UNIVERZITETA U BEOGRADU R E F E R A T
|
|
- Bartholomew Foster
- 5 years ago
- Views:
Transcription
1 NASTAVNO-NAUČNOM VEĆU FIZIČKOG FAKULTETA UNIVERZITETA U BEOGRADU Pošto smo na VI sednici Izbornog i Nastavno-naučnog Veća Fizičkog fakulteta Univerziteta u Beogradu odredjeni za članove Komisije za pripremu izveštaja po raspisanom konkursu za izbor jednog docenta za naučnu oblast Nastava fizike na Fizičkom fakultetu u Beogradu podnosimo sledeći R E F E R A T Na konkurs za izbor jednog docenta za naučnu oblast Nastava fizike na Fizičkom fakultetu u Beogradu, koji je objavljen u oglasniku POSLOVI (dvobroj ), od 13. aprila godine, prijavio se kao jedini kandidat Dragan V. Redžić, docent, Fizički fakultet Studentski trg 12, tel , redzic@ff.bg.ac.rs BIOGRAFIJA, NASTAVNA I NAUČNA AKTIVNOST Dragana Redžića I. OSNOVNI BIOGRAFSKI PODACI Dragan Redžić je rodjen od oca Vučete i majke Milijanke 7. januara godine u Doboju. Osnovnu školu i gimnaziju završio je u Beogradu sa prosečnom ocenom 5,00. Fizički fakultet Univerziteta u Beogradu, istraživački smer - teorijska fizika, je završio godine (prosečna ocena 9,22). Diplomirao je 16. januara na temi 1
2 Veza izmedu entropije i drugih termodinamičkih veličina u Penrouzovom aksiomatskom zasnivanju statističke termodinamike kod prof. dr Save Miloševića. Rad je iste godine nagradjen Oktobarskom nagradom grada Beograda za najbolje naučne i stručne radove studenata. Postdiplomske studije je završio na Fizičkom fakultetu Univerziteta u Beogradu na smeru Nastava fizike godine sa prosečnom ocenom 10,00. Magistarsku tezu (tema: Neki metodološki problemi elektrodinamike tela u kretanju, mentor: prof. dr Nataša Nedeljković) je odbranio 1. oktobra godine. Doktorsku disertaciju Egzaktna rešenja nekih problema elektrodinamike tela u kretanju u okviru magnetofluidodinamičkog modela, mentor: prof. dr Nataša Nedeljković, odbranio je 20. marta godine. Dragan Redžić je zaposlen na Fizičkom fakultetu od 1. jula godine kao asistent-pripravnik, a godine je reizabran. U zvanje asistenta izabran je godine, a godine je reizabran. U naučno zvanje viši naučni saradnik za naučnu oblast Fizika čestica i polja izabran je 7. jula godine. U zvanje docenta za naučnu oblast Nastava fizike izabran je 16. juna godine, sa 18 publikovanih radova u vodećim časopisima za navedenu oblast. II. NASTAVNA AKTIVNOST Dragan Redžić je zaposlen na Fizičkom fakultetu od 1. jula godine kao asistentpripravnik, asistent, odnosno docent. Držao je računske vežbe na sledećim predmetima: Opšta fizika III i Opšta fizika IV (Elektromagnetizam i optika) (II godina: Opšta fizika, Astrofizika), Elektromagnetizam i atomistika (II godina: Meteorologija) Kvantna teorija polja (IV godina: Teorijska fizika), Fizika II (II godina: Fizička hemija), Fizika III (II godina: Meteorologija), Elektromagnetizam (II godina: Astrofizika), Matematička fizika III (IV godina: Teorijska fizika), Fizička optika (II godina: Astrofizika), Elektromagnetizam i optika (II godina: Astrofizika), Fizika I (I godina: Fizička hemija), Fizika II (II godina: D i E smer). Osim toga, jedno vreme držao je i eksperimentalne vežbe iz Fizičke mehanike za studente fizike. Većinu kurseva pokrivao je zbirkama zadataka u rukopisnoj formi. Poslednjih pet školskih godine držao je nastavu iz predmeta Elektromagnetizam i osnovi atomske fizike za studente Meteorologije. 2
3 Ocene studenata za nastavu u prethodnim godinama kandidata dr Dragana Redžića su 4,5 (letnji semestar 2006/2007) i 4,1 (zimski semestar 2007/2008). Bio je mentor jednog master rada, studenta iz Libije, koji je baziran na publikaciji [A43]. III. NAUČNA AKTIVNOST A. Publikacije Osnovna naučno-istraživačka oblast kojom se Dragan Redžić bavi je Klasična teorija polja. Uslovno, ova oblast potpada pod naučnu oblast Fizika čestica i polja kao i naučnu oblast Nastava fizike. Tekuća istraživanja kandidata su najvećim delom posvećena teorijskom proučavanju elektrodinamike tela u kretanju, i srodnim temama. Do sada je objavio 43 rada (uključujući naučnu kritiku i polemiku), po 2 u J. Phys. D i J. of Electromagn. Waves and Appl., 6 u Am. J. Phys., po jedan u Prog. Electromagn. Res., Czech. J. Phys., Prog. Electromagn. Res. M i Fizika A (Zagreb), i preostalih 29 u Eur. J. Phys. Iz tematike kojom se bavi publikovao je jednu knjigu, u sopstvenom izdanju, uz podršku Ministarstva nauke. Kandidat je jedini autor na 36 radova, glavni autor (od dva) na 2 rada, glavni autor (od tri) na 3 rada i prvi autor (od dva) na dva rada. U svom naučnom radu ispoljio je izrazitu samostalnost. Publikovao je najviše u časopisima Am. J. Phys. i Eur. J. Phys., koji su specifičnog profila (vodeći medjunarodni časopisi u oblasti edukacije u fizici, koji publikuju originalne istraživačke radove pod uslovom da mogu biti iskorišćeni i u nastavi fizike na postdiplomskom ili dodiplomskom nivou); približno četvrtina radova kandidata spada u naučnu kritiku ili polemiku. 6 radova kandidata imaju impakt faktor veći od 1, dok 23 rada imaju impakt faktor veći od 0.5 i publikovani su u vodećim medjunarodnim časopisima za oblast Nastava fizike. Radovi su mu citirani 132 puta, od toga 88 puta na Web of Science + Scopus. Kandidat je služio kao recenzent u časopisima: American Journal of Physics, Journal of Physics A, Journal of Physics D, Journal of Electromagnetic Waves and Applications, 3
4 Progress in Electromagnetics Research, Physica Scripta, New Journal of Physics, Europhysics Letters, Journal of Electrostatics, European Journal of Physics, Afrika Matematika i Results in Physics, ukupno 25 puta dosad. B. Učešće na naučnim projektima i medjunarodna saradnja Učesnik je na projektima Ministarstva nauke i Saradjivao je sa Prof. Janezom Strnadom (Univerzitet u Ljubljani), iz čega je proistekao rad [A42], sa Prof. Paulom Lorrainom (McGill University, Montréal) (na rezultatima te saradnje bazirana su 3 poglavlja u monografiji Paul Lorrain et al 2006 Magneto-Fluid Dynamics: Fundamentals and Case Studies of Natural Phenomena (New York: Springer) na šta je ukazano u predgovoru i na početku svake od ovih glava), i sa Prof. Vladimirom Hnizdom [A26]. IV. PREGLED NAUČNIH REZULTATA Oblasti naučnog rada Dragana Redžića su Klasična teorija polja, N1, i Specijalna Relativnost, N2, pri čemu veliki broj publikacija kandidata pripada i jednoj i drugoj oblasti. Kako je već napomenuto, radovi svakako spadaju i u oblast Nastave fizike. A. N1 [A1,..,A3,A9,..,A11,A14,A17,...,A19,A21,A23,..,A26,A31,..,A34,A36,..,A38,B1,E1,E2] U oblasti klasične elektrodinamike, kandidat je generalizovao rešenja nekih elektrostatičkih i magnetostatičkih problema dobijena primenom metoda likova [A1,A2,A17,A25], odnosno korigovao pogrešna rešenja [A31,A34]. Rešavanjem Poissonove i Laplaceove jednačine u odgovarajućim koordinatama, dobio je rešenje jednog bazičnog elektrostatičkog [A10], i jednog bazičnog magnetostatičkog problema [A18]. Različiti aspekti Faradayevog zakona elektromagnetne indukcije u opštem slučaju filamentarne provodne konture koja se kreće relativističkim brzinama i pri tome menja svoj oblik proučavani su u radovima [A19,A21,A37,A38]; neki još nepublikovani rezultati iz ove teme prezentirani su u disertaciji [E2]. Radovi [A11,A36], i esencijalni delovi radova [A18,A19,A21,A26,A34], spadaju 4
