| Biomedical Engineering (English) | |||||
| Bachelor | TR-NQF-HE: Level 6 | QF-EHEA: First Cycle | EQF-LLL: Level 6 | ||
| Course Code: | UNI319 | ||||
| Course Name: | Medicine and Art | ||||
| Semester: | Fall | ||||
| Course Credits: |
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| Language of instruction: | English | ||||
| Course Condition: | |||||
| Does the Course Require Work Experience?: | No | ||||
| Type of course: | University Elective | ||||
| Course Level: |
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| Mode of Delivery: | E-Learning | ||||
| Course Coordinator: | Öğr. Gör. SELİN URSAVAŞ | ||||
| Course Lecturer(s): | Öğr. Gör. Selin URSAVAŞ | ||||
| Course Assistants: |
| Course Objectives: | Understanding the relation between medicine and art. Learns the connection between medical science and art. Gains a different perspective on medicine and art. Provides contributions to moral and personal development. Provides a basis for communication skills in professional life. |
| Course Content: | The relationship of medicine with art. Reflections of medicine in art. Contribution of medicine to the artist. |
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The students who have succeeded in this course;
1) Learns the connection between medical science and art. 2) Gains a different perspective on medicine and art. 3) Provides contributions to moral and personal development. 4) Provides a basis for communication skills in professional life. 5) gains the ability to see the medical foundations of artistic studies. 6) learn how the development of medicine and art develop together. |
| Week | Subject | Related Preparation |
| 1) | Meeting, information about the course, movie and reading suggestions | |
| 2) | The relationship between medicine and art | |
| 3) | Paintings about medical sciences | |
| 4) | Music theraphy in medicine | |
| 5) | Movies on medicine-1 | |
| 6) | Movies on medicine-2 | |
| 7) | Movies on medicine-3 | |
| 8) | Movies on medicine-4 | |
| 9) | Medicine and human sciences | |
| 10) | Human body exhibition and medical illustration | |
| 11) | Creative doctors | |
| 12) | Books on Medicine-1 | |
| 13) | Books on Medicine-2 | |
| 14) | Books on Medicine-3 | |
| 15) |
| Course Notes / Textbooks: | 1.Ünlü Ressamlar Hayatları ve Eserleri / SADUN ALTUNA 2. Tıbbi Mucizeler / DR. EUGENE W. STRAUS, ALEX STRAUS 3.Sapiens / YUVAL NOAH HARARİ 4.Bilim İnsanları Bir Keşif Destanı / ANDREW ROBİNSON |
| References: | 1.Ünlü Ressamlar Hayatları ve Eserleri / SADUN ALTUNA 2. Tıbbi Mucizeler / DR. EUGENE W. STRAUS, ALEX STRAUS 3.Sapiens / YUVAL NOAH HARARİ 4.Bilim İnsanları Bir Keşif Destanı / ANDREW ROBİNSON 5. https://bodyworlds.com/ 6. https://www.ami.org/medical illustration/enter the profession/careers 7.https://www.medillsb.com/illustration_image_details.aspx?AID=257 &IID=270945 8.Somakcı , Pınar, Sosyal Bilimler Enstitüsü Dergisi Sayı : 15 Yıl : 2003/2 (131 140 s.) 9.Gençel , Özge, Ekim 2006 Cilt:14 No:2 Kastamonu Eğitim Dergisi 697706 10.Birkan, Işıl, Ankara Akupunktur ve Tamamlayıcı Tıp Dergisi, 2014 11.Karamızrak , Neslihan, Koşuyolu Heart Journal 2014 12.Burçin UÇANER, Birsen ÖZTÜRK, 1 3 Mayıs 2009 1. Uluslararası Eğt.Arş.Kongresi , Çanakkale 18 Mart Üniversitesi 13.Sanat ve Tıp: Musa Albükrek 14.Tıp ve Sanat: Faik Çelik 15. https://www.antropoloji.net/index.php?option=com_content&view=ar ticle&id=154:tibbi antropolojinin calisma alanlari&catid=82&Itemid=475 16.http://www.bilgius.com/tag/insan bilimleri nelerdir/ 17.http://tr.wikipedia.org/wiki 18.http://upload.wikimedia.org/wikipedia/commons/8/88/W.H.R.Rivers_ %28Maull%29.jpg 19.http://www.kirilmetodiuniversitesi.com/images/etnoloji ve antropoloji_clip_image008.jpg |
| Course Learning Outcomes | 1 |
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| Program Outcomes | |||||||||||
| 1) Adequate knowledge of mathematics, science and biomedical engineering disciplines; Ability to use theoretical and applied knowledge in these fields in solving complex engineering problems. | |||||||||||
| 2) Ability to identify, formulate and solve complex biomedical engineering problems; ability to select and apply appropriate analysis and modeling methods for this purpose. | |||||||||||
| 3) Ability to design a complex system, process, device or product to meet specific requirements under realistic constraints and conditions; ability to apply modern design methods for this purpose. | |||||||||||
| 4) Ability to select and use modern techniques and tools necessary for the analysis and solution of complex problems encountered in biomedical engineering practices; Ability to use information technologies effectively. | |||||||||||
| 5) Ability to design, conduct experiments, collect data, analyze and interpret results for the investigation of complex biomedical engineering problems or discipline-specific research topics. | |||||||||||
| 6) Ability to work effectively in disciplinary and multi-disciplinary teams; individual working skills. | |||||||||||
| 7) Ability to communicate effectively orally and in writing; knowledge of at least one foreign language, ability to write effective reports and understand written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions. | |||||||||||
| 8) Awareness of the necessity of lifelong learning; the ability to access information, follow developments in science and technology, and constantly renew oneself. | |||||||||||
| 9) Knowledge of ethical principles, professional and ethical responsibility, and standards used in engineering practices. | |||||||||||
| 10) Knowledge of business practices such as project management, risk management and change management; awareness of entrepreneurship, innovation; information about sustainable development. | |||||||||||
| 11) Information about the effects of biomedical engineering practices on health, environment and safety in universal and social dimensions and the problems of the age reflected in the field of engineering; Awareness of the legal consequences of biomedical engineering solutions. | |||||||||||
| No Effect | 1 Lowest | 2 Average | 3 Highest |
| Program Outcomes | Level of Contribution | |
| 1) | Adequate knowledge of mathematics, science and biomedical engineering disciplines; Ability to use theoretical and applied knowledge in these fields in solving complex engineering problems. | |
| 2) | Ability to identify, formulate and solve complex biomedical engineering problems; ability to select and apply appropriate analysis and modeling methods for this purpose. | |
| 3) | Ability to design a complex system, process, device or product to meet specific requirements under realistic constraints and conditions; ability to apply modern design methods for this purpose. | |
| 4) | Ability to select and use modern techniques and tools necessary for the analysis and solution of complex problems encountered in biomedical engineering practices; Ability to use information technologies effectively. | |
| 5) | Ability to design, conduct experiments, collect data, analyze and interpret results for the investigation of complex biomedical engineering problems or discipline-specific research topics. | |
| 6) | Ability to work effectively in disciplinary and multi-disciplinary teams; individual working skills. | |
| 7) | Ability to communicate effectively orally and in writing; knowledge of at least one foreign language, ability to write effective reports and understand written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions. | |
| 8) | Awareness of the necessity of lifelong learning; the ability to access information, follow developments in science and technology, and constantly renew oneself. | |
| 9) | Knowledge of ethical principles, professional and ethical responsibility, and standards used in engineering practices. | |
| 10) | Knowledge of business practices such as project management, risk management and change management; awareness of entrepreneurship, innovation; information about sustainable development. | |
| 11) | Information about the effects of biomedical engineering practices on health, environment and safety in universal and social dimensions and the problems of the age reflected in the field of engineering; Awareness of the legal consequences of biomedical engineering solutions. |
| Semester Requirements | Number of Activities | Level of Contribution |
| Homework Assignments | 2 | % 100 |
| total | % 100 | |
| PERCENTAGE OF SEMESTER WORK | % 100 | |
| PERCENTAGE OF FINAL WORK | % | |
| total | % 100 | |
| Activities | Number of Activities | Preparation for the Activity | Spent for the Activity Itself | Completing the Activity Requirements | Workload | ||
| Course Hours | 2 | 1 | 2 | 14 | 34 | ||
| Presentations / Seminar | 2 | 2 | 2 | 4 | 16 | ||
| Project | 2 | 4 | 16 | 20 | 80 | ||
| Total Workload | 130 | ||||||