Course Details
Applied Physics (V)
Academic Year 2024/25
NBB006 course is part of 1 study plan
NPC-SIV Summer Semester 1st year
Course Guarantor
Institute
Language of instruction
Czech
Credits
5 credits
Semester
summer
Forms and criteria of assessment
course-unit credit and examination
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Definition of basic physical quantities, SI system, definition of temperature, equipartition theorem, inner energy.
2. Statistical physics, state equation, practical results.
3. Properties of air, water vapour and atmosphere.
4. The mass, momentum and energy balance: momentum in fluids, energy in fluids (external and internal), hydraulic pressure, Pascal low, Archimedes low.
5. The flow of fluids: the stationary flow of the viscous incompressible fluid through the tube, the velocity distribution along the cross section of the tube, Hagen-Poisseli’s law.
6. Temperature, pressure and phase transitions, latent heat, physics of low temperatures and pressures.
7. Particle physics and heat capacity of gases at constant pressure or volume.
8. Basics of thermodynamics, processes in gases, heat engines, Carnot cycle.
9. Practical outcomes of derived properties (engines, heat pumps, air conditioning, thermoelectric generators, themocouples, Peltier cells, condensation burner, drying or damping of air.
10. Electromagnetic radiation, Plancks law, Sun radiation, spectral properties of atmosphere.
11. Black body radiation, emissivity, transmittance, absorptivity, solar collectors and their principle and efficiency.
12. The energy point of view - transforms of energy, energy accumulations, energy density, power density.
13. Sun, basics of meteorology, atmosphere composition, greenhouse effect.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Instructions - introduction to methods of measurement, calculation methods, roles for an entire semester (cyclic tasks for pairs of students familiar with the safety regulations for work on electrical installations in student labs).
2. First laboratory measurement tasks according to the schedule.
3. Following measurements according to schedule and commit the previous measurements and calculated examples.
4. Following measurements according to schedule and commit the previous measurements and calculated examples.
5. Following measurements according to schedule and commit the previous measurements and calculated examples.
6. Following measurements according to schedule and commit the previous measurements and calculated examples.
7. Consultation, corrections, measurement of errorneous exercises.
8. Following measurements according to schedule and commit the previous measurements and calculated examples.
9. Following measurements according to schedule and commit the previous measurements and calculated examples.
10. Following measurements according to schedule and commit the previous measurements and calculated examples.
11. Following measurements according to schedule and commit the previous measurements and calculated examples.
12. Following measurements according to schedule and commit the previous measurements and calculated examples.
13. Exam and submission of the minutes of the previous measurements, credit.
Laboratory exercises:
- Frequency dependence of sound absorption coefficient.
- Frequency analysis of sound.
- Frequency analysis of sound reverberation time in the room.
- Determination of electrical resistance by direct method.
- Determination of electrical capacity by direct method.
- Determination of inductance and quality of coil by direct method.
- VA characteristics of semiconductor diodes.
- Determination of transistor characteristics.
- Determination of elementary charge from transistor characteristics.
- Determination of specific heat capacity of solids calorimeter.
- Determination of the coefficient of thermal expansion.
- Determination of thermal conductivity bricks transient method.
- Determination of Poisson adiabatic constant of air.
- Determination of calibration curve thermocouple.
- Determination of calibration curve thermistor.
- Determination of calibration curve thermo-diode.
- Determination of the coefficient of heat pump.
- The dependence of the coefficient of the absorption of light in translucent materials versus the wavelength of light.
- Determination of the total luminous flux of the point light source.
- Acoustic emission during static stress of concrete sample.
- Determination of roughness of fracture surfaces by means of the confocal microscope.