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GF 2 GENERAL PHYSICS 2 201 2 -201 3 Spring Term

DEPARTMENT of INFORMATION TECHNOLOGIES. INTERNATIONAL BURCH UNIVERSITY. GF 2 GENERAL PHYSICS 2 201 2 -201 3 Spring Term. Dr . Rajfa Musemić musemic @ mef.unsa .ba. Meet our team !.

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GF 2 GENERAL PHYSICS 2 201 2 -201 3 Spring Term

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  1. DEPARTMENT of INFORMATION TECHNOLOGIES INTERNATIONAL BURCH UNIVERSITY GF 2 GENERAL PHYSICS 2 2012-2013Spring Term Dr. Rajfa Musemićmusemic@mef.unsa.ba

  2. Meet our team ! Dr Sci Rajfa Musemić, Faculty of Mechanical Engineering University of Sarajevo- Assistant Eldin Sejmen, BSc in Physics • - Physical Engineering degree • (Faculty of Natural Sciences, SA) • MSc in Applied Mechanics of Continuum • (Mechanical Engineering Faculty, SA) • - PhD In Applied Physics / Fluid Mechanics • (Mechanical Engineering Faculty Ljubljana, SLO) • Full Professor at Mathematics and Physics department • (MEF-UNI Sarajevo) since 2010 • Teaching: • General Physics • Mathematical Methods in Physics • Physics 1 and Physics 2 • Technical Physics • Modelling of transport processes • - Turbulence /MSc course/ Research: • Applied Physics and Environmental • Solar energy, salt solar ponds • Mathematical modeling of turbulence • Turbulent Double-Diffusive Convection

  3. Taeching team - adresses • Rajfa Musemić – responsible teacher Faculty of Mechanical Engineering Sarajevo, Vilsonovo setaliste 9 /315 room, tel. + 387 33 72 98 42/ E-mail:musemic@mef.unsa.ba • Assistant Eldin Sejmen e-mail: eldinsejmen@gmail.com • Class Schedule: Mon: 13:00-16:00 Wed : 15:00-17:00 and Thu : 15:00-17:00 Office Hour:Open Door Policy

  4. Course Objectives Introduce main physical world principles and its application concepts. Introduce confidentiality, integrity and availability Understanding phenomena in matter, electrical, magnetic and electromagnetic properties, modern physics and experimental assignments Develop basic practical and useful knowledge in order to overcome study of information and general technical engineering program Combination of theoretical and practical (mostly experimental) learning necessary for the understanding phenomena in the nature at all

  5. Textbooks • 1. Jearl Walker : Fundamentals of Physics, Halliday-Resnick, Willey, 8th Edition • 2. D.C. Giancoli: Physics for scientist and engineers, Prentice Hall, New Jersey, 2000 • 3. Frederick J. Bueche & Eugene Hecht: Theory and problems of College Physics, Ninth Edition , Schaum’s outline Series, McGraw-Hill Companies, USA, 2008 • 4. The other sources from program fields. It is possible to use all books and Collection of problems on university level.

  6. Brief Contents • Wave optics – based phenomena: • Interference, diffraction and polarization • Photometry • Electricity and magnetism: Electrical charge, Conductors and insulators, Coulomb's law • The Electric Field, Gauss' Law, El Potential and voltage, Work and voltage • El. Current, Ohm's law, Resistance, Resistors (combinations in circuits), Voltage and Current laws • DC Electric power , Capacitor (combinations) , Capacitance • Magnetic field, magnetic force, Lorentz force • Black body radiation • The foundation of the atomic physics: Photoeffect, Compton' s effect, Photons, Models of atom, Bohr's model and postulates, the Atomic spectrum,Quantum numbers, Wave – particle dualism, The uncertainity relations • The foundation of nuclear physics: Nucleus - mass and binding energy • Nuclear reactions and Radioactivity • Lasers: How lasers work. Lasers’ Application

  7. Grading Activity at lessons 8 % Home works or lab exp. 20 % Midterm Examination 22% Seminar 10% Final Examination 40%

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