5 u oblast matematičke fizike. Reference [A7,A32,A42] su u izvesnom smislu sinteza Specijalne Relativnosti, klasične i kvantne teorije. Preostale reference oblasti N1 se odnose na elektrodinamiku tela u kretanju u užem smislu, i Specijalnu Relativnost, i biće diskutovane u narednom odeljku. B. N2[A4,..,A6,A8,A9,A12,A13,A15,A16,A20,A22,A23,A27,..,A29,A32,A33,A35,A39,A40, A42, A43,B1,E1,E2] Nekoliko publikacija posvećeno je analizi osnovnih rezultata i koncepata Specijalne Relativnosti [A4,..,A6,A20,A22,A28,A29,A40,B1,E1,E2], što je dovelo do sagledavanja Dewan- Beran-Bellovog problema iz nove perspektive [A5,A22,A39]. Osim toga, kandidat je dobio egzaktna rešenja nekih problema elektrodinamike tela u kretanju [A3,A8,A9,A12,A14]. Recimo, zahvaljujući slučajnom otkriću neobičnog svojstva raspodele naelektrisanja na izduženom provodnom sferoidu, nadjeni su elektromagnetni likovi provodnih sferoida u ravnomernom kretanju duž ose rotacije, koristeći metod specijalne relativnosti i teoriju likova [A9]. Ovaj rezultat doveo je do uvidjanja jedne asimetrije inherentne Maxwellovoj elektrodinamici koja, pod uslovom da je adekvatno interpretirana, daje prečicu ka Lorentzovim transformacijama [A13]. Takodje, data su egzaktna rešenja niza problema elektrodinamike tela u kretanju, u okviru teorije prvog reda fenomenološke elektrodinamike tela u kretanju Minkowskog. Nadjeno je jedno rešenje veoma teškog problema približavanja ravnoteži kod omskih nemagnetnih krutih provodnika u proizvoljnom kretanju u konstantnom spolja primenjenom magnetnom polju [A14], i korigovane ranije analize stacionarnih situacija kod omskih nemagnetnih provodnika u v B poljima [A33,A35]. Efekt inertnosti kondukcionih elektrona na elektromagnetno polje u slučaju osnosimetričnog provodnika koji ravnomerno rotira oko svoje ose simetrije analiziran je u referenci [A12]. Značaj Specijalne Relativnosti pri sobnim brzinama detaljno je diskutovan u referencama [A23,A28]; novi uvidi u relativističko usporavanje satova dati su u referenci [A29]. 5
6 V. SPISAK PUBLIKACIJA A Radovi u medjunarodnim časopisima, IF > 1 [A1] D V Redžić and S S Redžić Image charge inclusions in the prolate dielectric spheroid J. Phys. D: Appl. Phys (2005) [A2] D V Redžić An extension of the magnetostatic image theory for a permeable sphere J. Phys. D: Appl. Phys (2006) [A3] D V Redžić Electromagnetostatic charges and fields in a rotating conducting sphere Prog. Electromagn. Res (2010) [A4] D V Redžić et al Derivations of relativistic force transformation equations J. of Electromagn. Waves and Appl (2011) [A5] D V Redžić Relativistic length agony continued Serb. Astron. J (2014) [A6] D V Redžić Direct calculation of length contraction and clock retardation Serb. Astron. J (2015) Radovi u medjunarodnim časopisima za Nastavu fizike, IF > 0.5 [A7] D V Redžić The Doppler effect and conservation laws revisited Am. J. Phys (1990) 6
7 [A8] D V Redžić On the electromagnetic field close to the surface of a moving conductor Am. J. Phys (1992) [A9] D V Redžić Image of a moving spheroidal conductor Am. J. Phys (1992) [A10] D V Redžić An electrostatic problem: a point charge outside a prolate dielectric spheroid Am. J. Phys (1994) [A11] D V Redžić The operator in orthogonal curvilinear coordinates Eur. J. Phys (2001) [A12] D V Redžić Electromagnetism of rotating conductors revisited Eur. J. Phys (2002) [A13] D V Redžić Image of a moving sphere and the FitzGerald-Lorentz contraction Eur. J. Phys (2004) [A14] D V Redžić Conductors moving in magnetic fields: approach to equilibrium Eur. J. Phys (2004) [A15] D V Redžić Momentum conservation and Einstein s 1905 Gedankenexperiment Eur. J. Phys (2005) 7
8 [A16] D V Redžić Does m = E rest /c 2? Eur. J. Phys (2006) [A17] D V Redžić and S S Redžić Image current inclusions in the permeable sphere Eur. J. Phys (2006) [A18] D V Redžić The magnetic field of a static circular current loop: a new derivation Eur. J. Phys. 27 N9-N14 (2006) [A19] D V Redžić Faraday s law via the magnetic vector potential Eur. J. Phys. 28 N7-N10 (2007) [A20] D V Redžić Towards disentangling the meaning of relativistic length contraction Eur. J. Phys (2008) [A21] D V Redžić Various paths to Faraday s law Eur. J. Phys (2008) [A22] D V Redžić Note on Dewan-Beran-Bell s spaceship problem Eur. J. Phys. 29 N11-N19 (2008) [A23] D V Redžić Charges and fields in a current-carrying wire Eur. J. Phys (2012) [A24] D V Redžić The calculation of the electrostatic potential of infinite charge distributions 8
9 Eur. J. Phys (2012) [A25] D V Redžić et al Image charge inclusion in the dielectric sphere revisited Eur. J. Phys (2012) [A26] D V Redžić and V Hnizdo Time-dependent fields of a current-carrying wire Eur. J. Phys (2013) [A27] D V Redžić The case of the Doppler effect for photons revisited Eur. J. Phys (2013) [A28] D V Redžić Force exerted by a moving electric current on a stationary or co-moving charge: Maxwell s theory versus relativistic electrodynamics Eur. J. Phys (2014) [A29] D V Redžić Subtleties of the clock retardation Eur. J. Phys (2015) Naučna kritika i polemika [A30] D V Redžić Comment on Some remarks on classical electromagnetism and the principle of relativity, by U. Bartocci and M. M. Capria [Am. J. Phys (1991)] Am. J. Phys (1993) [A31] D V Redžić Comment on Electrostatic images by multipole expansion, by J L Marin and R Rosas [Am. J. Phys (1984)] Am. J. Phys (1994) 9
10 [A32] D V Redžić Comment on the Compton effect Eur. J. Phys. 21 L9 (2000) [A33] D V Redžić Comment on electrostatic charges in v B fields Eur. J. Phys. 22 L1 - L2 (2001) [A34] D V Redžić Comment on Electrostatic image theory for the dielectric prolate spheroid by I V Lindell and K I Nikoskinen J. of Electromagn. Waves and Appl (2003) [A35] D V Redžić Electrostatic charges in v B fields: with or without special relativity? Eur. J. Phys. 25 L9-L11 (2004) [A36] D V Redžić Comment on Matrix representations for vector differential operators in general orthogonal coordinates by Š. Višňovský Czech. J. Phys (2005) [A37] D V Redžić Reply to comment on Faraday s law via the magnetic vector potential Eur. J. Phys. 29 L5 (2008) [A38] D V Redžić Comment on Note on Faraday s law and Maxwell s equations Eur. J. Phys. 29 L33-L35 (2008) [A39] D V Redžić Reply to comment on Note on Dewan-Beran-Bell s spaceship problem Eur. J. Phys. 30 L7-L9 (2009) 10
11 [A40] D V Redžić Comment on Lorentz contraction and current-carrying wires Eur. J. Phys. 31 L25-L27 (2010) [A41] D V Redžić Comment on Forces on a current loop and magnetic moment Eur. J. Phys. 34 L9-L10 (2013) Rad u medjunarodnom časopisu indeksiranom u Scopusu [A42] D Redžić and J Strnad Einstein s light complex Fizika A (2004) [A43] D V Redžić et al An extension of the Kelvin image theory to the conducting Heaviside ellipsoid Progress In Electromagnetics Research M (2011) Monografije, udžbenici, pomoćni udžbenici [B-1] Dragan Redžić Recurrent topics in special relativity: seven essays on the electrodynamics of moving bodies Beograd 2006 (authorial edition) E. Magistarski i doktorski rad [E-1] M. Sc. teza: Neki metodološki problemi elektrodinamike tela u kretanju, 2004, Fizički fakultet Univerziteta u Beogradu (engleski prevod ove teze, Some method- 11
