Course Details

# Applied Physics (K)

BBA002 course is part of 2 study plans

BPC-SI / K Summer Semester 3rd year

BPC-MI Summer Semester 4th year

Wave motion, wave equation, intensity of wave, standing waves, Doppler’s law, basic acoustic quantities, architectural acoustic, permeability and damping, relevant time, temperature and heat, thermodynamics, properties of systems, sources and diffusion of warm, illumination and photometry, direct current, alternating current.

Course Guarantor

Institute

Objective

To obtain the elementary theoretic know ledges and practical acquaintances and habits in sphere of physic: waves and acoustics, thermics, thermal conduction, electricity.

Knowledge

To obtain the elementary theoretic know ledges and practical acquaintances and habits in sphere of physic: waves and acoustics, thermics, thermal conduction, electricity.

Syllabus

1. Basic acoustic quantities. Room acoustics.
2. Thermometers. Expansion of solids and liquid. Thermal stress. Expansion of gas.
3. The equation of state. Basic kinetic theory of gas. Internal energy of an ideal gas.
4. The first law of thermogramics. Heat capacity. Calorimetric equation.
5. Adiabatic and polytropics changes. The second law of thermodynamics. Heat engines.
6. States and phase. Change between liquid and gas. Change between solid and liquid.
7. sublimation. Air.
8. Sources of heat. Heat transfer.
9. Thermal conduction. Stationary conduction of heat through plain wall.
10. Passage of heat. Stationary conduction of heat through cylinder surface.
12. Electric current. Ohm’s law. Electromotoric force, work and power. Kirchhoff’s rule. Wheatstone bridge.
13. Formation of alternative current. Effective and average value. Resistor, inductor, capacitor. Resonance. AC Power.

Prerequisites

Knowledge physics and mathematics of bachelor study.

Language of instruction

Czech

Credits

4 credits

Semester

summer

Forms and criteria of assessment

course-unit credit and examination

Specification of controlled instruction, the form of instruction, and the form of compensation of the absences

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Offered to foreign students

Not to offer

Course on BUT site

Lecture

13 weeks, 2 hours/week, elective

Syllabus

1. Basic acoustic quantities. Room acoustics. 2. Thermometers. Expansion of solids and liquid. Thermal stress. Expansion of gas. 3. The equation of state. Basic kinetic theory of gas. Internal energy of an ideal gas. 4. The first law of thermogramics. Heat capacity. Calorimetric equation. 5. Adiabatic and polytropics changes. The second law of thermodynamics. Heat engines. 6. States and phase. Change between liquid and gas. Change between solid and liquid. 7. sublimation. Air. 8. Sources of heat. Heat transfer. 9. Thermal conduction. Stationary conduction of heat through plain wall. 10. Passage of heat. Stationary conduction of heat through cylinder surface. 11. Radiation of black body. 12. Electric current. Ohm’s law. Electromotoric force, work and power. Kirchhoff’s rule. Wheatstone bridge. 13. Formation of alternative current. Effective and average value. Resistor, inductor, capacitor. Resonance. AC Power.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

Week 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) Week 2 first laboratory measurement tasks according to the schedule Week 3 following measurements according to schedule and commit the previous measurements and calculated examples Week 4 following measurements according to schedule and commit the previous measurements and calculated examples Week 5 following measurements according to schedule and commit the previous measurements and calculated examples Week 6 following measurements according to schedule and commit the previous measurements and calculated examples Week 7 consultation, corrections, measurement of errorneous exercises Week 8 following measurements according to schedule and commit the previous measurements and calculated examples Week 9 following measurements according to schedule and commit the previous measurements and calculated examples Week 10 following measurements according to schedule and commit the previous measurements and calculated examples Week 11 following measurements according to schedule and commit the previous measurements and calculated examples Week 12 following measurements according to schedule and commit the previous measurements and calculated examples Week 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