Provide the student with a first view of some of the fundamental topics of Astrophysics and Cosmology using the mathematical and physical knowledge acquired in the first two years
Curriculum
teacher profile teaching materials
• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• The rotation curve of galaxies and dark matter (24.3)
• The center of the Galaxy and its Black Hole (24.4)
• The classification of galaxies (25.1)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
• White dwarfs, Novae and SuperNovae (notes 15, 16)
In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Fruizione: 20410499 Principi di Astrofisica in Fisica L-30 MATT GIORGIO, LA FRANCA FABIO
Programme
Arguments• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• The rotation curve of galaxies and dark matter (24.3)
• The center of the Galaxy and its Black Hole (24.4)
• The classification of galaxies (25.1)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
• White dwarfs, Novae and SuperNovae (notes 15, 16)
Core Documentation
A copy of the lecture notes can be downloaded from the course website.In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Type of evaluation
Type of exam: Orally present a topic of your choice and answer some questions about the rest of the program. Typical questions will consist of asking to explain one of the other topics listed in the program teacher profile teaching materials
• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• White dwarfs, Novae and SuperNovae (notes and partly in 15 and 16)
• The classification of galaxies (24.1)
• The rotation curve of galaxies and dark matter (25.3)
• The center of the Galaxy and its Black Hole (25.4)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Fruizione: 20410499 Principi di Astrofisica in Fisica L-30 MATT GIORGIO, LA FRANCA FABIO
Programme
Arguments• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• White dwarfs, Novae and SuperNovae (notes and partly in 15 and 16)
• The classification of galaxies (24.1)
• The rotation curve of galaxies and dark matter (25.3)
• The center of the Galaxy and its Black Hole (25.4)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
Core Documentation
A copy of the lecture notes can be downloaded from the course website.In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Type of delivery of the course
Lectures are given using the blackboard and by projecting slides. Some exercises are solved.Type of evaluation
Type of exam: Orally present a topic of your choice and answer some questions about the rest of the program. Typical questions will consist of asking to explain one of the other topics listed in the program teacher profile teaching materials
• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• The rotation curve of galaxies and dark matter (24.3)
• The center of the Galaxy and its Black Hole (24.4)
• The classification of galaxies (25.1)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
• White dwarfs, Novae and SuperNovae (notes 15, 16)
In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Fruizione: 20410499 Principi di Astrofisica in Fisica L-30 MATT GIORGIO, LA FRANCA FABIO
Programme
Arguments• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• The rotation curve of galaxies and dark matter (24.3)
• The center of the Galaxy and its Black Hole (24.4)
• The classification of galaxies (25.1)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
• White dwarfs, Novae and SuperNovae (notes 15, 16)
Core Documentation
A copy of the lecture notes can be downloaded from the course website.In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Type of evaluation
Type of exam: Orally present a topic of your choice and answer some questions about the rest of the program. Typical questions will consist of asking to explain one of the other topics listed in the program teacher profile teaching materials
• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• White dwarfs, Novae and SuperNovae (notes and partly in 15 and 16)
• The classification of galaxies (24.1)
• The rotation curve of galaxies and dark matter (25.3)
• The center of the Galaxy and its Black Hole (25.4)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Fruizione: 20410499 Principi di Astrofisica in Fisica L-30 MATT GIORGIO, LA FRANCA FABIO
Programme
Arguments• Coordinates and Telescopes
• Elements of Spectroscopy
• Stars and Stellar Evolution • Galaxies
• Active Galactic Nuclei
Program A
• Overview
• Celestial coordinates (1.3)
• Telescopes and resolving power (6.1)
• Parallax distance (3.1)
• Flux, brightness, apparent and absolute magnitudes, colors (3.2, 3.3, 3.6)
• The black body (3.4, 3.5)
• Hertzsprung-Russel diagram (8.2)
• Open and globular clusters: position, stellar populations and HR diagram (13.3)
• White dwarfs, Novae and SuperNovae (notes and partly in 15 and 16)
• The classification of galaxies (24.1)
• The rotation curve of galaxies and dark matter (25.3)
• The center of the Galaxy and its Black Hole (25.4)
• Hubble's law and expansion of the Universe (27.2)
• Probability of collision between stars and galaxies (handouts)
• Black Holes: outline of General Relativity (outline 17)
• Active Galactic Nuclei (28.1, 28.2, 28.3)
Core Documentation
A copy of the lecture notes can be downloaded from the course website.In brackets, the paragraphs from “An Introduction to Modern Astrophysics, II ed. - B.W. Carrol, D.A. Ostlie - Ed. Pearson, Addison Wesley ”(copies available in the library). The discussion in the course is
has been simplified compared to what is reported in the text. Alternative text in Italian: Attilio Ferrari, Stars, Galaxies, Universe - Fundamentals of Astrophysics - Ed. Springer
Type of delivery of the course
Lectures are given using the blackboard and by projecting slides. Some exercises are solved.Type of evaluation
Type of exam: Orally present a topic of your choice and answer some questions about the rest of the program. Typical questions will consist of asking to explain one of the other topics listed in the program