Electrical Engineering (as Per Uptu Syllabus)Basic Electrical Engineering Has Been Written As A Core Course For All Engineering Students Viz. Electronics And Communication Engineering, Computer Engineering, Civil Engineering, Mechanical Engineering Etc. Since This Course Will Normally Be Offered At The First Year Level Of Engineering, The Author Has Made Modest Effort To Give In A Concise Form. Various Features Of Basic Electrical Engineering Using Simple Language And Through Solved Examples, Avoiding The Rigorous Of Mathematics.Salient Features * Steady State Analysis Of A.C. Circuits Explained * Network Theorems Explained Using Typical Examples * Analysis Of 3-Phase Circuits And Measurement Of Power In These Circuits Explained * Measuring Instruments Like Ammeter, Voltmeter, Wattmeter And Energy Meter Described * Various Electrical Machines, Like Transformers, D.C. Machines, Single Phase And Three Phase Induction Motors, Synchronous Machines, Servomotors Have Been Described * A Brief View Of Power System Including Conventional And Nonconventional Services Of Electrical Energy Is Given * Numerous Solved Examples And Practice Problems For Thorough Grasp Of The Subject Presented * A Large Number Of Multiple-Choice Questions With Answers Given |
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Electrical Engineering (As Per The Syllabus, B. Tech. I Year Of U.P ... C.L. Wadhwa No preview available - 2008 |
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admittance air gap average value bandwidth capacitive circuit capacitor central limb circuit is capacitive circuit shown coil component connected in parallel connected in series Consider Fig current response curve cycle Determine the current displacement dot convention electric circuit elements equation Example F G H Form factor frequency of resonance Hz supply inductive circuit inductive reactance inductor instantaneous value loop currents magnetic circuits magnetic flux density magnitude mutual inductance parallel resonance parallel RLC circuit phase angle phasor diagram polarity power consumed power dissipated power factor Q resistor quality factor rad/sec ratio reactive power resistance resonance frequency resonant circuit RLC series circuit rms value shown in Fig sin2 sine wave Sinusoidal Source sinusoidal wave Solution supply voltage undotted V₁ VmIm volt voltage and current voltage source watts waveform winding ΚΩ