Nikola Tesla Books
Å aban, I., Sastavljanje prikljuÄnog plana pomoÄu elektroniÄkog raÄunala (Working Out the Wiring Schedule by the Computer); Å antak, M., Odredjivanje momentne karakteristike jednofaznog asinhronog motora pomoÄu viÅ¡ih harmoniÄkih komponenti polja (The Determination of Single-Phase Squirrel-Cage Asynchronous Motor Torque-Speed Characteristics by Higher Harmonic Field Components); Å tefanko, S., Prilike u zoni zraÄnog raspora i njihov utjecaj no bilancu snaga u asinhronom stroju (Conditions in the Air-Gap and Their Influence on the Power Balance of the Induction Machine); Zelenko, B., ProraÄun magnetskog polja u jarmu rotacionog stoja (Magnetic Field Computations for the Rotating Machine Core Back). Vol. 2. Chapt. VI, Breaker Technology: GajiÄ, Z., BojiÄ, P., Sumporni heksafluorid kao sredstvo za elektriÄnu izolaciju i gaÅ¡enje elektriÄnog luka u sklopnim aparatima visokog napona (Sulfur Hexafluoride as an Electrical Insulation and Electric Arc Quenching Medium in High Voltage Circuit Breakers); Kamenica, I., AbadžiÄ, M., Matematski model dinamiÄkog elektriÄnog luka i analiza realnosti pretpostavki koje ga definÅ¡u (Mathematical Model of Dynamic Electric Arc and Analysis of the Realism of the Assumptions Defining It); KopÄiÄ, N., Odredjivanje osnovnih karakteristika elektromagneta raÄunskim i eksperimentalnim putem pri razvoju sklopnika (Determination of Fundamental Electromagnet Characteristics by Calculation and Experiment in the Design of Contactors); KrajiniÄ, S., Stanje i tendencije razvoja slopnih aparata (The State and Trends of Switchgear Design Development); Naumovski, I., Nestabilnost dinamiÄkog luka pri isklapanju malih induktivnih struja (Dynamic Arc Behavior in Circuit Breakers When Interrupting Small Inductive Currents); Catenacci, G., Role of High Power Laboratories in Switchgear Development; Erk, A., The Electric Contact in Power Switching Devices; Rieder, W., Actual Circuit-Breaker Arc Research. Chapt. VII, Transmission of Electrical Energy: AÅ¡ner, A., Projenos elektriÄne energije pomoÄu supravodljivih kabela (Superconducting Cables for Power Transmission); IvankoviÄ, I., Izolacija suvremenih transformatora najviÅ¡ih napona (Insulation of Modern High-Voltage Transformers); JovanoviÄ, P., O moguÄnostima svjetskog sistema za proizvodnju i prenos elektriÄne energije (World-Wide System of Electric Power Production and Distribution); Muždeka, G., Prenos elektriÄne energije juÄer, danas, sutra (Electrical Energy Transmission Yesterday, Today, Tomorrow); PetkoviÄ, N. Z., Naumov, R., Prenaponi pri komutacijama kratkih deonica sabirnica 380 kV (Overvoltages During Switching Operations of Short Parts of 380 kv buses); StojsavljeviÄ, M., Utjecaj regulacije uzbude sinhronih generators na paralelni rad elektroenergetskih sistema (Effect of Synchronous Generator Excitation Co-trol on the Parallel Operation of Power Systems); ValkoviÄ, Z., Istraživanje elektromagnetskih polja u transformatorima (Research of Electromagnetic Fields in Transformers); VeÅ¡iÄ, P., Mjerni transformatori za 400 VK mrežu SFRJ (Instrument Transformers for the Yugoslav 400 kv Network); Concordia, C., Development of Electric Power Transmission Networks; Frank, M. V., From Adams Station to USA's Integrated Utility System. Chapt. VIII, Energy Conversion: AndriÄ, J., ElektriÄne mikro centrale (Power Micro-Stations); Grapci, A., Perspektiva olovnih akumulatora kao izvora energije (Lead Accumulators Prospective Power Supply); Knapp, V., Novi izvori energije; geotermalna energija suhih stijena (New Sources of Energy; Geothermal Energy of Dry Rocks); MilosavljeviÄ, B., Konverzija eolske energije u elektriÄnu primenom asinhronih generatora (Wind Energy Conversion by Asynchronous Generators); Požar, H., Opskrba elektriÄnom energijom u
