equation of state of ideal and real gas, reversible
happening in an ideal gas.