Veidlapa Nr. M-3 (8)
Study Course Description
Physics
Course Code
FK_055
Branch of Science
Other medical sciences
ECTS
3.00
Target Audience
Public Health
LQF
Level 6
Study Type And Form
Full-Time
Study Course Implementer
Course Supervisor
Andris Mikulis
Structure Unit Manager
Jevgenijs Proskurins
Structural Unit
Department of Physics
Contacts
Riga, 26a Anninmuizas boulevard, 1st floor, Rooms No 147 a and b, fizika@rsu.lv, +371 67061539
About Study Course
Objective
1. To promote the knowledge acquisition of general matters in medical physics; 2. To promote understanding of the importance of physics and mathematical equipment in principles of medical diagnostic equipment and in diagnosis of diseases; 3. To acquire types of tasks in medical physics (biomechanics, blood flow, eye’s optical system, hearing) and their methods of calculation.
Preliminary Knowledge
Knowledge of mathematics and physics.
Learning Outcomes
Knowledge
1.Upon successful completion of the course, students will be able to: 1. Use medical physics terminology correctly. 2. State importance of physics and mathematics in medicine and in the processes of disease diagnostics. 3. Describe physical properties of parameters acquired in medical diagnostics and methods of acquiring. 4. Explain basic principles in diagnostics of cardio-vascular diseases. 5. Explain formation of blood transfusion and syringe from the point of physical-mathematical perspective. 6. Name and evaluate effects that the range of electromagnetic spectrum has on human health. 7. Explain the structure of medical laser, principles of function, use in medicine and laser safety. 8. Explain the structure and operational principles of medical diagnostics equipment and direction of further development. 9. Assess physical world effects on the human body and the protective measures of the adverse effects. 10. Explain operating principles of X-ray and computed tomography and use in medicine.
Skills
1.Upon successful acquisition of the course, the students will be able to: 1. Process physical measurement data. 2. Use the terminology of medical physics. 3. Measure and assess the background radiation values.
Competences
1.Upon successful acquisition of the course, the students will be able to assess physical (both natural and technological) phenomena, their effect on the human body and to justify their application in medical diagnostics.
Assessment
Individual work
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Title
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% from total grade
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Grade
|
|---|---|---|
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1.
Individual work |
-
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-
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During the course the students do individual and pair work – development of laboratory work according to the course themes; they study the given resources and scientific publications. Tasks about the blood flow, the structure of syringes, blood transfusion, calculation of the human body frame parameters.
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Examination
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Title
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% from total grade
|
Grade
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|---|---|---|
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1.
Examination |
-
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-
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Students participation in practical classes, individual assignment in the seminar and results of the practical work during the colloquium are evaluated. There are different types of test questions in the exam.
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Study Course Theme Plan
FULL-TIME
Part 1
-
Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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Off site
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Video
|
2
|
Topics
|
Electricity
|
-
Lecture
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Modality
|
Location
|
Contact hours
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|---|---|---|
|
Off site
|
Video
|
2
|
Topics
|
Acoustics
|
-
Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
|
Off site
|
Video
|
2
|
Topics
|
Optics
|
-
Lecture
|
Modality
|
Location
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Contact hours
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|---|---|---|
|
Off site
|
Video
|
2
|
Topics
|
Ionizing radiation
|
-
Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
|
Off site
|
Video
|
2
|
Topics
|
Fundamentals of physics
|
-
Lecture
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Modality
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Location
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Contact hours
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|---|---|---|
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Off site
|
Video
|
2
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Topics
|
Magnetism
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
|
On site
|
Computer room
|
2
|
Topics
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Introduction to Physics department and physics laboratory. Safety regulations. Applications of mathematics to medical problems.
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
|
Computer room
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2
|
Topics
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Transducers. Electric measurements of non-electric physical quantities. Practical work: Thermoelectric transducers.
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
|
Computer room
|
2
|
Topics
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Mechanical waves. Sound and its physical characteristics. Logarithmic scales. Physical basics of clinical acoustic examination methods. Acoustic measurements and their application in medicine. Acoustic methods in medical diagnostics.
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-
Class/Seminar
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Modality
|
Location
|
Contact hours
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|---|---|---|
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On site
|
Computer room
|
2
|
Topics
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Electric current. Electrical conductivity of electrolytes. Ion characteristics. Conductivity of biological tissues and fluids in the case of direct current, direct current effect on human body tissues. Use of direct current in medicine. Electroplating. Drug electrophoresis.
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-
Class/Seminar
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Modality
|
Location
|
Contact hours
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|---|---|---|
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On site
|
Computer room
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2
|
Topics
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Molecular structure of liquids. Surface properties. Capillary phenomena. Gas embolism. Viscosity of liquids. Normal and anomalous fluids. Laminar and turbulent flow. Reynolds number. Methods for determining the viscosity of a liquid. Factors affecting blood viscosity. Practical work: Determination of surface tension coefficient of liquids. Determination of the viscosity coefficient of a liquid.
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Computer room
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2
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Topics
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Polarization of light. Methods of obtaining polarized light. Optical activity of substances. Refractometry / Polarimetry.
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
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Computer room
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2
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Topics
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Spontaneous and induced radiation of light sources. Laser structure and principle of operation. Light wave properties - interference and diffraction. Laser applications in medicine. Photobiological processes. Practical work: Determination of laser radiation characteristics.
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
|
Computer room
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2
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Topics
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Types of ionizing radiation. X-rays, its origin. Braking and characteristic X-rays, their spectra. X-ray interaction with a substance. Use of X-rays in medicine. Computed tomography. Radioactivity. Radioactive decay law. Effects of ionizing radiation on the human body. Dosimetry devices. Use of radioactive isotopes and neutrons in medicine. Particle accelerators and their use in medicine. Practical work: Particle counter.
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-
Class/Seminar
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Modality
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Location
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Contact hours
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|---|---|---|
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On site
|
Computer room
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2
|
Topics
|
-
|
-
Class/Seminar
|
Modality
|
Location
|
Contact hours
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|---|---|---|
|
On site
|
Computer room
|
2
|
Topics
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Colloquium
|
Total ECTS (Creditpoints):
3.00
Contact hours:
32 Academic Hours
Final Examination:
Exam
Bibliography
Required Reading
1.
Davidovits P. Physics in Biology and Medicine. – London: Elsevier, 2008, pp. 303. (akceptējams izdevums)
2.
Teibe U., Berķis U., Kalniņš I., Avota Z., Sprieslis J, Poriņš V. Praktiskie un laboratorijas darbi medicīniskajā un bioloģiskajā fizikā : 1. semestris – Rīga, RSU. 2008, pp. 79. (akceptējams izdevums)
3.
Teibe U., Berķis U., Kalniņš I., Avota Z., Sprieslis J, Poriņš V. Praktiskie un laboratorijas darbi medicīniskajā un bioloģiskajā fizikā : 2. semestris. Rīga: RSU, AML, 2010, pp. 76. (akceptējams izdevums)
Additional Reading
1.
Crowell B. Simple Nature. – Fullerton: www.lightandmatter.com, 2003, pp 625.
2.
Crowell B. Discover Physics. – Fullerton: www.lightandmatter.com, 2003, pp. 203.