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Terms of service • Privacy policy • Editorial independence, 1.10.1 Conventional direction of flow of current, 1.19 Temperature co-efficient of resistance, 1.20 Temperature co-efficient of copper at 0°C, 1.22 Effect of temperature on resistivity, 1.29.1 Relation between horse power and kW, 1.29.2 Relation between horse power and torque, 1.34 Division of current in parallel circuits, 1.34.1 When two resistors are connected in parallel, 1.34.2 When three resistors are connected in parallel, Chapter 2 DC Circuit Analysis and Network Theorems, 2.3.7 Difference between voltage source and current source, 2.4 Source transformation (conversion of voltage source to current source and vice versa), 2.5.3 Solution of network by kirchhoff’s laws, 2.7 Maxwell’s mesh current method (loop analysis), 2.9 Deltastar and stardelta transformation, 2.13 Conversion of thevenin’s equivalent into norton’s equivalent and vice versa, 3.7 Electric intensity or field strength (E), 3.11 Different ways of charge distribution, 3.13 Deduction of coulomb’s law from gauss’s law, 3.14 Electric intensity due to a charged sphere, 3.15 Electric intensity due to a long charged conductor, 3.16.2 Potential at a point due to number of charges, 3.20 Breakdown potential or dielectric strength, 3.22.1 Dielectric constant or relative permittivity, 3.22.2 Capacitance of parallel-plate capacitor, 3.22.4 Dielectric and its effect on capacitance, 3.23 Parallel-plate capacitor with composite medium, 4.4 Important terms relating to an electric cell, 4.6.2 Working principle of lead—acid cell, 4.9 Charge indications of a lead-acid battery or cell, 4.11 Care and maintenance of lead—acid batteries, 4.14 Comparison between lead—acid and nickel—iron alkaline cell, 4.15.2 Chemical action during discharging, 5.5 Comparison between magnetic and electric circuits, 5.11.1 Residual magnetism and retentivity, 5.15 Faraday’s laws of electromagnetic induction, 5.26.1 Useful applications of eddy currents, 5.26.2 Mathematical expression for eddy current loss, 6.5 Generation of alternating voltage and current, 6.6 Equation of alternating emf and current, 6.9 Different forms of alternating voltage equation, 6.10 Values of alternating voltage and current, 6.17 Phasor representation of sinusoidal quantity, 6.19 Addition and subtraction of alternating quantities, 6.19.1 Addition of alternating quantities, 6.19.2 Subtraction of alternating quantities, 7.2 AC circuit containing resistance only, 7.3 AC circuit containing pure inductance only, 7.4 AC circuit containing pure capacitor only, 7.17 Methods of solving parallel ac circuits, 7.19.5 Solution of parallel ac circuits by admittance method, 7.20 Method of phasor algebra or symbolic method or J-method, 7.21 J-notation of phasor on rectangular co-ordinate axes, 7.21.1 Mathematical representation of phasors, 7.22 Addition and subtraction of phasor quantities, 7.23 Multiplication and division of phasors, 7.26 Solution of series and parallel ac circuits by phasor algebra, 7.28 Q-factor of a parallel resonant circuit, 7.29 Comparison of series and parallel resonant circuits, 8.3 Advantages of three-phase system over single-phase system, 8.9.1 Relation between phase voltage and line voltage, 8.9.2 Relation between phase current and line current, 8.10.1 Relation between phase voltage and line voltage, 8.10.2 Relation between phase current and line current, 8.13 Power measurement in three-phase circuits, 8.16 Two-wattmeter method (balanced load), 8.16.1 Determination of power factor from wattmeter readings, 8.16.2 Determination of reactive power from two wattmeter eadings, 8.17 Effect of power factor on the two wattmeter readings, 8.17.1 Power factor is unity (cos ɸ = 1) or ɸ = 0°, 8.17.2 Power factor is 0.5 (cos ɸ = 0.5) or ɸ = 60°, 8.17.3 Power factor is more than 0.5 But less than one (i.e., 1 > cos ɸ > 0.5) or 60° > ɸ > 0°, 8.17.4 Power factor is less than 0.5 But more than 0 (i.e., 0.5 > cos ɸ > 0) or 90° > ɸ >60°, 8.17.5 Power factor is 0 (cos