12 ological problem of the electrodynamics of moving bodies, bio je niz godina dostupan na sajtu fakulteta) [E-2] Ph. D. disertacija: Egzaktna rešenja nekih problema elektrodinamike tela u kretanju u okviru magneto-fluidodinamičkog modela, 2009, Fizički fakultet Univerziteta u Beogradu VI. CITATI [A1] D V Redžić and S S Redžić, J. Phys. D: Appl. Phys (2005) 1. C Xue and S Deng, Phys. Rev. E (2010) 2. E Bichoutskaia, A L Boatwright, A Khachatourian, A J Stace, J. Chem. Phys (2010) 3. C Xue and S Deng, Phys. Rev. E (2011) 4. B Techaumnat and M Washizu, J. of Electrostatics (2011) 5. S Deng, C Xue, A Baumketner, D Jacobs and W Cai, J. Comput. Phys (2013) [A2] D V Redžić, J. Phys. D: Appl. Phys (2006) 1. A Bonanno, G Bozzo, M Camarca, P Sapia, Il Nuovo Cimento C (2010) 2. A Bonanno, M Camarca and P Sapia, Eur. J. Phys (2011) 3. S Wolf, Einfluss der Geometrie und Struktur von Körpermodellen auf die lokale Energiedeposition in der Hochfeld MRT, PhD thesis, Otto-von-Guericke- Universität Magdeburg (2013) [A3] D V Redžić, Prog. Electromagn. Res (2010) 1. L Zilberti, O Bottauscio and M Chiampi, IEEE Magnetics Letters (2015) 12
13 2. M A Masterova, The dynamics of a charged particle in the field of the rotating magnetized celestial body (in Russian), PhD thesis, Tomsk State University (2015) [A5] D V Redžić, Serb. Astron. J (2014) 1. Relativity 2. B Coleman, Results in Physics (2016) [A7] D V Redžić, Am. J. Phys (1990) 1. D C Lemons, Am. J. Phys (1991) 2. D C Lemons, Am. J. Phys (1991) 3. Y S Huang and K H Lu, Can. J. Phys (2004) 4. G Giuliani, Eur. J. Phys (2014) 5. G Giuliani, Eur. J. Phys (2015) [A8] D V Redžić, Am. J. Phys (1992) 1. V Poulbot, Contribution à l étude des champs électriques très basses fréquences en milieu océanique, PhD thesis, l École Central de Lyon, 1993 online at ECL Poulbot.pdf 2. J I Gersten, Am. J. Phys (2010) 3. P Moylan, Moving charge distributions in classical electromagnetism and the FitzGerald-Lorentz contraction (2010) online at [A9] D V Redžić, Am. J. Phys (1992) 1. C Yao, Am. J. Phys (1995) 2. A Cvitkovic, N Ocelic and R Hillenbrand, Optics Express (2007) 13
14 3. H R Brown, Physical relativity: space-time structure from a dynamical perspective (Oxford, Clarendon, 2005) 4. P Moylan, Moving charge distributions in classical electromagnetism and the FitzGerald-Lorentz contraction (2010) online at [A10] D V Redžić, Am. J. Phys (1994) 1. I V Lindell and K I Nikoskinen, J. of Electromagn. Waves and Appl (2003) 2. A Cvitkovic, N Ocelic and R Hillenbrand, Optics Express (2007) 3. S Deng, J. of Electrostatics (2008) 4. G Zhen-duo, D Yuan-gang, Z Xian-zhou, J Hui, Journal of Henan Normal University (Natural Science) (2009) 5. C Xue and S Deng, Commun. Comput. Phys (2010) 6. C Xue and S Deng, Phys. Rev. E (2010) 7. Z Xu and W Cai, SIAM Review (2011) 8. C Xue and S Deng, Physica E (2011) 9. L Duggen et al, Eur. J. Phys (2012) 10. B K Jawad, Modélisation de l électrolocation pour la bio-robotique, PhD thesis, l Université Nantes, S Deng, C Xue, A Baumketner, D Jacobs and W Cai, J. Comput. Phys (2013) 12. G Németh, Nanostruktúrák vizsgálata közeli terű infravörös spektroszkópiavál, M. Sc. thesis, BME Faculty of natural Sciences, Budapest University of Technology and Economics (2015) [A11] D V Redžić, Eur. J. Phys (2001) 14
15 1. Š Višňovský, Czech. J. Phys (2005) 2. D M Shyroki, IEEE Trans. on Microwave Theory and Techniques (2007) 3. E Stålberg, A high order method for simulation of fluid flow in complex geometries, Licentiate thesis, Department of Mechanics, KTH, 2005 online at erik stalberg.pdf 4. S Guarino, A stress-based approach to the solution of Saint Venant problem, PhD thesis, University of Naples, C Jung, E Park and R Temam, Boundary layer analysis of nonlinear reactiondiffusion equations in a smooth domain, Adv. Nonlinear Anal. (2016) ahead of print [A12] D V Redžić, Eur. J. Phys (2002) 1. E Bringuier, Eur. J. Phys (2003) 2. J C Phillips, Phil. Mag (2003) 3. E Bringuier, Eur. J. Phys. 25 L13-L15 (2004) 4. M de Montigny and G Rousseaux, Eur. J. Phys (2006) 5. B A Knyazev, I A Kotel nikov, A A Tyutin et al, Physics-Uspekhi (2006) [A13] D V Redžić, Eur. J. Phys (2004) 1. H R Brown, Physical relativity: space-time structure from a dynamical perspective (Oxford, Clarendon, 2005) 2. V M Red kov, B Rothenstein and G J Spix, Proceedings of 5th International Conference Bolyai-Gauss-Lobachevsky: Non-Euclidean Geometry in Modern Physics (BGL-5) (Minsk, Belarus, 2006), pp online at ifanbel.bas-net.by/bgl5/red-bern-spix.pdf 15
16 3. V Hnizdo, Regularization of the second-order partial derivatives of the Coulomb potential of a point charge (2006) online at 4. P Moylan, Moving charge distributions in classical electromagnetism and the FitzGerald-Lorentz contraction (2010) online at [A14] D V Redžić, Eur. J. Phys (2004) 1. M de Montigny and G Rousseaux, Eur. J. Phys (2006) 2. C C Sánchez, Forward and inverse analysis of electromagnetic fields for MRI using computational techniques, PhD thesis, University of Nottingham, 2008 online at etheses.nottingham.ac.uk/629/1/thesis.pdf 3. C C Sánchez, R W Bowtell, H Power et al, Eng. Anal. Bound. Elem (2009) 4. K Jokela and R D Saunders, Health Phys (2011) 5. C C Sánchez et al, Phys. Med.Biol (2012) 6. M Chiampi and L Zilberti, IEEE Trans. Biomed. Eng (2013) 7. L Zilberti and M Chiampi, Health Phys (2013) 8. A Trakic et al, IEEE Trans. Biomed. Eng., (2014) 9. G Ziegelberger, Health Phys (2014) 10. J A Redinz, Am. J. Phys (2015) 11. L Zilberti, O Bottauscio and M Chiampi, IEEE Magnetics Letters (2015) [A15] D V Redžić, Eur. J. Phys (2005) 1. B Y-K Hu, Eur. J. Phys (2009) 16
17 [A16] D V Redžić, Eur. J. Phys (2006) 1. J Güémez, Eur. J. Phys (2010) 2. J Güémez, Classical physics with 4-vectors: mechanics, thermodynamics and electromagnetism (Departamento de Física Aplicada, Universidad de Cantabria, 2011) online at 3. J Güémez, Physics Research International, Volume 2011, (2011) 4. J Güémez et al, Eur. J. Phys (2016) [A18] D V Redžić, Eur. J. Phys. 27 N9-N14 (2006) 1. S Mai, Magnetic Sisyphus cooling, M. Sc. thesis, University of Aarhus, 2007 online at Speciale.pdf 2. F Danieli, Shape optimization in magnetostatics, M. Sc. thesis, ETH Zürich (2015). [A19] D V Redžić, Eur. J. Phys. 28 N7-N10 (2007) 1. A L Kholmetskii, O V Missevitch and T Yarman, Eur. J. Phys. 29 L1-L4 (2008) 2. C C Sánchez, Forward and inverse analysis of electromagnetic fields for MRI using computational techniques, PhD thesis, University of Nottingham, 2008 online at etheses.nottingham.ac.uk/629/1/thesis.pdf 3. T Stein, The Nature of the Vector and Scalar Potentials and Gauge Invariance in the Context of Gauge Theory (2008) online at 4. F G Rodrigues, Formulações Equivalentes da Lei de Faraday, M. Sc. thesis, Universidade Estadual de Campinas, 2010 online at 17
