The experimental method. Measurement units and dimensions of physical quantities. Kinematics: time, position, velocity, acceleration. Mechanics: force, mass, Newton's laws, momentum, angular momentum, energy and work. Conservative and non-conservative forces. Conservation laws. Oscillations and waves. Fluid and gas: pressure, Stevin's law, Archimede's Force, Bernoulli's law. Ideal gas, kinetic theory of gases. Thermodynamics: thermal equilibrium, heat and energy, heat capacity, I and II law of thermodynamics, entropy. Elements of electricity and magnetism.
Basic concepts on biodical instrumentations
Biomedical systems performance
Sensors for biomedical measurements
Amplifier, flters, a/d converters
Rigid body dynamics
Muscle force estimation, reaction forces
Computer hardware architectures. The software component. Computer networks and communication networks, subnet definition. Computer security. Concepts of mathematical logic and logic gates. Introduction to programming: Writing algorithms in pseudocode. Statistical programming with R Language. The databases. Instruments for scientific calculation. The scientific calcultation in Italy. Clinical cards and clinical cards management systems.