FY535: Astrophysics and Introduction to Cosmology

Study Board of Science

Teaching language: Danish or English depending on the teacher, but English if international students are enrolled
EKA: N500019102
Assessment: Second examiner: Internal
Grading: 7-point grading scale
Offered in: Odense
Offered in: Autumn
Level: Bachelor

STADS ID (UVA): N500019101
ECTS value: 5

Date of Approval: 19-01-2023


Duration: 1 semester

Version: Approved - active

Comment

The course is co-read with FY836

Entry requirements

The course cannot be chosen by students who have passed FY806 Astrophysics. FY817 Introduction to Astrophysics and Cosmology or FY836  Astrophysics and Introduction to Cosmology.

Academic preconditions

Knowledge of special relativity and quantum mechanics.

Course introduction

The aim of the course is to give an overview of the subatomic structure of matter (nuclei and elementary particles), and a basic understanding of star formation, stability and evolution. The course includes an introduction also to cosmology, the Big Bang theory and the evolution of the universe.

The course builds on the knowledge acquired in the courses FY544 Quantum mechanics I (5 ECTS) and FY547 Quantum mechanics II (5 ECTS) and gives an academic basis for studying the topics of astrophysics and cosmology, that are part of the degree.

In relation to the competence profile of the degree it is the explicit focus of the course to:
  • Give the competence to follow a general relativity course
  • Give skills to do analytical and numerical calculations in astrophysics and cosmology
  • Give knowledge and understanding of basic concepts in astrophysics and cosmology

Expected learning outcome

The learning objective of the course is that the student demonstrates the ability to:

  • give an overview on an elementary level of the forces of nature governing the universe
  • explain basic reactions on the subatomic level (nuclei and elementary particles)
  • understand the basics of the evolution of the universe
  • explain the mechanisms governing birth, development and death of the stars

Content

The following main topics are contained in the course:

  • Star classification, formation, stability, energy transport and evolution.
  • Introduction to elementary particles, fundamental forces, nuclei and nuclear models.
  • Introduction to the Big Bang theory and evolution of the universe.

Literature

Halliday, Resnick, Krane: Physics Vol 2, Wiley 5th ed.
J. Christensen-Dalsgaard: Stellar Structure and Evolution, Lecture Notes, Aarhus Universitet.
B. Ryden: Introduction to Cosmology, Addison-Wesley, 2003.

See itslearning for syllabus lists and additional literature references.

Examination regulations

Exam element a)

Timing

January

Tests

Written exam

EKA

N500019102

Assessment

Second examiner: Internal

Grading

7-point grading scale

Identification

Student Identification Card

Language

Normally, the same as teaching language

Duration

4 hours

Examination aids

The exam is without aids. However, standard build in calculator in Windows/MAC are allowed. It is also allowed to use Maple, Mathematica, Mathcad, MathLab, GeoGebra Apps, R, R-Studio, CAS TI-Nspire, Ms Excel or LibreOffice Calc. WordMat is allowed but not recommended. Use of WordMat is at your own risk and no support is provided for errors caused by the program. Furthermore, it is also allowed to use language translation dictionaries (e.g. Danish/English, Danish/German, Danish/French and Danish/Spanish etc) in "ordbogsprogrammet" (the dictionary programme) from http://www.ordbogen.com/ in electronic form. The browser version is not allowed. All dictionaries other than language translation dictionaries (e.g. chemical dictionary, clinical dictionary, etc.) must be switched off in “ordbogsprogrammet”(the dictionary programme).

Internet is not allowed during the exam. However, you may visit system "DE-Digital eksamen".

ECTS value

5

Additional information

The re-exam is changed to an oral exam if there are 10 or fewer students registered.

Indicative number of lessons

48 hours per semester

Teaching Method

At the faculty of science, teaching is organized after the three-phase model ie. intro, training and study phase.
  • Intro phase (lectures): 32 hours
  • Skills training phase: 16 hours
Lectures and assignments which are related to the topics taught in the lectures.

Activities during the study phase: During the study phase, students are expected to work with self-study of the textbook and examples and tasks in this. In addition, written home assignments form part of the study phase, and students can expect feedback from a teacher.

Teacher responsible

Name E-mail Department
Roman Gold gold@sdu.dk Fysik

Additional teachers

Name E-mail Department City
Mikkel Theiss Kristensen mtkr@sdu.dk Fysik

Timetable

Administrative Unit

Fysik, kemi og Farmaci

Team at Educational Law & Registration

NAT

Offered in

Odense

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Transition rules

Transitional arrangements describe how a course replaces another course when changes are made to the course of study. 
If a transitional arrangement has been made for a course, it will be stated in the list. 
See transitional arrangements for all courses at the Faculty of Science.