18 5. R A Diaz et al, The role of the virtual work in Faraday s law (2011) online at 6. P Glover et al, Proc. Intl. Soc. Mag. Reson. Med.Phys (2009) 7. F G Rodrigues, Rev. Bras. Ens. Fis (2012) 8. E Benedetto et al, Eur. J. Phys. 33 L15-L20 (2012) 9. C C Sánchez et al, Phys. Med.Biol (2012) 10. E Benedetto, Some remarks about flux time derivative, Afrika Matematika (2016) ahead of print [A20]D V Redžić, Eur. J. Phys (2008) 1. J Foukzon, Generalized Principle of Limiting 4-Dimensional Symmetry. Solution of the Two-Spaceship Paradox (2009) online at 2. Y-Q Gu, Some Subtle Concepts in Fundamental Physics (2009) online at 3. A Sfarti, International Journal of Nuclear Energy Science and Technology (2012) 4. G Boardman, An information theory interpretation of relativistic phenomena, PhD thesis, Swinburne University of Technology, 2012 [A21] D V Redžić, Eur. J. Phys (2008) 1. A L Kholmetskii, O V Missevitch and T Yarman, Eur. J. Phys. 29 N5-N10 (2008) 2. R A Diaz et al, The role of the virtual work in Faraday s law (2011) online at [A22] D V Redžić, Eur. J. Phys. 29 N11-N19 (2008) 18
19 1. D V Peregoudov, Eur. J. Phys. 30 L3-L5 (2009) 2. J Foukzon, Generalized Principle of Limiting 4-Dimensional Symmetry. Solution of the Two-Spaceship Paradox (2009) online at 3. S A Podosenov, J Foukzon, A A Potapov, J. Bell s problem and research of the electronic clots in linear collider, Nonlinear World (2009) (in Russian) 4. J Franklin, Eur. J. Phys (2010) 5. S A Podosenov, J Foukzon, A A Potapov, Gravitation and Cosmology (2010) 6. F Fernflores, International Studies in the Philosophy of Science (2011) 7. Z Ghim, Bell s Spaceship Gedankenexperiment and the Dynamical Perspective on the Space and Time, Journal of Philosophical Ideas, issue 49, (2013) 8. Q-P Ma, The Theory of Relativity: Principles, Logic and Experimental Foundation (Nova Science Publishers, New York, 2013) 9. K-P Marzlin and T Lee, Phys. Rev. A (2014) 10. F Kennard, Thought Experiments: Popular Thought Experiments in Philosophy, Physics..., (AMF, 2015) 11. B Coleman, Results in Physics (2016) 12. C Christodoulides, The Special Theory of Relativity: Foundations, Theory, Verification, Applications (Springer, New York, 2016) s spaceship paradox 14. S A Podosenov et al, IJRAP 3 No. 1, (2014) 15. S A Podosenov et al, IJRAP 3 No. 2, 1-20 (2014) [A23] D V Redžić, Eur. J. Phys (2012) 19
20 1. R Folman, J. Phys.: Conf. Ser (2013); arxiv: (2012) 2. G. Fera, La didattica in prospettiva verticale delle proprietà di trasporto elettrico nei solidi: i modelli microscopici partendo dalla fenomenologia, PhD Thesis, University of Udine, D R MacDermott, Determining if an axially rotated solenoid will induce a radial EMF, M. Sc. thesis, Western Illinois University, 2015 [A31] D V Redžić, Am. J. Phys (1994) 1. J C-E Sten and I V Lindell, J. of Electromagn. Waves and Appl (1995) 2. I V Lindell, G Dassios and K I Nikoskinen, J. Phys. D: Appl. Phys (2001) 3. I V Lindell and K I Nikoskinen, J. of Electromagn. Waves and Appl (2001) 4. X Chen, E Bichoutskaia and A J Stace, J. Phys. Chem. A (2013) [A33] D V Redžić, Eur. J. Phys. 22 L1-L2 (2001) 1. P Lorrain, Eur. J. Phys. 22 L3-L4 (2001) 2. E Bringuier, Eur. J. Phys (2003) 3. P Lorrain, F Lorrain and S Houle, Magneto-fluid dynamics: fundamentals and case studies of natural phenomena (New York, Springer, 2006) 4. C C Sánchez, Forward and inverse analysis of electromagnetic fields for MRI using computational techniques, PhD thesis, University of Nottingham, 2008 online at etheses.nottingham.ac.uk/629/1/thesis.pdf 5. E Bringuier, Eur. J. Phys (2012) 6. C C Sánchez et al, Phys. Med.Biol (2012) 20
21 7. J A Redinz, Am. J. Phys (2015) 8. J A Redinz, Eur. J. Phys (2015) [A34] D V Redžić, J. of Electromagn. Waves and Appl (2003) 1. I V Lindell and K I Nikoskinen, J. of Electromagn. Waves and Appl (2003) 2. E Bichoutskaia, A L Boatwright, A Khachatourian, A J Stace, J. Chem. Phys (2010) 3. S Deng, C Xue, A Baumketner, D Jacobs and W Cai, J. Comput. Phys (2013) [A35] D V Redžić, Eur. J. Phys. 25 L9-L11 (2004) 1. E Bringuier, Eur. J. Phys. 25 L13-L15 (2004) 2. M de Montigny and G Rousseaux, Eur. J. Phys (2006) 3. E Bringuier, Eur. J. Phys (2012) [A37] D V Redžić, Eur. J. Phys. 29 L5 (2008) 1. A L Kholmetskii, O V Missevitch and T Yarman, Eur. J. Phys. 29 N5-N10 (2008) 2. F G Rodrigues, Formulações Equivalentes da Lei de Faraday, Mr. Sc. thesis, Universidade Estadual de Campinas, 2010 online at 3. F G Rodrigues, Rev. Bras. Ens. Fis (2012) 4. E Benedetto et al, Eur. J. Phys. 33 L15-L20 (2012) 5. A Trakic et al, IEEE Trans. Biomed. Eng., (2014) 6. E Benedetto, Some remarks about flux time derivative, Afrika Matematika (2016) ahead of print 21
22 [A38] D V Redžić, Eur. J. Phys. 29 L33-L35 (2008) 1. A L Kholmetskii, O V Missevitch and T Yarman, Eur. J. Phys. 29 L37-L39 (2008) [A39] D V Redžić, Eur. J. Phys. 30 L7 (2009) 1. F Fernflores, International Studies in the Philosophy of Science (2011) 2. Z Ghim, Bell s Spaceship Gedankenexperiment and the Dynamical Perspective on the Space and Time, Journal of Philosophical Ideas, issue 49, (2013) 3. s spaceship paradox 4. F Kennard, Thought Experiments: Popular Thought Experiments in Philosophy, Physics..., (AMF, 2015) [A40] D V Redžić, Eur. J. Phys. 31 L25-L27 (2010) 1. P van Kampen, Eur. J. Phys. 31 L29-L30 (2010) 2. P van Kampen, Current-Carrying Wires and Special Relativity, in Trends in Electromagnetism From Fundamentals to Applications, InTech (2012) [A42] D Redžić and J Strnad, Fizika A (2004) 1. V Guruprasad, (2016) [A43] D V Redžić et al, Prog. Electromagn. Res. M (2011) 1. K Bhattacharya, J. Electrost (2013) [E-1] D V Redžić, M. Sc. thesis, Faculty of Physics, University of Belgrade (2004) 1. D R MacDermott, Determining if an axially rotated solenoid will induce a radial EMF, M. Sc. thesis, Western Illinois University,
23 Z A K LJ U Č A K Na osnovu prethodno izloženih podataka o nastavnom i naučnom radu kandidata, Komisija smatra da dr Dragan Redžić zadovoljava sve propisane kriterijume za izbor u zvanje docenta. Njegov dosadašnji rad pokazuje visoku sposobnost, zainteresovanost i stručnost za oblast Nastava fizike, te je Komisija uverena u sposobnost kandidata da pruži visok kvalitet nastave iz navedene oblasti. Stoga sa zadovoljstvom preporučujemo Nastavno-naučnom veću Fizičkog fakulteta da izabere dr Dragana Redžića za docenta za naučnu oblast Nastava fizike. Beograd, 6. maj godine. Komisija, dr Mićo Mitrović, redovni profesor Fizičkog fakulteta, Beograd dr Bratislav Obradović, vanredni profesor Fizičkog fakulteta, Beograd dr Maja Stojanović, vanredni profesor PMF, Novi Sad 23
CLASSICAL ELECTRICITY
CLASSICAL ELECTRICITY AND MAGNETISM by WOLFGANG K. H. PANOFSKY Stanford University and MELBA PHILLIPS Washington University SECOND EDITION ADDISON-WESLEY PUBLISHING COMPANY Reading, Massachusetts Menlo
More informationUvod u relacione baze podataka
Uvod u relacione baze podataka Ana Spasić 2. čas 1 Mala studentska baza dosije (indeks, ime, prezime, datum rodjenja, mesto rodjenja, datum upisa) predmet (id predmeta, sifra, naziv, bodovi) ispitni rok
More informationPHYSICS LECTURES ON. 'ftt/tatt DEFINITIVE EDITION VOLUME II FEYNMAN LEIGHTON SANDS. Addison Wesley PEARSON
'ftt/tatt LECTURES ON PHYSICS DEFINITIVE EDITION FEYNMAN LEIGHTON SANDS PEARSON Addison Wesley San Francisco Boston New York CapeTown Hong Kong London Madrid MexicoCity Montreal Munich Paris Singapore
More informationProjektovanje paralelnih algoritama II
Projektovanje paralelnih algoritama II Primeri paralelnih algoritama, I deo Paralelni algoritmi za množenje matrica 1 Algoritmi za množenje matrica Ovde su data tri paralelna algoritma: Direktan algoritam
