Unit ATOMIC AND MOLECULAR PROCESSES
- Course
- Chemical sciences
- Study-unit Code
- A002017
- Curriculum
- In all curricula
- Teacher
- Nadia Balucani
- Teachers
-
- Nadia Balucani
- Hours
- 47 ore - Nadia Balucani
- CFU
- 6
- Course Regulation
- Coorte 2022
- Offered
- 2022/23
- Learning activities
- Caratterizzante
- Area
- Discipline chimiche inorganiche e chimico-fisiche
- Academic discipline
- CHIM/03
- Type of study-unit
- Obbligatorio (Required)
- Type of learning activities
- Attività formativa monodisciplinare
- Language of instruction
- English
- Contents
- In questo corso sarà affrontato lo studio dei fenomeni dovuti alle collisioni fra atomi e molecole e ai loro esiti in termini di proprietà macroscopiche dei sistemi chimici. Parte del corso sarà dedicata allo studio dei processi che coinvolgono i nuclei, con elementi di radiochimica e chimica nucleare.
- Reference texts
- Mark Brouard, Title: Reaction Dynamics (Oxford Chemistry Primers)
Peter McPherson, Title: Principles of Nuclear Chemistry (Essential Textbooks in Chemistry)
Lecture notes will be available on Unistudium - Educational objectives
- The main objective of this course is to provide students with general basic knowledge about different aspects, problems and applications of atomic and molecular collisions, including nuclear processes.
In particular:
- the students will be able to explain and discuss the basic theoretical approaches for the description of molecular collisions and reaction dynamics as well as microscopic kinetics
- the students will be able to describe the most common experimental techniques and their limitations to study atomic and molecular collisions
- the students will be able to describe the structure of nuclei and to explain their stability and understand the origin of chemical elements;
- the students will become familiar with the principles of radioactive decay and their kinetics
- the students will understand the interaction of ionizing radiation with matter, the principles of nuclear reactions and their possible use to produce energy. - Prerequisites
- - Physics at the level of First Level degrees in Chemistry (indispensable)
- Knowledge of chemical kinetics at the level of First Level degrees in Chemistry (indispensable)
- Basic knowledge of the structure of atoms and molecules, including atomic and molecular orbitals. - Teaching methods
- Face-to-face + laboratory session
- Learning verification modality
- Oral exam consisting of a discussion lasting about 30-40 minutes, aimed at ascertaining the level of knowledge and understanding achieved by the student on the contents listed in the program. The oral exam will also asess the communication skills and expression capacity of the student.
- Extended program
- • The structure of the nucleus
• Radioactive decay
• Kinetics of radioactive decay
• Nuclear Reactions
• Molecular collisions and elementary reactions
• Potential energy surfaces
• The differential cross section for molecular collisions
• State-specific cross sections
• Microcanonical rate coefficients and thermal rate coefficients
• Vacuum techniques