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OG07GRF - Gradjevinska fizika

Course specification
Type of study
Study programme
Course title
AcronymStatusSemesterNumber of classesESPB
OG07GRF2П + В7.0
Lecturers
Lecturer (for classes)
Lecturer/Associate (for practice)
ConditionОблик условљености
nono
The goal
The purpose and aim of the course is establishing and acquisition of fundamental knowledge in physics necessary for the subsequent adoption of the content of specialized courses in civil engineering as well as to prepare students for independent solving of problems in building physics.
The outcome
Learning outcomes of the course is the establishing and acquisition of fundamental knowledge in physics necessary for the subsequent adoption of the content of specialized courses in civil engineering as well as to prepare students for independent solving of problems in building physics.
Contents
Physics and measurements. Temperature. Thermal expansion. The laws of the ideal gas. Dalton's law. Real gases. Heat. The internal energy. Heat capacity. The 0th, 1st and 2nd law of thermodynamics. Work. Molecular model and interpretation of temperature. Adiabatic process. The efficiency of a machine. Carnot cycle. Entropy. Intermolecular forces. Phase transitions. Evaporation. Condensation. Capillary action. Simple harmonic oscillation. Energy in oscillations. Mathematical and physical pendulum. Forced and damped oscillations. Resonance. Wave equation. Wave propagation. Speed, energy, intensity, interference and reflection of waves. Standing wave. Spectrum of EM waves. The transfer of energy and speed of EM waves. Coherence, interference, diffraction and polarization of light. Sound, infrasound, ultrasound. Sound sources. The intensity and sound attenuation. Sound level and apsorption. Propagation of sound in an enclosed space. Reverberation time. Noise. Soundproofing of single barrier. Basic physical quantities of heat transfer phenomena. Fourier law of heat conduction. Heat transfer between the wall and the fluid. Stationary heat conduction and transfer through single and multi-layered flat wall. Thermal bridges. Thermography. Basic quantities for description of air humidity. Adsorption, diffusion, capillary phenomena. Fick's law of diffusion. Condensation. The effect of moisture on building elements. Basic photometric quantities. Artificial and natural lighting. Glare.
Methods of teaching
Lectures, exercises, consultations.
Literature
  1. B. Antunović, Building physics, University of Banja Luka, Faculty of Architecture, Civil Engineering and Geodesy, 2014
  2. H. D. Young, R. A. Freedman, University physics, Pearson Education, 2012. (Original title)
  3. V. Georgijević, Technical Physics - selected chapters, University in Belgrade, Faculty of Civil Engineering, 2008.
  4. W. Willems, K. Schild, S. Dinter, Building Physics - Handbook Part I and Part II, Springer Vieweg, 2013
  5. M. Rekalić, V. Georgijević, Handbook of Technical Physics, Naučna knjiga, Belgrade, 1996.
Knowledge check forms and grading
Written exam (Test 1 + Test 2 + Test 3) = 50 points Final oral exaxm = 50 points
Special indication
Студенти су обавезни да присуствују настави и да раде све провјере знања (тестове). Студенти који први пут слушају предмет морају остварити најмање 80 % присуства настави, како би стекли право изласка на завршни испит. На сваком тесту студенти су дужни да остваре минимум од 51% освојених бодова, како би стекли право изласка на завршни испит. Тестови се одржавају у току семестра, а њихови поправни у испитним роковима. Завршни испит се одржава у оквиру испитних рокова.