Physics for Bachelors
Code | Completion | Credits | Range | Language |
---|---|---|---|---|
17KBP2FPB | Z | 3 | 8P+6S | Czech |
- Garant předmětu:
- Lecturer:
- Tutor:
- Supervisor:
- Department of Health Care Disciplines and Population Protection
- Synopsis:
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The goal is to create a physical pillar for further study. In the course of reciting the basics of mechanics, relativistic physics, basic electricity and magnetism, basic geometric and wave optics.
- Requirements:
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Credit will consist of written part of the contents of lectures given and independent study. In the test, the student may use literature, Internet, mobile phone or consult with other students. The oral part of the credit is only in the case of an ambiguous test evaluation.
The written test is part of the combined credit of:
- ABC-type answers (possibly more correct answers) - correctly answered question 1 point
- The answer when it is necessary to respond in writing (very important issues) - 5 points
- The answer when it is necessary to respond in writing (conversion relationships, etc.) - 1 point
- The answer when it will be necessary to demonstrate the mathematical and physical knowledge (examples, etc.) - 5 - 15 points depending on the complexity of the issue
Students can reach the maximum number of 80 points, with the successful execution of the credit is necessary to achieve 60 points or more (75%).
Rating ECTS:
A good 100-90 (excellent)
B 89-80 very good (very good)
C 79-70 well (good)
D 69-60 satisfactory (satisfactory)
E 59-50 enough (sufficient)
F 49-0 failed (failed)
- Syllabus of lectures:
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Current status of physics and its applications, the role of theoretical, experimental and applied physics.
Definitions of quantities and units in physics. SI system of units: base, supplementary and derived units.
Conversions between different units.
Overview of mechanics, including motion of a particle, mechanical energy and rigid body mechanics, liquids and gases.
Electricity and magnetism. Electric and magnetic fields. Electrical components and circuits. Electromagnetic waves and spectrums.
Construction of the atom and its nucleus. Radioactive decay. Properties of ionizing radiation.
Interaction of ionizing radiation with matter. Quantities and units used in radiation dosimeters and radiation protection.
Biological effects of ionizing radiation. Characteristics of deterministic and stochastic effects.
Monitoring of ionizing radiation and radioactivity. Measurements of external radiation and radioactive contamination.
Overview of the main applications of ionizing radiation and radionuclides in medicine, industry and science. Protection against radiation. Non-ionizing radiation.
Properties of light and its passage through matter.
Principle of lasers and their applications in medicine and the principles of protection when working with lasers.
Presentation of seminar papers.
Evaluation of seminar papers.
Exercise Outline
Quantities and units in physics. Conversion coefficients and transfers.
Application of non-ionizing radiation in medicine, industry and science
The application of ionizing radiation in medicine, industry and science, and
The application of ionizing radiation in medicine, industry and science II
Protection against sources of non-ionizing and ionizing radiation
Seminar recitation semester work
Granting Credit
- Syllabus of tutorials:
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N/A
- Study Objective:
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Students develop an understanding of basic physical laws and phenomena. They learn to count with physical formulas to convert physical units.
- Study materials:
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[1] Svoboda, E. a kol.: Přehled středoškolské fyziky, Prometeus, Praha, 2006
[2] Lepil, O., Bednařík, M. a Hýblová, R.: Fyzika II, Prometeus, Praha, 2006
[3] Beiser, A.: Úvod do moderní fyziky, Academia, Praha, 1975
[4] Navrátil, L., Rosina, J. a kol.: Biofyzika v medicíně, Grada, Praha, 2003
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
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- Planning and Management of Crisis Situation - combined study (compulsory course)