Astrophysics of compact objects - course description

General information

Course name	Astrophysics of compact objects
Course ID	13.7-WF-FizD-ACO-S17
Faculty	Faculty of Physics and Astronomy
Field of study	Physics
Education profile	academic
Level of studies	Second-cycle studies leading to MS degree
Beginning semester	winter term 2018/2019

Course information

Semester	4
ECTS credits to win	6
Course type	obligatory
Teaching language	english
Author of syllabus	dr hab. Dorota Rosińska

Classes forms

The class form	Hours per semester (full-time)	Hours per week (full-time)	Hours per semester (part-time)	Hours per week (part-time)	Form of assignment
Lecture	15	1	-	-	Exam
Laboratory	30	2	-	-	Credit with grade

Aim of the course

Deep knowledge in the field of astrophysics of compacts objects

Prerequisites

Basic knowledge of properties of compact objects, of quantum physics and of general relativity. Ability to program and use numerical methods.

Scope

- Equation of state and structure of white dwarfs and neutron stars.
- Non-rotating models of neutron stars.
- Stability of neutron stars and white dwarfs.
- Schwarzschild solution and properties of spherically symmetric black holes.
- Kerr black holes.
- Properties of rotating neutron stars.
- Criteria for the stability of rigidly rotating relativistic stars.
- Astrophysics of compact binaries.
- Compact objects as sources of gravitational waves.

Teaching methods

Lecture and class

Learning outcomes and methods of theirs verification

Outcome description	Outcome symbols	Methods of verification	The class form

Assignment conditions

Lecture: Positive passing of final exam

Class: Handing in homework exercises, oral presentations, passing a written test, a project - writing a program to calculate properties of compact objects. Positive marks of all activities.

Final grade: weighted average of the exam and class (50% and 50% respectively)

Notes

Modified by dr hab. Piotr Lubiński, prof. UZ (last modification: 28-06-2018 22:43)

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