More informationINTRODUCTION TO ELECTRODYNAMICS
INTRODUCTION TO ELECTRODYNAMICS Second Edition DAVID J. GRIFFITHS Department of Physics Reed College PRENTICE HALL, Englewood Cliffs, New Jersey 07632 CONTENTS Preface xi Advertisement 1 1 Vector Analysis
More informationComment about Didactical formulation of the
Comment about Didactical formulation of the Ampère law Hendrik van Hees Institute for Theoretical Physics, Goethe University Frankfurt, Max-von-Laue-Str. 1, D-60438 Frankfurt, Germany Frankfurt Institute
More informationPhysics For Scientists and Engineers A Strategic Approach 3 rd Edition, AP Edition, 2013 Knight
For Scientists and Engineers A Strategic Approach 3 rd Edition, AP Edition, 2013 Knight To the Advanced Placement Topics for C *Advanced Placement, Advanced Placement Program, AP, and Pre-AP are registered
More informationRELATIVISTIC TRANSFORMATION OF MAGNETIC DIPOLE MOMENT
Progress In Electromagnetics Research B, Vol. 47, 63 78, 013 RELATIVISTIC TRANSFORMATION OF MAGNETIC DIPOLE MOMENT Alexander Kholmetskii 1, *, Oleg Missevitch, and Tolga Yarman 3, 4 1 Belarus State University,
More informationfiziks Institute for NET/JRF, GATE, IIT-JAM, JEST, TIFR and GRE in PHYSICAL SCIENCES
Content-ELECTRICITY AND MAGNETISM 1. Electrostatics (1-58) 1.1 Coulomb s Law and Superposition Principle 1.1.1 Electric field 1.2 Gauss s law 1.2.1 Field lines and Electric flux 1.2.2 Applications 1.3
More informationPhysics 402: Electricity & Magnetism II
Physics 402: Electricity & Magnetism II (i.e. time-dependent electromagnetism) [image from weapons.technology.youngester.com] Prof. Seth Aubin Office: room 255, Small Hall, tel: 1-3545 Lab: room 069, Small
More informationPhysics 402: Electricity & Magnetism II
Physics 402: Electricity & Magnetism II (i.e. time-dependent electromagnetism) [image from www.apdconsumo.pt] [image from weapons.technology.youngester.com] Instructors Prof. Seth Aubin Office: room 255,
More informationDEPARTMENT OF PHYSICS
Department of Physics 1 DEPARTMENT OF PHYSICS Office in Engineering Building, Room 124 (970) 491-6206 physics.colostate.edu (http://www.physics.colostate.edu) Professor Jacob Roberts, Chair Undergraduate
More informationNastavno-naučnom veću Fakulteta za fizičku hemiju Univerziteta u Beogradu
Nastavno-naučnom veću Fakulteta za fizičku hemiju Univerziteta u Beogradu Na sednici Nastavno-naučnog veća Fakulteta za fizičku hemiju Univerziteta u Beogradu održanoj 12.02.2015. godine određeni smo za
More informationONE CENTURY LATER: REMARKS ON THE BARNETT EXPERIMENT
ONE CENTURY LATER: REMARKS ON THE BARNETT EXPERIMENT Alexander L. Kholmetskii Department of Physics Belarus State University 4, F. Skorina Avenue 220080 Minsk, Belarus E-mail: kholm@bsu.by Abstract The
More informationPhysics 402: Electricity & Magnetism II
Physics 402: Electricity & Magnetism II (i.e. time-dependent electromagnetism) [image from www.apdconsumo.pt] [image from weapons.technology.youngester.com] Instructors Prof. Seth Aubin Office: room 255,
More informationClassical Field Theory
April 13, 2010 Field Theory : Introduction A classical field theory is a physical theory that describes the study of how one or more physical fields interact with matter. The word classical is used in
More informationSYLLABUS. Course Applications Course Applications Indiv. study S L P S L P
1. Data about the program of study SYLLABUS 1.1 Institution The Technical University of Cluj-Napoca 1.2 Faculty Electrical Engineering 1.3 Department Electrotechnics and Measurements 1.4 Field of study
More informationDynamics inertia, mass, force. Including centripetal acceleration
For the Singapore Junior Physics Olympiad, no question set will require the use of calculus. However, solutions of questions involving calculus are acceptable. 1. Mechanics Kinematics position, displacement,
More informationCHAPTER 8 CONSERVATION LAWS
CHAPTER 8 CONSERVATION LAWS Outlines 1. Charge and Energy 2. The Poynting s Theorem 3. Momentum 4. Angular Momentum 2 Conservation of charge and energy The net amount of charges in a volume V is given
More informationPhysics 4322 Spring Section Introduction to Classical Electrodynamics - Part 2
Physics 4322 Spring 2018 - Section 13301 Introduction to Classical Electrodynamics - Part 2 Text - Introduction to Electrodynamics; - David Griffiths Publisher - Pretice-Hall Supplementary Material - Feynman
More informationCHAPTER 7 ELECTRODYNAMICS
CHAPTER 7 ELECTRODYNAMICS Outlines 1. Electromotive Force 2. Electromagnetic Induction 3. Maxwell s Equations Michael Faraday James C. Maxwell 2 Summary of Electrostatics and Magnetostatics ρ/ε This semester,
More informationWaves. Decibels. Chapter 21: Dimension
Chapter 20: 20.1 The Wave Model 20.2 One Dimensional 20.3 Sinusoidal 20.4 Sound Light 20.5 Index of Refraction 20.6 Power, Intensity, Decibels 20.7 The Doppler Effect Chapter 21: 21.1 The Principle of
More informationELECTROMAGNETIC FIELDS AND RELATIVISTIC PARTICLES
ELECTROMAGNETIC FIELDS AND RELATIVISTIC PARTICLES Emil J. Konopinski Professor of Physics Indiana University McGraw-Hill Book Company New York St. Louis San Francisco Auckland Bogota Hamburg Johannesburg
More informationOn the Relativistic Transformation of Force
Apeiron, Vol. 1, No., April 005 178 On the Relativistic Transformation of Force Alexander L. Kholmetskii Department of Physics, Belarus State University, 4, F. Skorina Avenue, 0080 Minsk Belarus E-mail:
More informationRešenja zadataka za vežbu na relacionoj algebri i relacionom računu
Rešenja zadataka za vežbu na relacionoj algebri i relacionom računu 1. Izdvojiti ime i prezime studenata koji su rođeni u Beogradu. (DOSIJE WHERE MESTO_RODJENJA='Beograd')[IME, PREZIME] where mesto_rodjenja='beograd'
More informationClassical Electrodynamics
Classical Electrodynamics Third Edition John David Jackson Professor Emeritus of Physics, University of California, Berkeley JOHN WILEY & SONS, INC. Contents Introduction and Survey 1 I.1 Maxwell Equations
More informationTEORIJA SKUPOVA Zadaci
TEORIJA SKUPOVA Zadai LOGIKA 1 I. godina 1. Zapišite simbolima: ( x nije element skupa S (b) d je član skupa S () F je podskup slupa S (d) Skup S sadrži skup R 2. Neka je S { x;2x 6} = = i neka je b =
More informationENV level elective. ENV 200 Intro to Environmental Science 4 credits ENV 330 Ecosystems and Ecological Design 4 credits
PHYSICS Andrew Dawes, Chair; James Butler, Stephen Hall The program in physics is designed to prepare students for a variety of career paths including (but not limited to) physics and engineering graduate
More informationCollege Physics 10th edition
College Physics 10th edition Raymond A. Serway and Chris Vuille Publisher: Cengage Learning Table of Contents PHY101 covers chapters 1-8 PHY102 covers chapters 9-25 Chapter 1: Introduction 1.1: Standards
More informationINSTITUTE OF AERONAUTICAL ENGINEERING Dundigal, Hyderabad Electronics and Communicaton Engineering
INSTITUTE OF AERONAUTICAL ENGINEERING Dundigal, Hyderabad - 00 04 Electronics and Communicaton Engineering Question Bank Course Name : Electromagnetic Theory and Transmission Lines (EMTL) Course Code :
More informationUnit assessments are composed of multiple choice and free response questions from AP exams.
