ASTR112-22S1 (C) Semester One 2022

Astrophysics

15 points

Details:
Start Date: Monday, 21 February 2022
End Date: Sunday, 26 June 2022
Withdrawal Dates
Last Day to withdraw from this course:
  • Without financial penalty (full fee refund): Sunday, 6 March 2022
  • Without academic penalty (including no fee refund): Sunday, 15 May 2022

Description

A cutting-edge introduction to modern astrophysics for those potentially interested in further study, building your expertise in how to apply the tools of physics and mathematics to astronomical situations. We start by explaining how stars shine, and follow their evolution from birth to violent death. We explore the physics of our planetary system and strange new worlds around other stars. We then move out into the cosmos, viewing our own Galaxy across the electromagnetic spectrum: revealing the evidence for dark matter and supermassive black holes. Finally, we use our telescopes as time machines to look out and back in the Universe, studying other galaxy systems, and the origin and fate of the whole Universe. This course requires some mathematical skills; please contact the course organiser for details.

A cutting edge introduction to modern astrophysics for those potentially interested in further study. We start by explaining how stars shine, and follow their evolution from birth to violent death. We explore strange new worlds around other stars and then move out into the cosmos, viewing our own Galaxy across the electromagnetic spectrum and revealing the evidence for Dark Matter and supermassive black holes. We then use our telescopes as time machines to look out and back in the Universe, studying other galaxy systems and the origin and fate of the Universe as a whole. This course requires some mathematical skills, please contact the course organiser for details.

The topics covered in this course are:

SUN AND STARS
How can we study the stars? – characteristics of electromagnetic radiation and matter. The Sun and how it shines. How do we measure distances to stars?; Hertzsprung-Russell diagram; internal stellar structure; stellar evolution; protostar to stellar death – white dwarfs, planetary nebulae, supernovae, neutron stars and black holes.

PLANETS and EXOPLANETS
How do we think planets form, and how do we explain the origin of our own solar system? Ways of finding planets around other stars and the search for life on other worlds

THE MILKY WAY
How do we observe the Galaxy, effects of cosmic dust, the interstellar medium. Galactic rotation and evidence for Dark Matter. Spiral structure. The centre of the Galaxy and supermassive black hole.

GALAXIES AND COSMOLOGY
Galaxies beyond the Milky Way; Hubble’s law and expansion of the Universe; Large-scale structure of the Universe; Active galaxies and quasars; Cosmology – Big Bang & beyond; Dark Energy.

Learning Outcomes

  • The goals of this course are to:
    a) provide foundation knowledge of Astrophysics for students advancing in an astronomy or physics BSc or BSc(Hons) degree.
    b) illustrate key concepts in physics using the medium of astronomy where the Universe becomes our laboratory for studying physics at the largest scales and the extremes of density and temperature.
    Students will obtain basic competency in analysing and solving astrophysical problems. They will also obtain basic astrophysics data analysis skills using software designed to simulate astronomical observations.

    Students will have developed and be able to demonstrate :
  • basic scientific competency to solve mathematical problems in basic astrophysics.
  • basic astrophysics data analysis skills
  • written communication skills.

Timetable 2022

Students must attend one activity from each section.

Lecture A
Activity Day Time Location Weeks
01 Tuesday 10:00 - 11:00 E5 Lecture Theatre
21 Feb - 10 Apr
2 May - 5 Jun
Lecture B
Activity Day Time Location Weeks
01 Wednesday 10:00 - 11:00 E5 Lecture Theatre
21 Feb - 10 Apr
2 May - 5 Jun
Lecture C
Activity Day Time Location Weeks
01 Friday 10:00 - 11:00 E5 Lecture Theatre
21 Feb - 10 Apr
2 May - 5 Jun
Computer Lab A
Activity Day Time Location Weeks
01 Thursday 13:00 - 14:00 Rehua 008 Computer Lab
28 Feb - 6 Mar
14 Mar - 20 Mar
4 Apr - 10 Apr
9 May - 15 May
23 May - 29 May
02 Thursday 14:00 - 15:00 Ernest Rutherford 212 Computer Lab
28 Feb - 6 Mar
14 Mar - 20 Mar
4 Apr - 10 Apr
9 May - 15 May
23 May - 29 May
03 Friday 14:00 - 15:00 Rehua 008 Computer Lab
28 Feb - 6 Mar
14 Mar - 20 Mar
4 Apr - 10 Apr
9 May - 15 May
23 May - 29 May
Drop in Class A
Activity Day Time Location Weeks
01-P1 Thursday 12:00 - 13:00 Jack Erskine 010 Computer Lab
28 Feb - 10 Apr
2 May - 5 Jun
01-P2 Thursday 12:00 - 13:00 Jack Erskine 101
6 Jun - 12 Jun
02 Friday 12:00 - 13:00 Jack Erskine 101 6 Jun - 12 Jun
Tutorial A
Activity Day Time Location Weeks
01 Thursday 13:00 - 14:00 Eng Core 222 & 223 Drawing Office
21 Feb - 27 Feb
7 Mar - 13 Mar
21 Mar - 3 Apr
2 May - 8 May
16 May - 22 May
30 May - 5 Jun
02 Thursday 14:00 - 15:00 Rehua 009
21 Feb - 27 Feb
7 Mar - 13 Mar
21 Mar - 3 Apr
2 May - 8 May
16 May - 22 May
30 May - 5 Jun
03 Friday 14:00 - 15:00 Ernest Rutherford 465
21 Feb - 27 Feb
7 Mar - 13 Mar
21 Mar - 3 Apr
2 May - 8 May
16 May - 22 May
30 May - 5 Jun

Examination and Formal Tests

Test A
Activity Day Time Location Weeks
01 Tuesday 19:00 - 20:00 Online Delivery
28 Mar - 3 Apr

Course Coordinator / Lecturer

Karen Pollard

Lecturers

Michael Albrow and Michele Bannister

Assessment

Assessment Due Date Percentage  Description
Final Exam 55% 3 hour exam
Homework 10% 5 problem solving homework
Computer Laboratories 20% 5 written reports on computer laboratories
Mid-semester Test 15%

Textbooks / Resources

Recommended Reading

Green, S. F. , Jones, Mark H; An introduction to the sun and stars ; Second edition, revised; Cambridge University Press, 2015.

Jones, Mark H. , Lambourne, Robert J., Serjeant, Stephen; An introduction to galaxies and cosmology ; New edition ; Cambridge University Press, 2015.

Numerous other astronomy texts suitable for supplementary reading are available in the Engineering and Sciences Library.

Notes

100-level physics and astronomy course information

Additional Course Outline Information

Academic integrity

Indicative Fees

Domestic fee $926.00

International fee $4,563.00

* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.

For further information see School of Physical & Chemical Sciences on the departments and faculties page .

All ASTR112 Occurrences

  • ASTR112-22S1 (D) Semester One 2022 (Distance) - Not Offered
  • ASTR112-22S1 (C) Semester One 2022