ASTROPHYSICS

Academic Year 2019/2020 - 1° Year - Curriculum ASTROPHYSICS
Teaching Staff: Alessandro Carmelo LANZAFAME
Credit Value: 6
Scientific field: FIS/05 - Astronomy and astrophysics
Taught classes: 42 hours
Term / Semester:

Learning Objectives

This course deals with fundamental aspects of modern Astrophysics and gives the student the possibility of mastering them for the application to research, public outreach, and education in fields of the Science of the Universe. The lectures focus on the theory of the formation of stars and planetary systems, and stellar structure and evolution. They outline basic concepts and applications that have also wide implications for Galactic Astronomy and Cosmology.

Knowledge and understanding. The main goal of the course is to provide the student with a discriminating knowledge of stellar and planet formation mechanisms, of stellar structure and evolution from first principles. The acquisition of discriminating knowledge about the connections to related fields is also part of the course’s objectives.

Applying knowledge and understanding. The course allows the student to acquire skills in identifying the essential elements of astrophysical phenomena, in terms of order of magnitude and necessary approximation level, and in applying the necessary approximations. The student will also be capable of identifying the common theoretical framework amongst different areas and use analogy arguments to apply known solutions to new problems and different astrophysical contexts.

Making judgements. Students will gain the skills needed to compare observational data with theoretical models and plan experiments, if only at a conceptual level, aiming at revealing possible deviation from the models’ predictions.

Communication skills. The course gives the student the possibility of acquiring specific competences for a correct and effective communication of astrophysical topics.

Learning skills. The student can acquire adequate cognitive methods for a continuous update of Astrophysical subjects and the capability to access to the specialised literature in Astrophysical and related fields.


Course Structure

The main concepts are taught in front lectures, which include practical examples. Learning effectiveness is monitored through written exercises and intermediate tests.


Detailed Course Content

STARS AND PLANETS FORMATION. Gravitational instability. Collapse of a spherical cloud. Contraction towards the main sequence. Characteristics of pre-main sequence stars. Accretion phenomena and formation of planetary systems.

STELLAR STRUCTURE AND EVOLUTION. Equations of stellar structure and their solution. Mass dependence of the stellar structure and evolution. Final stages of stellar evolution.


Textbook Information

[1] Kippenhahn R., Weigert A., Weiss A., “Stellar Structure and Evolution”, 2nd edition, Springer-Verlag 2012

[2] T. Padmanabhan, “Theoretical Astrophysics”, Cambridge University Press, 2001

[3] Stahler S.W., Palla F., “The Formation of Stars”, Wiley-VCH, 2005