International Teaching | NUCLEAR AND SUBNUCLEAR PHYSICS

cod. FS22700002

NUCLEAR AND SUBNUCLEAR PHYSICS

	FS22700002
	DEPARTMENT OF PHYSICS "E. R. CAIANIELLO"
	EQF7
	NANOTECHNOLOGY AND PHYSICS FOR SUSTAINABILITY
	2025/2026

PERCORSO COMUNE

	OBBLIGATORIO
	YEAR OF COURSE 1
	YEAR OF DIDACTIC SYSTEM 2025
	AUTUMN SEMESTER

TEACHING UNITS

SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
FIS/01	4	32	LESSONS	COMPULSORY SUBJECTS, CHARACTERISTIC OF THE CLASS
FIS/01	2	24	LAB	COMPULSORY SUBJECTS, CHARACTERISTIC OF THE CLASS

PROFESSORS

	SALVATORE DE PASQUALE T Curriculum
	ANNALISA DE CARO Curriculum

	Objectives
	General objective - The course aims to present concepts, methods and experimental results of nuclear and subnuclear physics, with particular attention to contemporary research topics. - The course also provides a first approach to the problems of physics in the health sector with particular reference to the use in diagnostics and/or therapy with sources of ionizing radiation, ultrasound and magnetic fields. Knowledge and understanding The student will acquire: - Knowledge in the field of modern physics and the most recent developments in contemporary physics and technologies - Basic knowledge in the use of advanced measurement instruments for the realization of experiments, both in the field of physical disciplines and in interdisciplinary contexts - Knowledge of computer tools that allow the automatic acquisition of data from measurement devices and their processing - Knowledge of experimental physics, nuclear and subnuclear physics, relativity and applied physics, e.g. to medicine - Knowledge of physics of fundamental interactions - Scientific and technological knowledge for entering the world of scientific research or in work environments that require it Ability to apply knowledge and understanding The student will be able to: - Know how to apply methodologies in the field of modern physics and the most recent developments in contemporary physics and emerging technologies - Know how to apply methodologies for the use of advanced measurement instruments for the realization of experiments - Know how to use IT tools that allow the automatic acquisition of data from measurement devices and their processing - Know how to apply methodologies of experimental physics, nuclear and subnuclear physics, high energy and applied physics, e.g. to medicine - Know how to apply scientific and technological knowledge for entering the world of scientific research or in work situations that require it Autonomy of judgment The student will be able to: - Choose and use tools - Interpret experimental data and solve quantitative problems - Choose materials and techniques for a specific process - Evaluate teaching Communication skills The student will be able to: - Work in a group - Communicate with transversal cultural and scientific skills and contexts - Use the English language effectively in written and oral form Learning ability The student will be able to: - Approach problems from transversal contexts in an autonomous manner - Consult databases and other information available online - Consult bibliographical material

General objective
- The course aims to present concepts, methods and experimental results of nuclear and subnuclear physics, with particular attention to contemporary research topics.
- The course also provides a first approach to the problems of physics in the health sector with particular reference to the use in diagnostics and/or therapy with sources of ionizing radiation, ultrasound and magnetic fields.
Knowledge and understanding
The student will acquire:
- Knowledge in the field of modern physics and the most recent developments in contemporary physics and technologies
- Basic knowledge in the use of advanced measurement instruments for the realization of experiments, both in the field of physical disciplines and in interdisciplinary contexts
- Knowledge of computer tools that allow the automatic acquisition of data from measurement devices and their processing
- Knowledge of experimental physics, nuclear and subnuclear physics, relativity and applied physics, e.g. to medicine
- Knowledge of physics of fundamental interactions
- Scientific and technological knowledge for entering the world of scientific research or in work environments that require it
Ability to apply knowledge and understanding The student will be able to:
- Know how to apply methodologies in the field of modern physics and the most recent developments in contemporary physics and emerging technologies
- Know how to apply methodologies for the use of advanced measurement instruments for the realization of experiments
- Know how to use IT tools that allow the automatic acquisition of data from measurement devices and their processing
- Know how to apply methodologies of experimental physics, nuclear and subnuclear physics, high energy and applied physics, e.g. to medicine
- Know how to apply scientific and technological knowledge for entering the world of scientific research or in work situations that require it
Autonomy of judgment
The student will be able to:
- Choose and use tools
- Interpret experimental data and solve quantitative problems
- Choose materials and techniques for a specific process
- Evaluate teaching
Communication skills The student will be able to:
- Work in a group
- Communicate with transversal cultural and scientific skills and contexts
- Use the English language effectively in written and oral form
Learning ability
The student will be able to:
- Approach problems from transversal contexts in an autonomous manner
- Consult databases and other information available online
- Consult bibliographical material

Lessons Timetable

BETA VERSION Data source ESSE3

International Teaching | NUCLEAR AND SUBNUCLEAR PHYSICS