The students are expected to acquire: a basic knowledge of General Physics (mainly: mechanics electromagnetism, waves and geometrical optics) followin an algebra-based quantitative-qualitative approach to the description of physical phenomena.

In the Lab sessions the students learn the use of simple electronic sensors measuring force, temperature, time, magnetic field andnd other physical quantities both operating manually and with data acquisition software (LabView).

Using Octave/Matlab the students learn to make simple procedure of data analysis (e.g. polynomial fitting), solution of finite difference equations (applied, for example,to the study of the mass point motion), and to register and graphically represent experimental data taken from the lab experiences or from the procedures of numerical calculus.

a knowledge of some basic features of the mathematical description of the physical phenomena: exponential behavior, oscillations, waves, etc.

For the assessment of knowledge during the development of the program:

    students are encouraged, even with direct questions, to comment and motivate the logical steps and problematic situations during lessons.
    The observation of the work for groups and individual in laboratory sessions is useful for evaluating the achievement of educational goals
    Periodically groups of multiple answer questions are proposed having as content the more recent parts of the program. They are can be solved online and the percentage of correct answers is returned.

The main purpose of these activities is to tune the rhythm of the course to that of the average learning of the class and only secondarily  for a partial judgement on the individuals.

After completing the course the student will be able to:

• use at a basic level the software Octave / Matlab to represent and analyze data or to carry out some numerical procedures.
• to understand and in some cases to perform the calibration procedures of a transducer of physical quantities.
• to perform electrical voltage measurements, current or resistance with the use of a voltmeter or using virtual instruments employing the LabView software.
• to motivate a dimensional analysis, to use the units of the SI and to show the scale dependency of relationships between physical quantities

During the lectures  or during the laboratory sessions the student is asked to perform tasks such as writing or commenting simple algorithmic codes or to execute and discuss the measures on a physical systems or to answer problematic questions, noting in a personal logbook the requested item and the comments on it. The use of the logbook as the source of information is then used as a self-test of the skills acquired.