Degree course: 
Corso di First cycle degree in Physics
Academic year when starting the degree: 
Academic year in which the course will be held: 
Course type: 
Basic compulsory subjects
Second semester
Standard lectures hours: 
Detail of lecture’s hours: 
Laboratory (66 hours)

Probability & Statistics course – introductory physics lectures. Fundamentals of coding and computer science.

Final Examination: 

Evaluation of the essays reporting the lab activities. For every experiment, the background and motivation shall be presented, followed by a description of the experimental apparatus, the experimental sequence, the results of the data analysis.

Voto Finale

In terms of knowledge, the main objective is to guide the student towards the scientific method. In terms of applications, the student is expected to be able to perform basic experiments, organizing a log-book, record data and perform a basic analysis, computer assisted.

- Analysis (qualitative and quantitative) of the physics underlying the proposed experiments
- Analysis of the experimental set-up
- Performing the experiment and collecting data
- Data analysis
- Reporting

Il corso prevede:
- la conduzione di un'analisi dati avanzata su statistiche acquisite durante esperimenti condotti nel laboratorio di ricerca del docente incaricato. L'analisi sarà guidata ed assistita;
- la conduzione di piccoli esperimenti predisposti in laboratorio didattico, partendo da una serie di nozioni introduttive sui fondamenti e l'apparato;
- l'analisi dei dati acquisiti, computer assisted;
- la redazione di relazioni sugli esperimenti condotti.

The lab course is based on the following activities:
- advanced data analysis, starting from a data set stemming from the research activities of the professor in charge;
- run of simple experiments, based on set-ups available in the teaching lab, after an introduction on the principles of the phenomenon being investigated and the experimental set-up;
- analysis of the recorded data;
- write-up of an essay.

Lecture notes made available by the professor in charge.

Students are expected to perform a series of basic experiments (e.g. measurement of the gravitational constant by a Cavendish balance apparatus; characterization of a mechanical oscillator, measurement of g with a Kater pendulum, mechanical equivalent of a prefect gas, and more).
Every experiment will require 2 weeks: during week 1, the student will get acquainted with the problem and the apparatus, will perform it and collect the data. During week 2, he/she will analyze the data by using MATLAB and relying on the outcome of the firs semester courses in programming, statistics & probability.

A series of advanced analyses will also be proposed, based on data collected by the Researchers collaborating with the professor in charge.