Teacher
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LA FRANCA FABIO
(syllabus)
Topics Part A
• Coordinates and Telescopes • Elements of Spectroscopy • Stars and Stellar Evolution • Galaxies • Active Galactic Nuclei
Program Part 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)
Topics Part B
• Structure and stellar evolution • Elements of Spectroscopy • Distances and expansion of the Universe • Galaxies • GRB and gravitational waves
Program Part B
• Acretion disks and X-ray emission in Active Galactic Nuclei (28.2)
• Stars of Neutrons and Pulsars (16.6, 16.7)
• Gamma Ray Bursts (handouts)
• Gravitational Waves (lecture notes)
• Spectroscopy: eq. Boltzmann-excitation and Saha-ionization (8.1)
• Spectroscopy: speed, temperature and density measurements (handouts)
• Eq. of star structure, time and Kelvin-Helmholtz instability (11.1-4)
• Nuclear reactions of hydrogen (11.3)
• Jeans mass of gravitational collapse, free-fall time and Initial Mass Function (12.2, 12.3)
• The Milky Way and the local group (25.1, 25.2)
• Metallicity (25.2)
• Transit of Venus and measurement of the Earth-Sun distance (handouts)
• Distance scale (27.1)
• Hubble's law and expansion of the Universe (27.2)
• Local Group, Clusters of Galaxies, large scale structure of the Universe (27.3)
• The Big Bang and the background radiation (29.2 brief notes and lecture notes)
(reference books)
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 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
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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Teacher
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MATT GIORGIO
(syllabus)
Topics Part A
• Coordinates and Telescopes • Elements of Spectroscopy • Stars and Stellar Evolution • Galaxies • Active Galactic Nuclei
Program Part 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)
Topics Part B
• Structure and stellar evolution • Elements of Spectroscopy • Distances and expansion of the Universe • Galaxies • GRB and gravitational waves
Program Part B
• Acretion disks and X-ray emission in Active Galactic Nuclei (28.2)
• Stars of Neutrons and Pulsars (16.6, 16.7)
• Gamma Ray Bursts (handouts)
• Gravitational Waves (lecture notes)
• Spectroscopy: eq. Boltzmann-excitation and Saha-ionization (8.1)
• Spectroscopy: speed, temperature and density measurements (handouts)
• Eq. of star structure, time and Kelvin-Helmholtz instability (11.1-4)
• Nuclear reactions of hydrogen (11.3)
• Jeans mass of gravitational collapse, free-fall time and Initial Mass Function (12.2, 12.3)
• The Milky Way and the local group (25.1, 25.2)
• Metallicity (25.2)
• Transit of Venus and measurement of the Earth-Sun distance (handouts)
• Distance scale (27.1)
• Hubble's law and expansion of the Universe (27.2)
• Local Group, Clusters of Galaxies, large scale structure of the Universe (27.3)
• The Big Bang and the background radiation (29.2 brief notes and lecture notes)
(reference books)
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 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
|
Dates of beginning and end of teaching activities
|
From to |
Delivery mode
|
Traditional
|
Attendance
|
not mandatory
|
Evaluation methods
|
Oral exam
|
|