AP Physics B Text: Serway, Raymond A., and Jerry S. Faugh, College Physics, 7 th ed. Belmont, CA: Thomson Brooks/Cole, 2006. Course evaluation: - Grade determination Final Exam 15% Unit Exams 42.5% Daily
More informationEnergy and Momentum Considerations in an Ideal Solenoid
J. Electromagnetic Analysis & Applications,, : 69-73 doi:.436/jemaa..34 Published Online March (http://www.scirp.org/journal/jemaa) Energy and Momentum Considerations in an Ideal Solenoid Sami Mohammad
More informationr r 1 r r 1 2 = q 1 p = qd and it points from the negative charge to the positive charge.
MP204, Important Equations page 1 Below is a list of important equations that we meet in our study of Electromagnetism in the MP204 module. For your exam, you are expected to understand all of these, and
More informationarxiv:physics/ v1 [physics.class-ph] 2 Dec 1996
arxiv:physics/96100v1 [physics.class-ph] Dec 1996 NONLINEAR MAXWELL EQUATIONS G.A. Kotel nikov 1318, RRC Kurchatov Institute, Moscow, Russia e-mail: kga@kga.kiae.su Abstract A new relativistic invariant
More informationBOOKS BY IVAN GUTMAN
BOOKS BY IVAN GUTMAN 1. A. Graovac, I. Gutman, N. Trinajstić TOPOLOGICAL APPROACH TO THE CHEMISTRY OF CONJUGATED MOLECULES Springer, Berlin, 1977, pp. X+123. 2. I. Gutman, O. E. Polansky MATHEMATICAL CONCEPTS
More informationPhysics 610: Electricity & Magnetism I
Physics 610: Electricity & Magnetism I [i.e. relativistic EM, electro/magneto-statics] [lin12.triumph.ca] [J-lab accelerator] [ixnovi.people.wm.edu] [Thywissen group, U. of Toronto] [nanotechetc.com] [wikipedia.org]
More informationTeaching Electromagnetic Fields with Computer Visualization
Paper # 209, ENG 107 Teaching Electromagnetic Fields with Computer Visualization Yeqin Huang, Bill W. Yang, Robert Adams, Brian Howell, James Z. Zhang, and Kenneth Burbank Department of Engineering and
More informationON INTERACTIONS BETWEEN (1) CERES AND (2) PALLAS
Serb. Astron. J. 158 (l998), 61 66 UDC 523.44 32 Preliminary report ON INTERACTIONS BETWEEN (1) CERES AND (2) PALLAS M. Kuzmanoski Faculty of Mathematics, Department of Astronomy, Studentski trg 16, 11000
More informationClassical electromagnetism - Wikipedia, the free encyclopedia
Page 1 of 6 Classical electromagnetism From Wikipedia, the free encyclopedia (Redirected from Classical electrodynamics) Classical electromagnetism (or classical electrodynamics) is a branch of theoretical
More informationTransformation for the energy flux of the electromagnetic wave
Apeiron, Vol. 17, No. 2, April 2010 73 Transformation for the energy flux of the electromagnetic wave D.L. Khokhlov Sumy State University R.-Korsakov St. 2, Sumy 40007, Ukraine e-mail: dlkhokhl@rambler.ru
More informationPhysics 610: Electricity & Magnetism I
Physics 610: Electricity & Magnetism I [i.e. relativistic EM, electro/magneto-(quasi)statics] [lin12.triumph.ca] [J-lab accelerator] [ixnovi.people.wm.edu] [Thywissen group, U. of Toronto] [nanotechetc.com]
More information4/13/2015. Outlines CHAPTER 12 ELECTRODYNAMICS & RELATIVITY. 1. The special theory of relativity. 2. Relativistic Mechanics
CHAPTER 12 ELECTRODYNAMICS & RELATIVITY Lee Chow Department of Physics University of Central Florida Orlando, FL 32816 Outlines 1. The special theory of relativity 2. Relativistic Mechanics 3. Relativistic
More informationB.S. PHYSICS DEGREE PROGRAM
B.S. PHYSICS DEGREE PROGRAM Students can obtain a Bachelor of Science degree in Physics by completing 74 credit hours in Physics, Math, Computer Science and Chemistry as indicate below. Additionally, 52
More informationContents PART ONE. To access a particular chapter, double click on that chapter below.
To access a particular chapter, double click on that chapter below. Contents Preface A Special Note to the Student Computer Assisted Instruction PART ONE Mechanics 1 Introduction and Measurements 1.1 Historical
More informationInterpretation of Modified Electromagnetic Theory and Maxwell's Equations on the Basis of Charge Variation
International Journal of Electrical and Computer Engineering (IJECE) Vol. 4, No. 2, April 2014, pp. 231~236 ISSN: 2088-8708 231 Interpretation of Modified Electromagnetic Theory and Maxwell's Equations
More informationThe Problem of Slow-witted Aliens, or. The Transverse Doppler Effect Simply Explained
The Problem of Slow-witted Aliens, or The Transverse Doppler Effect Simply Explained Vadim Matvejev 1, Oleg Matvejev 2 1-Jun-2016 Abstract The subject of this article is the dependence of observation results
More informationCurrents (1) Line charge λ (C/m) with velocity v : in time t, This constitutes a current I = λv (vector). Magnetic force on a segment of length dl is
Magnetostatics 1. Currents 2. Relativistic origin of magnetic field 3. Biot-Savart law 4. Magnetic force between currents 5. Applications of Biot-Savart law 6. Ampere s law in differential form 7. Magnetic
More informationDescribe the forces and torques exerted on an electric dipole in a field.
