VŠTE:FYS_2 Physics II. - Course Information
FYS_2 Fyzika II.
Institute of Technology and Business in České Budějovicesummer 2020
- Extent and Intensity
- 2/2/0. 4 credit(s). Type of Completion: zk (examination).
- Teacher(s)
- doc. RNDr. Ivo Opršal, Ph.D. (seminar tutor)
- Guaranteed by
- Ing. Lukáš Polanecký
Lifelong learning Centre – Directorate of Study Administration and Lifelong Learning – Vice-Rector for Study Affairs – Rector – Institute of Technology and Business in České Budějovice
Supplier department: Department of Informatics and Natural Sciences – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice - Timetable of Seminar Groups
- FYS_2/CCV: Fri 20. 3. 8:00–9:30 A3, 11:25–12:55 A3, Fri 27. 3. 8:00–9:30 A3, 11:25–12:55 A3, I. Opršal
- Prerequisites (in Czech)
- OBOR(CAP)
- Course Enrolment Limitations
- The course is offered to students of any study field.
- Course objectives supported by learning outcomes
- In Physics II, students deepen their knowledge in all areas of classical physics in relation to knowledge of mechanics, oscillations, waves and acoustics discussed in Physics I, so that the acquired knowledge could be used in studying postgraduate professional courses. The aim is to supplement the knowledge of classical physics for the further development of physical knowledge.
- Learning outcomes
- The student can explain the basic physical principles from the area of thermal processes, magnetic and electric phenomena and quantum optics.
- Syllabus
- 1. Molecular-kinetic theory of heat. Brown´s motion. Difussion. Ideal gas pressure.
- 2. Temperature and heat. Definition of temperature and temperature change. Inner energy.
- 3. Balance equation of gas, pV diagram. Work of gas. Heat.
- 4. Thermodynamics. 1st law of thermodynamics. Entalpy. Mayer´s equation. Poisson´s equation. 2nd law of thermodynamics. Circle actions and their effectiveness. Entropy.
- 5. Electric field. Electric charge, Coulomb law. Intensity and potential of electric field. Electric flow, Gauss law. Electrostatic properties of wire. Capacity.
- 6. Work, potential and voltage. Electrostatic induction. Properties of dielectrics.
- 7. Electric current. Source of voltage. Ohm law. Electric resistance.
- 8. Kirchhoff laws. Work and effectiveness of electric current. Joule-Lenz law.
- 9. Magnetic field. Magnetic force. Vector of magnetic induction. Magnetic flow. Movement of charge in a magnetic field, Lorentz force. Hall phenomenon.
- 10. Effect of magnetic field on wire, loop in a magnetic field, the magnetic moment. Biot-Savart law. Magnetic field of straight and circular wire and spool.
- 11. Electromagnetic induction. Faraday law of electromagnetic induktion. Rotating loop in magnetic field. Mutual and self-inductance. Origin and properties of alternating currents. Alternate circuit with R, L and C. Electric oscilating circuit.
- 12. Electromagnetic waves. Particle and wave properties of electromagnetic waves. Huygens-Fresnel principle. The law of reflection and refraction. Photometry. Coherence. Interferention, bend and polarization of light waves. Holography.
- 13. Quantum physics. Planck´s quantum hypothesis. Photon and its properties. Particle and wave properties of light. Wave properties of particles. De Broogli wavelength of particles. Photoelectric effect. Output work of electrons.
- Literature
- required literature
- Kopečný, J.: Fyzika IIa - Elektromagnetické pole, VŠB-TU Ostrava, 2000, 249 s. ISBN 80-7078-785-6
- recommended literature
- Mádr, V. a kolektiv: Sbírka příkladů z fyziky, VŠB, Ostrava, 1998
- Forms of Teaching
- Lecture
Seminar
Consultation - Teaching Methods
- Frontal Teaching
Group Teaching - Cooperation
Critical Thinking
Individual Work– Individual or Individualized Activity
Teaching Supported by Multimedia Technologies
E-learning
- Student Workload
Activities Number of Hours of Study Workload Daily Study Combined Study Preparation for the Mid-term Test 10 Preparation for Lectures 9 Preparation for Seminars, Exercises, Tutorial 13 Preparation for the Final Test 10 Unaided calculation of physical problems at the whiteboard 10 Attendance on Lectures 26 Attendance on Seminars/Exercises/Tutorial/Excursion 26 Total: 104 0 - Assessment Methods and Assesment Rate
- Exam – written 70 %
Test – final 10 %
Application of Theoretical Knowledge 10 %
Consultation
Seminar work 10 % - Exam conditions
- Grading of the course: First Test/Seminar Work: maximum 30% (0-30 points), Final Test: maximum 70% (0-70 points). Successful graduates of the course have to get totally at least 70 points: A: A 100 – 90, B 89,99 – 84, C 83,99 – 77, D 76,99 – 73, E 72,99 – 70, FX 69,99 – 30, F 29,99 - 0.– 30, F 29,99 - 0.
- Language of instruction
- Czech
- Teacher's information
- Attendance in lessons is defined in a separate internal standard of ITB (Evidence of attendance of students at ITB). It is compulsory, except of the lectures, for full-time students to attend 70 % lesson of the subjet in a semester. If the points are on the edge , the student has the possibility to ask for an oral examination by agreement with the teacher.
- Enrolment Statistics (summer 2020, recent)
- Permalink: https://is.vstecb.cz/course/vste/summer2020/FYS_2