FACULTY OF COMMUNICATION
Department of New Media and Communication
GENS 212 | Course Introduction and Application Information
Course Name |
History and Philosophy of Astronomy
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Code
|
Semester
|
Theory
(hour/week) |
Application/Lab
(hour/week) |
Local Credits
|
ECTS
|
GENS 212
|
Fall/Spring
|
3
|
0
|
3
|
5
|
Prerequisites |
None
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Course Language |
English
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Course Type |
Service Course
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Course Level |
First Cycle
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Mode of Delivery | - | |||||
Teaching Methods and Techniques of the Course | - | |||||
Course Coordinator | ||||||
Course Lecturer(s) | ||||||
Assistant(s) | - |
Course Objectives | This course will examine the history and philosophy of astronomy in a way accessible to students of all majors and levels. Commencing from prehistory, emphasis will be placed both on lessons learned from past scientific developments and on open issues to stress the dynamics of discovery, including dark matter and cosmological questions about the Big Bang and the “multiverse.” Analysis of the impact of astronomical research will consider industrial benefits, mention of the novel phenomenon of commercial space and societal change from the artistic, literary, and philosophical standpoints, including also science straying into metaphysics. The contribution given by women throughout history will be explicitly showcased to provide a balanced view. Finally we shall consider the colonization of Mars, the dream of interstellar exploration, and the history and philosophical implications of the possible discovery of alien life in the universe, including intelligent civilizations. |
Learning Outcomes |
The students who succeeded in this course;
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Course Description |
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Core Courses | |
Major Area Courses | ||
Supportive Courses | ||
Media and Management Skills Courses | ||
Transferable Skill Courses |
WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES
Week | Subjects | Related Preparation |
1 | Introduction, the Solar System, our Universe | No-advanced-math based concept summary and essential concepts from: NASAS: Planets, Moons, Asteroids, Comets and Meteors. BSF: Part I; BSFWB: Ch. 1; PINLN |
2 | Prehistory, archeoastronomy, ancient Egypt | No-advanced-math based concept summary and essential concepts from: RMPI: pp 3-47; TESA: Ch. 4 PINLN |
3 | Basic naked-eye astronomy, observing the sky | No-advanced-math based concept summary and essential concepts from: PINLN |
4 | Babylonian mathematics and astronomy | No-advanced-math based concept summary and essential concepts from: TESA: Ch. 1-3, 5 PINLN |
5 | Greek philosophy and astronomy I | No-advanced-math based concept summary and essential concepts from: TESA: Ch. 6 HWP: Part I–The Presocratics PSC: Prologue PINLN |
6 | Greek philosophy and astronomy II | No-advanced-math based concept summary and essential concepts from: HWP: Part II–Socrates, Plato, Aristotle GINPTO PINLN |
7 | The Middle Ages and Astronomy in Islam | No-advanced-math based concept summary and essential concepts from: PSC: Ch. 2 (Historical Perspectives) PINLN |
8 | The Copernican Revolution, Tycho, and Kepler | No-advanced-math based concept summary and essential concepts from: HWP: Bk 3, Pt. VI–The Rise of Science PINLN |
9 | Galileo, the telescope, Newton, and mechanics | No-advanced-math based concept summary and essential concepts from: PINGT; PSC: Ch. 3, 5 (gravitation) PINLN |
10 | Midterm I | |
11 | Triumphs and failures. Einstein and relativity | No-advanced-math based concept summary and essential concepts from: PSC: Ch. 8, 9, 26 SGT: Part II PINLN |
12 | Space exploration. The race to the Moon | No-advanced-math based concept summary and essential concepts from: NASARS: 1-26; BSFWB: Ch. 4; BSF: Ch. 9 PINLN |
13 | Project I | |
14 | Exploring Mars. Interstellar space. Alien life | No-advanced-math based concept summary and essential concepts from: BSFWB: Ch. 9; BSF: Ch. 13; NASAINS; ESAEXB: II.3; PINLN |
15 | Project II | |
16 | Final exam |
Course Notes/Textbooks | NASA Science, Our Solar System, https://solarsystem.nasa.gov/solar-system/our-solar-system/overview/ : NASAS. A. B. Chace, The Rhind Mathematical Papyrus (Vol. I) (Mathematical Association of America, Oberlin, Ohio, 1927): RMPI. O. Neugebauer, The Exact Sciences in Antiquity (Dover Publications, New York, 1969): TESA. B. Russel, History of Western Philosophy (George Allen and Unwin Ltd., Great Britain, 1947): HWP. T. S. Kuhn, The Structure of Scientific Revolutions (The University of Chicago, Chicago, 1970): SOSR. K. Popper, The Logic of Scientific Discovery (Routledge, London, 2005): LOSD. P. Feyerabend, “How to defend society against science,” in Scientific Revolutions, Ian Hacking, Ed. (Oxford University Press, Oxford, 1981): FEYDS. O. Gingerich, “Was Ptolemy a fraud?” Q. Jl. R. astr. Soc., 21, 253-266 (1980): GINPTO. F. Pinto, “Giants’ Talk,” The Griffith Observer, 2-18, 9, 1992: PINGT. A. Einstein, Relativity: The special and general theory (Methuen & Co Ltd, 1920): SGT. G. W. Mason, Physical Science Concepts (BYU Univ. Press, 1997): PSC. NASA, Adventures in Rocket Science (NASA, 2008): NASARS. D. Doody and G. Stephan, Basics of Spaceflight: Learners’ Workbook (JPL, 1995): BSFWB. D. Doody, Basics of Spaceflight (JPL, 2011): BSF. NASA, Mars InSight Launch Press Kit (2018): NASAINS. F. Pinto, “Engines powered by the forces between atoms,” Am. Sci., 102, 280-289 (2014): PINEFBA. ESA, Exobiology in the Solar System & The Search for Life on Mars (1999): ESAEXB. F. Pinto, Lecture Notes: PINLN. |
