THE PRINCIPLES OF FLUID MECHANICS IN THE CIRCULATORY SYSTEM
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Course Title:
THE PRINCIPLES OF FLUID MECHANICS IN THE CIRCULATORY SYSTEM
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Course Code:
TIP1090
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Type of Course:
Optional
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Level of Course:
First Cycle
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Year of Study:
1
6
Semester:
2
7
ECTS Credits Allocated:
2
8
Theoretical (hour/week):
1
9
Practice (hour/week) :
0
10
Laboratory (hour/week) :
0
11
Prerequisites:
None
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Recommended optional programme components:
None
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Language:
Turkish
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Mode of Delivery:
Face to face
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Course Coordinator:
Öğr.Gör. Tıp Fakültesi Öğrenci İşleri
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Course Lecturers:
Yrd. Doç. Dr. Engin SAĞDİLEK
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Contactinformation of the Course Coordinator:
Yrd. Doç. Dr. Engin SAĞDİLEK Uludağ Üniversitesi, Tıp fakültesi, Temel Tıp Bilimleri, Biyofizik Anabilim Dalı, 16059, Nilüfer, BURSA
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Website:
http://tip.uludag.edu.tr/egitimprogramlari.php
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Objective of the Course:
As a liquid and fluid blood, which is one of the basic branches of physics with the principles of fluid mechanics is the main objective of this course examination. Basic properties of liquids and fluids, hydrostatic laws, basic concepts of the hydrodynamics, blood pressure, blood flow, blood flow properties, aneurysms, and as a whole circulatory system dynamic’s grasp of this course targets.
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Contribution of the Course to Professional Development
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Learning Outcomes:
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To establish the basic characteristics of the liquids and fluids.;
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To understand the basic laws of the hydrostatic and hydrodynamics.;
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To establish the relationship between the blood and the principles of fluid mechanics.;
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To understand the blood pressure and blood flow.;
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To establish the relationship between the blood flow disorders and the circulatory system diseases.;
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Course Content:
Week
Theoretical
Practical
1
Introduction, general properties of fluids
2
Hydrostatic pressure, blood pressure
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The basic concepts of hydrodynamic, flow rate, flow, Continuity principle, Bernoulli's law
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Flow, pressure, resistance, Poiseuille law
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Viscosity
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Newtonian and non-Newtonian fluids, Laminar flow and Turbulent flow
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Wall stress and Laplace law
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Aneurysms
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Hemorheology
10
Hemorheology
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Dynamics of the circulatory system
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Dynamics of the circulatory system
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Dynamics of the circulatory system
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Dynamics of the circulatory system
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Textbooks, References and/or Other Materials:
1. Herman IP. Physics of the Human Body. Springer; 2006. 2. Pehlivan F. Biyofizik. 2. baskı. Hacettepe-TAŞ: 2004. 3. Çelebi G. Biyomedikal Fizik. 4. Baskı. İzmir; Barış Yayınları: 2008. 4. Serway RA. Physics: For Scientists & Engineers. Saunders; 1992. 5. Waite L, Fine J. Applied Biofluid Mechanics. McGraw-Hill Companies; 2007. 6. Guyton AC, Hall JE. Textbook of Medical Physiology. 11th ed. Elsevier; 2007. 7. Widmaier EP, Raff H, Strang KT. Vander İnsan Fizyolojisi. 10. baskı. İzmir; Güven Kitabevi: 2010. 8. Barrett KE, Barman SM, Boitano S, Brooks HL. Ganong's Review of Medical Physiology. 23rd ed. USA: McGraw-Hill Companies; 2010.
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Assesment
TERM LEARNING ACTIVITIES
NUMBER
PERCENT
Midterm Exam
1
40
Quiz
0
0
Homeworks, Performances
0
0
Final Exam
1
60
Total
2
100
Contribution of Term (Year) Learning Activities to Success Grade
40
Contribution of Final Exam to Success Grade
60
Total
100
Measurement and Evaluation Techniques Used in the Course
Information
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ECTS / WORK LOAD TABLE
Activites
NUMBER
TIME [Hour]
Total WorkLoad [Hour]
Theoretical
14
1
14
Practicals/Labs
0
0
0
Self Study and Preparation
14
1
14
Homeworks, Performances
0
0
0
Projects
0
0
0
Field Studies
0
0
0
Midtermexams
1
16
16
Others
0
0
0
Final Exams
1
16
16
Total WorkLoad
76
Total workload/ 30 hr
2
ECTS Credit of the Course
2
26
CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS
