Course title | Physics II |
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Course code | KMMCS/PFY2P |
Organizational form of instruction | Lecture + Tutorial |
Level of course | Bachelor |
Year of study | 2 |
Semester | Winter |
Number of ECTS credits | 5 |
Language of instruction | Czech |
Status of course | Compulsory |
Form of instruction | Face-to-face |
Work placements | This is not an internship |
Recommended optional programme components | None |
Lecturer(s) |
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Course content |
Statics of fluids - fluid properties, pressure in liquids and gases induced by external force, Pascal's law, the pressure exerted by internal forces in the fluid, hydrostatic pressure, Archimedes' law and its implications. Fluid Dynamics - basic laws of ideal fluid flow continuity equation (continuity) and the Bernoulli equation and its applications, flow of real fluids, physical basics of flying. The oscillating motion of a particle - kinematics and dynamics of the undamped harmonic oscillatory motion of a particle, the basic principles of composing oscillating processes, damped oscillation. Stationary magnetic field in vacuum and substances - magnetic interactions, charged particle and a conductor with a current in the magnetic field, creating magnetic fields as law Biot - Savart - Laplace and its applications, the magnetic field in the physical environment, magnetic properties of matter. Dependent electromagnetic phenomena - the physical nature of a natural phenomenon of electromagnetic induction, Faraday's Law, the phenomenon of self inductance, magnetic energy .. Alternating current - alternating current - the creation of a harmonious AC simple circuits with resistance, inductance and capacity, consisting AC circuits and methods for their solution. Thermals and the basics of thermodynamics - heat and temperature, thermal processes in gases, ideal gas, heat exchange, phase change materials, heat of combustion, internal energy of the gas works to change the volume of the gas, the laws of thermodynamics, the circular plot. Optics - geometrical optics, imaging mirror and thin lens, the basic concepts of wave optics, Huygens principle, reflection and refraction of light, refractive index, light dispersion prism, interference of light, optical grating, quantum properties of optical radiation, Photoelectric effect.
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Learning activities and teaching methods |
Monologic (reading, lecture, briefing), Demonstration, Graphic and art activities |
Learning outcomes |
The aim is to discuss the basic parts of classical physics and physical deepen knowledge in the field of hydromechanics, oscillating processes, magnetic fields, thermodynamics and optics. The course builds on secondary grammar school material and teaching of Physics I (PFY1P) in the summer semester of the first year. Over the first priority should be the students' ability to understand lectures in all contexts and prove their knowledge to apply when solving various physical problems. The seminar is solving physical problems.
Course graduate gains the ability to self-orientation in those parts of physics and can apply the acquired knowledge in solving physics and physics-related problems. |
Prerequisites |
Basic physical knowledge in a range of physics in secondary school curricula. To pass the exam, Physics I (PFY1P)
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Assessment methods and criteria |
Oral examination, Written examination
Regular active participation in seminars. Three written coursework during the semester. The conditions for granting credit. |
Recommended literature |
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Study plans that include the course |
Faculty | Study plan (Version) | Category of Branch/Specialization | Recommended semester | |
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Faculty: Faculty of Transport Engineering | Study plan (Version): Electrical Engineering and Electronic Systems in Transport (2016) | Category: Transportation and communications | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means: Environmental Protection in Transport (2016) | Category: Transportation and communications | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means: Road Vehicles (2016) | Category: Transportation and communications | 2 | Recommended year of study:2, Recommended semester: Winter |
Faculty: Faculty of Transport Engineering | Study plan (Version): Transport Means: Rail Vehicles (2016) | Category: Transportation and communications | 2 | Recommended year of study:2, Recommended semester: Winter |