Learning Outcomes - PHYS 2015 Electric charges and forces: Describe the electrical nature of matter; Explain how an object can be charged; Distinguish between electrical conductors and insulators and the
More informationWith Modern Physics For Scientists and Engineers
With Modern Physics For Scientists and Engineers Third Edition Richard Wolfson Middlebury College Jay M. Pasachoff Williams College ^ADDISON-WESLEY An imprint of Addison Wesley Longman, Inc. Reading, Massachusetts
More information2.5.1 Static tides Tidal dissipation Dynamical tides Bibliographical notes Exercises 118
ii Contents Preface xiii 1 Foundations of Newtonian gravity 1 1.1 Newtonian gravity 2 1.2 Equations of Newtonian gravity 3 1.3 Newtonian field equation 7 1.4 Equations of hydrodynamics 9 1.4.1 Motion of
More informationMagnetostatics III. P.Ravindran, PHY041: Electricity & Magnetism 1 January 2013: Magntostatics
Magnetostatics III Magnetization All magnetic phenomena are due to motion of the electric charges present in that material. A piece of magnetic material on an atomic scale have tiny currents due to electrons
More informationChapter 8. Conservation Laws. 8.3 Magnetic Forces Do No Work
Chapter 8. Conservation Laws 8.3 Magnetic Forces Do No Work 8.2 Momentum of EM fields 8.2.1 Newton's Third Law in Electrodynamics Consider two charges, q 1 and q 2, moving with speeds v 1 and v 2 magnetic
More informationElectrostatic analysis of the interactions between charged particles of dielectric materials
THE JOURNAL OF CHEMICAL PHYSICS 33, 02405 200 Electrostatic analysis of the interactions between charged particles of dielectric materials Elena Bichoutskaia,,a Adrian L. Boatwright, Armik Khachatourian,
More informationFrank Y. Wang. Physics with MAPLE. The Computer Algebra Resource for Mathematical Methods in Physics. WILEY- VCH WILEY-VCH Verlag GmbH & Co.
Frank Y. Wang Physics with MAPLE The Computer Algebra Resource for Mathematical Methods in Physics WILEY- VCH WILEY-VCH Verlag GmbH & Co. KGaA k Preface Guide for Users Bibliography XI XVII XIX 1 Introduction
More informationJAMES Clerk Maxwell published 3 famous papers on
1 A Revised Formulation of Maxwell s Equations Krishna Srinivasan Abstract In 1864, James Clerk Maxwell formulated a set of electromagnetic equations to describe the interactions between electric and magnetic
More informationTopics for the Qualifying Examination
Topics for the Qualifying Examination Quantum Mechanics I and II 1. Quantum kinematics and dynamics 1.1 Postulates of Quantum Mechanics. 1.2 Configuration space vs. Hilbert space, wave function vs. state
More informationUniqueness theorems, Separation of variables for Poisson's equation
NPTEL Syllabus Electrodynamics - Web course COURSE OUTLINE The course is a one semester advanced course on Electrodynamics at the M.Sc. Level. It will start by revising the behaviour of electric and magnetic
More informationMASTER SYLLABUS
MASTER SYLLABUS 2019-2020 A. Academic Division: Business, Industry and Technology B. Discipline: Physics C. Course Number and Title: PHYS1130 General Physics II D. Course Coordinator: Gary Wood Assistant
More informationElectromagnetic Theory Prof. D. K. Ghosh Department of Physics Indian Institute of Technology, Bombay
Electromagnetic Theory Prof. D. K. Ghosh Department of Physics Indian Institute of Technology, Bombay Module - 4 Time Varying Field Lecture - 30 Maxwell s Equations In the last lecture we had introduced
More informationИмпакт-факторы зарубежных научных журналов по физике
Импакт-факторы зарубежных научных журналов по физике Импактфактор Название журнала п/п 1. REVIEWS OF MODERN 30.254 2. ASTROPHYSICAL JOURNAL SUPPLEMENT SER 14.428 3. MATERIALS SCIENCE & ENGINEERING R-REPORTS
More informationFaculty of Physics University of Belgrade, P. O. Box 368, Beograd 11001, Serbia. Faculty of Engineering and Computing, DCU, Ireland
J. of Electromagn. Waves and Appl., Vol. 25, 1146 1155, 2011 DERIVATIONS OF RELATIVISTIC FORCE TRANSFORMATION EQUATIONS D. V. Redžić Faculty of Physics University of Belgrade, P. O. Box 368, Beograd 11001,
More informationUNIT I ELECTROSTATIC FIELDS
UNIT I ELECTROSTATIC FIELDS 1) Define electric potential and potential difference. 2) Name few applications of gauss law in electrostatics. 3) State point form of Ohm s Law. 4) State Divergence Theorem.
More information2. Find a solution of y" 0. (15%) 4. Find the Fourier transform of the function. . (15%) Evaluate . (15%)
1. Let A be constant vector and R iˆ yj ˆ zkˆ. Calculate (a) ( R A) (b) ( R A) (c) ( R A). Find a solution of y" y' y 4e. Use the Matri Methods to solve the system as below. 1 1 4 7 4 4 5 5 4. Find the
More informationPHYS 532 Lecture 8 Page GAUGE TRANSFORMATIONS E =!" #A B =! " A (6.7) #(! A) = $/% o A A + Λ (6.12) Φ Φ!"
PHYS 532 Lecture 8 Page 1 6.3 GAUGE TRANSFORMATIONS Results for scalar and vector potentials: E =!" #A #t (6.9) Inhomogeneous Maxwell equations in terms of A, Φ B =! " A (6.7)! 2 " + #(! A) #t = $/% o
More informationPHYSICS-PH (PH) Courses. Physics-PH (PH) 1
Physics-PH (PH) 1 PHYSICS-PH (PH) Courses PH 110 Physics of Everyday Phenomena (GT-SC2) Credits: 3 (3-0-0) Fundamental concepts of physics and elementary quantitative reasoning applied to phenomena in
More informationDependence of the total -electron energy on a large number of non-bonding molecular orbitals
J. Serb. Chem. Soc. 69 (10) 777 782 (2004) UDC 54 724+537.872:519.17:54 12 JSCS 3204 Original scientific paper Dependence of the total -electron energy on a large number of non-bonding molecular orbitals
More informationClass 3: Electromagnetism
Class 3: Electromagnetism In this class we will apply index notation to the familiar field of electromagnetism, and discuss its deep connection with relativity Class 3: Electromagnetism At the end of this
More informationElectromagnetic Theory: PHAS3201, Winter 2008 Preliminaries D. R. Bowler drb/teaching.
Electromagnetic Theory: PHA3201, Winter 2008 Preliminaries D. R. Bowler david.bowler@ucl.ac.uk http://www.cmmp.ucl.ac.uk/ drb/teaching.html 1 yllabus The course can be split into three main areas: electric
More informationChapter 12. Electrodynamics and Relativity. Does the principle of relativity apply to the laws of electrodynamics?
Chapter 12. Electrodynamics and Relativity Does the principle of relativity apply to the laws of electrodynamics? 12.1 The Special Theory of Relativity Does the principle of relativity apply to the laws
More informationSpin Connection Resonance in Magnetic Motors
4 Spin Connection Resonance in Magnetic Motors by Myron W. Evans, Alpha Institute for Advanced Study, Civil List Scientist. (emyrone@aol.com and www.aias.us) and H. Eckardt, Alpha Institute for Advanced
More informationON THE TWO BODY PROBLEM UDC (045)=20. Veljko A. Vujičić
FACTA UNIVERSITATIS Series: Mechanics, Automatic Control and Robotics Vol. 4, N o 7, 005, pp. 03-07 ON THE TWO BODY PROBLEM UDC 53.5(045)0 Veljko A. Vujičić Mathematical Institute, JANN, 00 Belgrade, p.p.
