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Lecturer(s)
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Pospíšilík Martin, Ing. Ph.D.
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Křesálek Vojtěch, doc. RNDr. CSc.
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Course content
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Topics: - Electromagnetic waves and light. - Wave properties of light. - Optical materials. - Spectra of atoms, molecules and solids. - Luminescence. - Lasers. - Electronic properties of materials. - Magnetic properties of materials. - Radiation detection. - Photometry and color vision. - Fiber optics and optical communication systems. - Plasma - basic properties and uses. - Electromagnetic compatibility of computer systems. - Immunity of information systems against interference.
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Learning activities and teaching methods
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unspecified
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| prerequisite |
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| Knowledge |
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| The student is expected to have basic knowledge of university mathematics, physics, included in previous semesters of study. |
| The student is expected to have basic knowledge of university mathematics, physics, included in previous semesters of study. |
| learning outcomes |
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| The student should show broader technical literacy, the ability to analyze the directions of development and the ability to present the acquired knowledge. |
| The student should show broader technical literacy, the ability to analyze the directions of development and the ability to present the acquired knowledge. |
| Explain the basic concepts of electric and magnetic fields |
| Explain the basic concepts of electric and magnetic fields |
| Describe the basic laws and equations in electromagnetism using integral relations and differential equations |
| Describe the basic laws and equations in electromagnetism using integral relations and differential equations |
| Explain the problem of electromagnetic induction |
| Explain the problem of electromagnetic induction |
| Explain the working of simple electrical circuits in electronics and computer science using appropriate mathematical apparatus |
| Explain the working of simple electrical circuits in electronics and computer science using appropriate mathematical apparatus |
| Characterize the basic principles for the transmission of electromagnetic waves and optical signals |
| Characterize the basic principles for the transmission of electromagnetic waves and optical signals |
| Skills |
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| Apply the basic mathematical apparatus for electric and magnetic phenomena |
| Apply the basic mathematical apparatus for electric and magnetic phenomena |
| Solve problems verbally and using physical relationships |
| Solve problems verbally and using physical relationships |
| Visualize electric, magnetic and electromagnetic fields |
| Visualize electric, magnetic and electromagnetic fields |
| Distinguish the differences between electromagnetic processes of DC, AC, radio frequency and microwave frequencies |
| Distinguish the differences between electromagnetic processes of DC, AC, radio frequency and microwave frequencies |
| Apply simple physical relations to simple solutions of problems in electricity, magnetism, electromagnetic induction, electric circuits and electromagnetic waves |
| Apply simple physical relations to simple solutions of problems in electricity, magnetism, electromagnetic induction, electric circuits and electromagnetic waves |
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Recommended literature
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Halliday, David. Fyzika : vysokoškolská učebnice obecné fyziky. Vyd. 1. V Brně : VUTIUM ; Praha : Prometheus, 2000. ISBN 80-214-1868-0.
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