To provide a basic knowledge on atomic nucleous properties, radioactivity and the laws of the radioactive decay. The understanding of the way in which the radiation interacts with the matter and thus how they can be revealed. To know the mechanisms that regulate key nuclear reactions such as fission. Provide the basis for understanding the effects of radiation on biological material, the radiation dose meaning.
lectures, the slides used during the lessons will be available in aulaweb.
The atomic nucleus structure: binding energy, mass, radius. Nuclear models. Natural radioactivity and the radioactivity decay law. Radioactive decay processes: α and β decay, γ transitions, nuclear fission. Interaction radiation-matter. Radiation measurements : gas counters, scintillation and semiconductor detectors. Nuclear reactions: energetics, cross sections, mechanisms, nuclear fission. Thermonuclear reactions. Radiation biology, dosimetry.
Analytical and technological applications of the radiations.
All the slides used will be available on aulaweb. For further informations the following volumes are suggested:
Radiochemistry and Nuclear Chemistry, G.R.Choppin, J.Liljenzin, J.Rydberg. Nuclear and Radiochemistry, G.Friedlander, J.W.Kennedy, E.S.Macias, J.Malcom Miller.ÂÂ Radiochemistry and Nuclear Chemistry, K Heinrich Lieser. Modern Nuclear Chemistry, W Loveland, D.J Morrissey, G.T Seaborg.
Ricevimento: the teacher is available via email or phone contact
ANNA MARIA CARDINALE (President)
MAURO GIOVANNINI
NADIA PARODI
the start of lessons will be notified as soon as defined the second semester calendar
oral examination
the exam will assess the knowledge of the program's subjects and the ability to apply them to simple real cases
during the course will hold a seminar by a Qualified Expert on the laws in the field of radioprotection.
