2023-2024 Academic Year 2022-2023 Academic Year 2021-2022 Academic Year 2020-2021 Academic Year 2019-2020 Academic Year 2018-2019 Academic Year 2017-2018 Academic Year 2016-2017 Academic Year 2015-2016 Academic Year 2014-2015 Academic Year 2013-2014 Academic Year 2012-2013 Academic Year
Astronomy in Science II
Course Code Semester
Course Name
LE/RC/LA
Course Type
Language of Instruction
ECTS
FBY0032
Astronomy in Science II
3/0/0
DE
Türkçe
9
Course Goals
To elaborate on the history of Astronomy and the basic subjects of Astronomy.
Prerequisite(s)
Course Code Course Name…
Corequisite(s)
Course Code Course Name…
Special Requisite(s)
The minimum qualifications that are expected from the students who want to attend the course.(Examples: Foreign language level, attendance, known theoretical pre-qualifications, etc.)
Instructor(s)
Professor Dursun Koçer
Course Assistant(s)
Schedule
The course will not be offered for this semester
Office Hour(s)
Instructor name, day, hours, XXX Campus, office number.
Teaching Methods and Techniques
-Simulations and Demonstrations
Principle Sources
- AstroBilgi, Editör Serdar Evren, İKÜ Yayınları, 2020
- Evreni Anlama Serüveni, Editör Tolga Güver, Nobel Yayınları, 2017
Other Sources
-
Course Schedules
Week
Contents
Learning Methods
1. Week
History of Astronomy-1
Lecture Demonstration and Simulation
2. Week
History of Astronomy-2
Lecture Demonstration and Simulation
3. Week
History of Space Studies-1
Lecture Demonstration and Simulation
4. Week
History of Space Studies-2
Lecture Demonstration and Simulation
5. Week
Telescopes
Lecture Demonstration and Simulation
6. Week
Our Home in Space: Earth
Lecture Demonstration and Simulation
7. Week
Formation of the Planetary System
Lecture Demonstration and Simulation
8. Week
Midterm Exam
9. Week
Measuring the Stars
Lecture Demonstration and Simulation
10. Week
Supernova-1
Lecture Demonstration and Simulation
11. Week
Supernova-2
Lecture Demonstration and Simulation
12. Week
Research on black holes
Lecture Demonstration and Simulation
13. Week
Galaxies
Lecture Demonstration and Simulation
14. Week
Exoplanet Research
Lecture Demonstration and Simulation
15. Week
Interdisciplinary Astronomy
Lecture Demonstration and Simulation
16. Week
Final Exam
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
40
Final Exam
1
60
Program Outcomes
PO-1 To acquire the ability of deeply understanding physical concepts, by extending knowledge and experience in physics. PO-2 To be able to understand, interpret, and synthesise interdisciplinary relations. PO-3 To be able to transfer field-specific information to other work groups in written, oral, and visual ways. PO-4 To be able to identify and evaluate problems relevant to the mastering field, by using various databases and bibliographic resources. PO-5 To be able to use the theoretical and applied information which is learned within the mastering field, with the help of information technologies. PO-6 To understand the fundamentals of physics in an advanced way and to acquire the ability of problem solving. PO-7 To adopt acting in accordance with scientific ethics. PO-8 To acquire the ability of reading and writing in at least one foreign language. PO-9 To be able to follow recent developments in the mastering field of physics, by making extensive scans of the literature. PO-10 To be able to develop individual decision and creativity skills.
Course Assessment Matrix:
PO 1 PO 2 PO 3 PO 4 PO 5 PO 6 PO 7 PO 8 PO 9 PO 10