Suggested Readings/Materials | - |
EVALUATION SYSTEM
Semester Activities | Number | Weigthing |
Participation | ||
Laboratory / Application | ||
Field Work | ||
Quizzes / Studio Critiques | ||
Portfolio | ||
Homework / Assignments | ||
Presentation / Jury | ||
Project |
2
|
40
|
Seminar / Workshop | ||
Oral Exams | ||
Midterm |
1
|
20
|
Final Exam |
1
|
40
|
Total |
Weighting of Semester Activities on the Final Grade |
3
|
60
|
Weighting of End-of-Semester Activities on the Final Grade |
1
|
40
|
Total |
ECTS / WORKLOAD TABLE
Semester Activities | Number | Duration (Hours) | Workload |
---|---|---|---|
Theoretical Course Hours (Including exam week: 16 x total hours) |
16
|
3
|
48
|
Laboratory / Application Hours (Including exam week: '.16.' x total hours) |
16
|
0
|
|
Study Hours Out of Class |
16
|
4
|
64
|
Field Work |
0
|
||
Quizzes / Studio Critiques |
0
|
||
Portfolio |
0
|
||
Homework / Assignments |
0
|
||
Presentation / Jury |
0
|
||
Project |
2
|
14
|
28
|
Seminar / Workshop |
0
|
||
Oral Exam |
0
|
||
Midterms |
1
|
5
|
5
|
Final Exam |
1
|
5
|
5
|
Total |
150
|
COURSE LEARNING OUTCOMES AND PROGRAM QUALIFICATIONS RELATIONSHIP
#
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Program Competencies/Outcomes |
* Contribution Level
|
||||
1
|
2
|
3
|
4
|
5
|
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1 | To be able to critically discuss and interpret the theories, concepts and ideas that form the basis of the discipline of new media and communication. |
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2 | To be able to critically interpret theoretical debates concerning the relations between the forms, agents, and factors that play a role in the field of new media and communication. |
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3 | To have the fundamental knowledge and ability to use the technical equipment and software programs required by the new media production processes. |
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4 | To be able to gather, scrutinize and scientifically investigate data in the processes of production and distribution. |
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5 | To be able to use the acquired theoretical knowledge in practice. |
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6 | To be able to take responsibility both individually and as a member of a group to develop solutions to problems encountered in the field of new media and communication. |
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7 | To be informed about national, regional, and global issues and problems; to be able to generate problem-solving methods depending on the quality of evidence and research, and to acquire the ability to report the conclusions of those methods to the public. |
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8 | To be able to critically discuss and draw on theories, concepts and ideas that form the basis of other disciplines complementing the field of new media and communication studies. |
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9 | To be able to develop and use knowledge and skills towards personal and social goals in a lifelong process. |
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10 | To be able to apply social, scientific and professional ethical values in the field of new media and communication. |
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11 | To be able to collect datain the areas of new media and communication and communicate with colleagues in a foreign language ("European Language Portfolio Global Scale", Level B1). |
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12 | To be able to speak a second foreign language at a medium level of fluency efficiently. |
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13 | To be able to relate the knowledge accumulated throughout the human history to their field of expertise. |
*1 Lowest, 2 Low, 3 Average, 4 High, 5 Highest
NEWS |ALL NEWS
‘Media’ Summit at Izmir University of Economics
International Press Institute (IPI) organized a symposium on ‘Economy and Financial Sustainability of Media’ hosted by Izmir University of Economics (IUE).
Received a special invitation from the USA for the Italian director's documentary
Dr. Alper Gedik, Lecturer at Department of New Media and Communication, Izmir University of Economics (IUE), went to the USA to introduce
Laura Aymerich-Franch visited our department
Laura Aymerich-Franch who is currently a senior research fellow at Pompeu Fabra University (Barcelona) was a visiting scholar in the Department of
Women and the Media in the Middle East
Assoc. Prof. Dr. Nahed Eltantawy, who will be visiting the Media and Communication Department as a part of the Fulbright Specialist Program,
A Partnership Agreement between the Department of Media and Communication and Izmir Journalists Association
“Local Media in Izmir”, a panel organized by the Department of Media and Communication, Izmir University of Economics, was held on Thursday
YAYINCILIKTA TELİF HAKLARI İEÜ’DE TARTIŞILDI
İzmir Ekonomi Üniversitesi, “Radyo Televizyon Yayıncılığı ve Telif” konferans ve sergisine ev sahipliği yaptı. İEU İletişim Fakültesi Dekanı Prof. Dr. Ebru Uzunoğlu’nun