More informationUNIT-I INTRODUCTION TO COORDINATE SYSTEMS AND VECTOR ALGEBRA
SIDDHARTH GROUP OF INSTITUTIONS :: PUTTUR Siddharth Nagar, Narayanavanam Road 517583 QUESTION BANK (DESCRIPTIVE) Subject with Code : EMF(16EE214) Sem: II-B.Tech & II-Sem Course & Branch: B.Tech - EEE Year
More informationChapter 1. Introduction
Chapter 1 Introduction The book Introduction to Modern Physics: Theoretical Foundations starts with the following two paragraphs [Walecka (2008)]: At the end of the 19th century, one could take pride in
More informationElectromagnetic Field Theory Chapter 9: Time-varying EM Fields
Electromagnetic Field Theory Chapter 9: Time-varying EM Fields Faraday s law of induction We have learned that a constant current induces magnetic field and a constant charge (or a voltage) makes an electric
More informationMathcad sa algoritmima
P R I M J E R I P R I M J E R I Mathcad sa algoritmima NAREDBE - elementarne obrade - sekvence Primjer 1 Napraviti algoritam za sabiranje dva broja. NAREDBE - elementarne obrade - sekvence Primjer 1 POČETAK
More informationElastic - plastic analysis of crack on bimaterial interface
Theoret. Appl. Mech., Vol.32, No.3, pp. 193 207, Belgrade 2005 Elastic - plastic analysis of crack on bimaterial interface Ruzica R. Nikolic Jelena M. Veljkovic Abstract In this paper are presented solutions
More informationElectromagnetic Fields. Lecture 2. Fundamental Laws
Electromagnetic Fields Lecture 2 Fundamental Laws Laws of what? Electric field... is a phenomena that surrounds electrically charged objects or that which is in the presence of a time-varying magnetic
More informationIZVEXTAJ. 1. Biografija kandidata. 2. Nauqni i struqni rad. Nastavno nauqnom ve u Matematiqkog fakulteta Univerziteta u Beogradu
Nastavno nauqnom ve u Matematiqkog fakulteta Univerziteta u Beogradu Na 339. toj sednici Nastavno nauqnog ve a Matematiqkog fakulteta, odrжanoj 24. februara 2017. godine, određeni smo za qlanove komisije
More informationRelativity SPECIAL, GENERAL, AND COSMOLOGICAL SECOND EDITION. Wolfgang Rindler. Professor of Physics The University of Texas at Dallas
Relativity SPECIAL, GENERAL, AND COSMOLOGICAL SECOND EDITION Wolfgang Rindler Professor of Physics The University of Texas at Dallas OXPORD UNIVERSITY PRESS Contents Introduction l 1 From absolute space
More informationLewin s Circuit Paradox
1 Problem Lewin s Circuit Paradox Kirk T. McDonald Joseph Henry Laboratories, Princeton University, Princeton, NJ 08544 (May 7, 2010) W. Lewin of MIT has given an example of a deceptively simple circuit
More informationRESEARCH PROJECT: Investigation of Relativistic Longitudinal Gauge Fields. and their Interactions. Abstract
RESEARCH PROJECT: Investigation of Relativistic Longitudinal Gauge Fields and their Interactions By: Dale Alan Woodside, Ph.D. Department of Physics, Macquarie University Sydney, New South Wales 2109,
More informationCHAPTER 29: ELECTROMAGNETIC INDUCTION
CHAPTER 29: ELECTROMAGNETIC INDUCTION So far we have seen that electric charges are the source for both electric and magnetic fields. We have also seen that these fields can exert forces on other electric
More informationTEACHER CERTIFICATION STUDY GUIDE
Table of Contents Pg. Domain I. Mechanics Vectors (properties; addition and subtraction)... 129H1 Vector multiplication (dot and cross product)... 130H3 Motion along a straight line (displacement, velocity,
More informationAdvanced Physics in Creation Table of Contents
Module #1: Units and Vectors Revisited Advanced Physics in Creation Table of Contents Introduction.. 1 Units Revisited.. 1 A Review of Vectors.... 5 Unit Vectors.. 12 The Dot Product... 15 The Physical
More informationINDEX 363. Cartesian coordinates 19,20,42, 67, 83 Cartesian tensors 84, 87, 226
INDEX 363 A Absolute differentiation 120 Absolute scalar field 43 Absolute tensor 45,46,47,48 Acceleration 121, 190, 192 Action integral 198 Addition of systems 6, 51 Addition of tensors 6, 51 Adherence
More informationCHAPTER 2 Special Theory of Relativity Part 2
CHAPTER 2 Special Theory of Relativity Part 2 2.1 The Apparent Need for Ether 2.2 The Michelson-Morley Experiment 2.3 Einstein s Postulates 2.4 The Lorentz Transformation 2.5 Time Dilation and Length Contraction
More informationUniversity Of Pennsylvania Department of Physics PHYS 141/151 Engineering Physics II (Course Outline)
University Of Pennsylvania Department of Physics PHYS 141/151 Engineering Physics II (Course Outline) Instructor: Dr. Michael A. Carchidi Textbooks: Sears & Zemansky s University Physics by Young and Freedman
More informationSUGGESTED LESSON PLANS FOR PHY 097 SEMESTER NOV10 Text Book : PHYSICS FOR SCIENTISTS & ENGINEERS WITH MODERN PHYSICS BY GIANCOLI, FOURTH EDITION
SUGGESTED LESSON PLANS FOR PHY 097 SEMESTER NOV0 Text Book : PHYSICS FOR SCIENTISTS & ENGINEERS WITH MODERN PHYSICS BY GIANCOLI, FOURTH EDITION Week Topics Section Page Hrs Sub-Topics WAVES AND OPTICS,.0
More informationNewton s Gravity from Heisenberg s Uncertainty Principle An In-Depth Study of the McCulloch Derivation
Newton s Gravity from Heisenberg s Uncertainty Principle An In-Depth Study of the McCulloch Derivation Espen Gaarder Haug Norwegian University of Life Sciences March 5, 208 Abstract Mike McCulloch has
More informationCHETTINAD COLLEGE OF ENGINEERING & TECHNOLOGY NH-67, TRICHY MAIN ROAD, PULIYUR, C.F , KARUR DT.
CHETTINAD COLLEGE OF ENGINEERING & TECHNOLOGY NH-67, TRICHY MAIN ROAD, PULIYUR, C.F. 639 114, KARUR DT. DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING COURSE MATERIAL Subject Name: Electromagnetic
More informationRESOLUTION OF THE MANSURIPUR'S PARADOX
RESOLUTION OF THE MANSURIPUR'S PARADOX Bengablya Salem Mohamed * Department of Physics, Al Asmarya University, Zletin, Libya *Presenting author: salemphysics@yahoo.comtel: +2892632888 ABSTRACT In 202 Masud
More informationTheory of Special Relativity vs. Preferred Reference Frame Theory: A Theoretical Distinction
Apeiron, ol. 12, No. 4, October 2005 385 Theory of Special Relativity vs. Preferred Reference Frame Theory: A Theoretical Distinction S. Baune École de Technologie Supérieure Université du Québec, Montreal
More informationOn the existence of magnetic monopoles
On the existence of magnetic monopoles Ali R. Hadjesfandiari Department of Mechanical and Aerospace Engineering State University of New York at Buffalo Buffalo, NY 146 USA ah@buffalo.edu September 4, 13
More informationLecture 35. PHYC 161 Fall 2016
Lecture 35 PHYC 161 Fall 2016 Induced electric fields A long, thin solenoid is encircled by a circular conducting loop. Electric field in the loop is what must drive the current. When the solenoid current
More informationList of Comprehensive Exams Topics
List of Comprehensive Exams Topics Mechanics 1. Basic Mechanics Newton s laws and conservation laws, the virial theorem 2. The Lagrangian and Hamiltonian Formalism The Lagrange formalism and the principle
More informationRELG - General Relativity
Coordinating unit: Teaching unit: Academic year: Degree: ECTS credits: 2017 230 - ETSETB - Barcelona School of Telecommunications Engineering 749 - MAT - Department of Mathematics 748 - FIS - Department
More information10/11/2018 1:48 PM Approved (Changed Course) PHYS 42 Course Outline as of Fall 2017
10/11/2018 1:48 PM Approved (Changed Course) PHYS 42 Course Outline as of Fall 2017 CATALOG INFORMATION Dept and Nbr: PHYS 42 Title: ELECTRICITY & MAGNETISM Full Title: Electricity and Magnetism for Scientists
More informationIndex. Symbols 4-vector of current density, 320, 339
709 Index Symbols 4-vector of current density, 320, 339 A action for an electromagnetic field, 320 adiabatic invariants, 306 amplitude, complex, 143 angular momentum tensor of an electromagnetic field,
More informationMagnetic inductance & Solenoids. P.Ravindran, PHY041: Electricity & Magnetism 22 February 2013: Magnetic inductance, and Solenoid
Magnetic inductance & Solenoids Changing Magnetic Flux A changing magnetic flux in a wire loop induces an electric current. The induced current is always in a direction that opposes the change in flux.
More informationCHAPTER 2. COULOMB S LAW AND ELECTRONIC FIELD INTENSITY. 2.3 Field Due to a Continuous Volume Charge Distribution
CONTENTS CHAPTER 1. VECTOR ANALYSIS 1. Scalars and Vectors 2. Vector Algebra 3. The Cartesian Coordinate System 4. Vector Cartesian Coordinate System 5. The Vector Field 6. The Dot Product 7. The Cross
More information