The aim of the course is to understand the methods of scientific discoveries, learn about the universe, stars, galaxies and other celestial objects, understand the structure of the universe and our place in the universe.
Prerequisite(s)
N/A
Corequisite(s)
N/A
Special Requisite(s)
none
Instructor(s)
Professor Dursun Koçer
Course Assistant(s)
Schedule
Tuesdays 13:00-15:00, ZD3
Office Hour(s)
Tuesday, 15:00-16:00, 3A-3
Teaching Methods and Techniques
-Multimedia demonstration, simulations
Principle Sources
· AstroBilgi, Editör Serdar Evren, İKÜ Yayınları, 2020
· Evreni Anlama Serüveni, Editör Tolga Güver, Nobel Yayınları, 2017
Other Sources
-Astronomy Today”, 8th Edition, E. Chaisson, S. McMillan, 2014, Pearson
Course Schedules
Week
Contents
Learning Methods
1. Week
Light Pollution and Its Consequences
Lecture demonstration and simulation
2. Week
A cosmic voyage into the Universe-1
Lecture demonstration and simulation
3. Week
A cosmic voyage into the Universe-2
Lecture demonstration and simulation
4. Week
The Birth of Modern Science
Lecture demonstration and simulation
5. Week
Solar System and Beyond -1
Lecture demonstration and simulation
6. Week
Solar System and Beyond -2
Lecture demonstration and simulation
7. Week
Our Star: The Sun
Lecture demonstration and simulation
8. Week
Midterm Exam
9. Week
Introduction to Stars
Lecture demonstration and simulation
10. Week
The Evolution of Stars -1: Dwarfs
Lecture demonstration and simulation
11. Week
The Evolution of Stars-2: Giants
Lecture demonstration and simulation
12. Week
Our Galaxy: The Milky Way
Lecture demonstration and simulation
13. Week
Space Exploration -1
Lecture demonstration and simulation
14. Week
Space Exploration -2
Lecture demonstration and simulation
15. Week
Interdisciplinary Astronomy
Lecture demonstration and simulation
16. Week
Final
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
40
Final Exam
1
60
Program Outcomes
PO-1
To understand correctly the fundamental concepts and laws of physics, and their interrelationships.
PO-2
To acquire skills of physical reasoning and problem solving.
PO-3
To be equipped with the mathematical tools required to investigate problems of theoretical and applied physics.
PO-4
To acquire abilities of designing, making, and evaluating experiments by both individual and team work forms.
PO-5
To acquire the power of using information technologies in analysing physical problems, and developing numerical models.
PO-6
To form a conceptual framework in physical science and acquire the ability of expressing various topics in physics in a simple and comprehensive manner.
PO-7
To acquire awareness of professional and ethical responsibilities.
PO-8
To acquire the ability of using at least one foreign language in physics.
PO-9
To acquire the ability of self-development by appreciating the importance of lifelong learning and by following recent developments in physics.
PO-10
To acquire the abilities of taking independent decisions, taking initiatives, and creativity skills.
Learning Outcomes
LO-1
Understanding our place in the universe
LO-2
comparing the structure of our universe from micro to macro
LO-3
Exemplifying key discoveries are made with a scientific policy