ɸ = 0) or ɸ = 90°, 9.4 Methods of providing controlling torque, 9.7 Errors common to all types of instruments, 9.8.1 Attraction-type moving iron instruments, 9.8.2 Repulsion-type moving iron instruments, 9.8.3 Advantages and disadvantages of moving iron instruments, 9.8.5 Applications of moving iron instruments, 9.9 Permanent magnet moving coil instruments, 9.9.5 Advantages and disadvantages of permanent magnet moving coil instruments, 9.9.6 Errors in permanent magnet moving coil instruments, 9.10 Difference between ammeter and voltmeter, 9.11 Extension of range of ammeters and voltmeters, 9.13.2 Comparison between dynamometer and induction-type wattmeters, 9.13.3 Induction-type single-phase energy meter, 9.15 Connections of single-phase energy meter to supply power to a domestic consumer, 9.16 Difference between wattmeter and energy meter, 10.4 Construction of a single-phase small rating transformer, 10.10 Phasor diagram of a loaded transformer, 10.11 Transformer with winding resistance, 10.15.1 Equivalent circuit when all the quantities are referred to secondary, 10.15.2 Equivalent circuit when all the quantities are referred to primary, 10.16 Expression for no-load secondary voltage, 10.18 Approximate expression for voltage regulation, 10.25 Autotransformer v/s potential divider, 10.26 Saving of copper in an autotransformer, 10.27 Advantages of autotransformer over two-winding transformer, 10.31 Power transformer and its auxiliaries, Chapter 11 DC Machines (Generators and Motors), 11.2 Electromechanical energy conversion devices (motors and generators), 11.6 Simple loop generator and function of commutator, 11.10.1 Cumulative and differential compound-wound generators, 11.11 Voltage build-up in shunt generators, 11.12 Critical field resistance of a dc shunt generator, 11.13 Causes of failure to build-up voltage in a generator, 11.19 Comparison of generator and motor action, 11.25 Applications and selection of dc motors, 11.26 Necessity of starter for a dc motor, 11.27 Starters for dc shunt and compound-wound motors, 11.28.2 No-volt release coil and its function, 11.28.3 Overload release coil and its function, 12.2 Constructional features of a three-phase induction motor, 12.5 Reversal of direction of rotation of three-phase induction motors, 12.14 Simplified equivalent circuit of rotor, 12.16 Induction motor on no-load (rotor circuit open), 12.20 Relation between rotor copper loss, slip, and rotor input, 12.22 Torque developed by an induction motor, 12.23 Condition for maximum torque and equation for maximum torque, 12.25 Ratio of starting to maximum torque, 12.26 Ratio of full-load torque to maximum torque, 12.27 Effect of change in supply voltage on torque, 12.29 Torque-speed curve and operating region, 12.30 Effect of rotor resistance on torque-slip curve, 12.31 Comparison of squirrel-cage and phase-wound induction motors, 12.33 Starting methods of squirrel-cage induction motors, 12.34 Starting method of slip-ring induction motors, 12.35 Applications of three-phase induction motors, 12.36 Comparison between induction motor and synchronous motor, 12.37.1 Speed control by changing the slip, 12.37.2 Speed control by changing the supply frequency, 12.37.3 Speed control by changing the poles, 13.2 Nature of field produced in single-phase induction motors, 13.3 Torque produced by single-phase induction motor, 13.6.3 Capacitor start and capacitor run motors, 13.11 Speed control of single-phase induction motors (fan regulator), Chapter 14 Three-Phase Synchronous Machines, 14.5 Production of sinusoidal alternating emf, 14.6 Relation between frequency speed and number of poles, 14.7 Constructional features of synchronous machines, 14.8 Advantages of rotating field system over stationary field system, 14.11 Working principle of a three-phase synchronous motor, 14.15 Application of synchronous motor as a synchronous condenser, 14.16 Characteristics of synchronous motor, 14.17 Methods of starting of synchronous motors, Get 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