N_FLP Physics in logistics processes

Institute of Technology and Business in České Budějovice
winter 2014
Extent and Intensity
2/2. 5 credit(s). Type of Completion: zk (examination).
Teacher(s)
RNDr. Jaroslav Krieg (seminar tutor)
RNDr. Dana Smetanová, Ph.D. (seminar tutor)
Guaranteed by
prof. Ing. Radimír Novotný, DrSc.
Department of Civil Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Supplier department: Department of Civil Engineering – Faculty of Technology – Rector – Institute of Technology and Business in České Budějovice
Timetable of Seminar Groups
N_FLP/L1: Sat 8. 11. 14:50–16:20 B2, 16:30–18:00 B2, 18:10–19:40 B2, Sun 14. 12. 8:00–9:30 B2, 9:40–11:10 B2, 11:25–12:55 B2, J. Brcková, D. Smetanová
N_FLP/P01: Wed 13:05–14:35 D415, D. Smetanová
N_FLP/S01: each odd Monday 16:30–18:00 B3, each odd Monday 18:10–19:40 B3, J. Brcková, J. Krieg
Prerequisites (in Czech)
MAX_KOMBINOVANYCH ( 100 ) && MAX_PREZENCNICH ( 40 )
Course Enrolment Limitations
The course is offered to students of any study field.
Course objectives supported by learning outcomes
The aim of the course is to apprise students with the technical aspects of the movement of material and information flows in   logistics systems. The student demonstrates knowledge from the area of applied mechanics, physical fields, electromagnetic waves and methods of observation of planetary motion.
Syllabus
  • 1. The circular movement in   application to mechanical systems. Forces in curvilinear motion. Centrifugal regulators. The principle of dynamic sensor. Torque and angular momentum. Working as contouring effect of the force. Impuls as historical effect of the force. Momentum and impulse during rotational movement. Power transmission couplings and gearboxes. 2. The moment of inertia of bodies. Flywheels and their practical use. Free flywheel, flywheel Maxwell, Cardanův curtain. Heavy flywheel, its precession and nutation. 3. Gyroscopic effects in transport (aircraft, ship, rocket). . Stabilization and missiles flying disc. 4. Law of conservation of energy, laws of thermodynamics. Carnot efficiency. The conversion of thermal energy into mechanical 5. The gravitational field. Strength and potential of the gravitational field. Movements in gravitational field. 6 Electrostatic Field. Strength and potential of electrostatic field. Electrostatic field of charged conductors. 7. The electrical current. Conductors, insulators and semiconductors. 8. Magnetic field constant currents. Magnetic circuits. Generation of alternating voltage of rotation loop. 9. Closing and open electromagnetic oscillator. The emergence of electromagnetic waves and their propagation. Classification of electromagnetic waves. 10. Light as the electromagnetic wave and corpuscular radiation. Coherent sources. Interference of light. Bend on the edge, slit and grating. Polarization of light, the birefringence of light and its use in practice. 11. Energy, mass and momentum of photons. Einstein's equations for the photoelectric absorption. The dualism of wave and corpuscular properties of light. 12. Coherent and incoherent sources for optical communication systems. Radiation detectors. Optical fiber and planar waveguide structure. 13. Signal transmission fiber. Optical signal processing. Information Transmission atmosphere and other dielectric environments. The principle of satellite earth observation.
Literature
    required literature
  • Halliday, David. Fyzika: vysokoškolská učebnice obecné fyziky. Část 1, 2, 3, 4 a 5. Brno Praha: VUTIUM Prometheus, 2000. ISBN 80-214-1868-0, ISBN 80-7196-213-9.
  • Feynman, Richard Phillips. Feynmanovy přednášky z fyziky s řešenými příklady. Feynman, Leighton, Sands. 1. vyd. Havlíčkův Brod : Fragment, 2000-2002. 3 sv. Přeloženo z angličtiny. ISBN 80-7200-405-0.
    recommended literature
  • Sequens, Jiří. Technika zobrazení fyzikálních polí. Praha : Academia, 1980.
  • Sodomka,L., Fiala. J. Fyzika, chemie kondenzovaných látek s aplikacemi. ADHESI. Liberec 2003.
  • Ondráček, E., Janáček, P. Výpočtové modely v technické praxi. SNTL Praha 1990.
  • Horák, Z., Krupka, F. Fyzika. Příručka pro fakulty strojního inženýrství. SNTL Praha, SVTL Bratislava. Praha 1966.
Forms of Teaching
Lecture
Seminar
Teaching Methods
Frontal Teaching
Group Teaching - Cooperation
Critical Thinking
Individual Work– Individual or Individualized Activity
Assessment Methods and Assesment Rate
Exam – written 70 %
Seminary Work 30 %
Language of instruction
Czech
Teacher's information
https://is.vstecb.cz/auth/el/5610/zima2014/N_FLP/index.qwarp
The course is also listed under the following terms summer 2015, winter 2015, Summer 2016, winter 2016, winter 2017, winter 2018, summer 2019, winter 2019, summer 2020, winter 2020, summer 2021.
  • Enrolment Statistics (winter 2014, recent)
  • Permalink: https://is.vstecb.cz/course/vste/winter2014/N_FLP