Rent 9781418000455 | Direct Current Fundamentals | Herman, Stephen L. @knetbooks.com

Summary Table of Contents

For nearly half a century, this widely acclaimed book has presented the fundamental concepts of DC electricity and magnetism in a straightforward, practical manner. The 7th Edition retains the distinguishing features that are the cornerstone of this winning book, including logically organized content that progresses from basic principles to more complex concepts. Enhancements include updated drawings and photographs that better assist readers in understanding such essential concepts as how to distinguish between digital and analog meters, and s... MORE

PREFACE

xiii

CHAPTER 1 An Introduction to Electricity and Electronics

(11)

1-1 What are electricity and electronics?

... MORE

1-2 Why this book is called Direct Current Fundamentals

1-3 Early history of electricity

1-4 One hundred elements�building blocks of nature

1-5 The atom analyzed�electrons, protons, and neutrons

1-6 The atomic theory�cornerstone of electrical theory

CHAPTER 2 Electricity Production and Use

(9)

2-1 Electricity production by energy conversion

2-2 Electricity from friction

2-3 Electricity from magnetism

2-4 Electricity from chemical energy

2-5 Electricity from light

2-6 Electricity from heat

2-7 Electricity from mechanical pressure: piezoelectricity

2-8 The effects of electricity

CHAPTER 3 Electrostatics

(14)

3-1 Stationary electrons

3-2 Electroscopes

3-3 Electrostatic induction

3-4 Lightning

3-5 Nuisance static charges

3-6 Useful static charges

3-7 Potential energy of electrons

3-8 Electrostatic lines of force

CHAPTER 4 Basic Circuit Concepts

(14)

4-1 Four measurable circuit quantities

4-2 Voltage

4-3 Current

4-4 Resistance

4-5 Watts

4-6 A simple electric circuit

4-7 Open circuits and closed circuits

4-8 The schematic diagram

4-9 Basic circuit notation

4-10 The short circuit

4-11 Electrical safety

4-12 National Electrical Code�

CHAPTER 5 Scientific Notation and Metric Prefixes

(14)

5-1 Rationale for studying this unit

5-2 Powers of 10

5-3 Scientific notation

5-4 Significant digits

5-5 Rounding off to three significant digits

5-6 Metric prefixes

5-7 Multiplication and division with powers of 10

CHAPTER 6 Electrical Quantity Measurement

(17)

6-1 Types of meters

6-2 Ammeter and voltmeter scale interpretation

6-3 Ohmmeter scale interpretation

6-4 Electrical meter connection

CHAPTER 7 Resistance

(27)

7-1 Conductance vs. resistance

7-2 Resistivity of materials

7-3 Length of a conductor

7-4 Cross-sectional area (CSA) of a conductor in circular mils

7-5 Effect of temperature on resistance

7-6 The American Wire Gauge (AWG)

7-7 Stranded wire and cable

7-8 Resistors

7-9 Fixed resistors

7-10 Color code

7-11 Power ratings

7-12 Variable resistors

7-13 Schematic symbols

CHAPTER 8 Ohm's Law

107

(5)

8-1 Voltage, current, and resistance

8-2 Ohm's law with metric prefixes

CHAPTER 9 Electrical Power and Energy

112

(18)

9-1 Energy

9-2 Units of energy

9-3 Power

9-4 Energy and cost calculations

9-5 Efficiency of energy conversion

9-6 A practical application�resistance heating

CHAPTER 10 Series Circuits

130

(28)

10-1 Characteristics of series circuits

10-2 The voltage drop

10-3 Resistance and current in series circuits

10-4 Power consumption in series circuits

10-5 Calculation of series circuit quantities

10-6 Voltage drop on a line

10-7 Voltage at an open element

10-8 Series circuits as voltage dividers

10-9 The general voltage divider formula

10-10 Polarity considerations

10-11 Ground as a reference point

10-12 Voltage sources in series

CHAPTER 11 Parallel Circuits

158

(21)

11-1 The nature of parallel circuits

11-2 Five methods of computation

(1) Use of Ohm's law for computing Kr

(2) Use of the reciprocal equation

(3) A practical method

(4) The product over the sum formula

(5) A special condition: all equal resistors

11-3 Power dissipation in parallel circuits

11-4 Voltage sources in parallel

11-5 A practical application�kitchen range heating element

11-6 Current dividers

CHAPTER 12 Series-Parallel Circuits and Loaded Voltage Dividers

179

(23)

12-1 Simplifying series-parallel circuits

12-2 Kirchhoff's voltage law

12-3 Kirchhoff's current law

12-4 Loaded voltage dividers

CHAPTER 13 Conduction in Liquids and Gases

202

(16)

13-1 The ionization process

13-2 Useful chemical compounds

13-3 Electroplating and electrolysis

13-4 Gases as insulators

13-5 Gaseous conduction by ionization

13-6 Conduction and ions in nature

13-7 Conduction in a vacuum

CHAPTER 14 Batteries

218

(26)

14-1 Chemical energy: a source of emf

14-2 Anodes and cathodes

14-3 Primary cells

14-4 Fuel cells

14-5 Secondary cells

14-6 Maintenance-free batteries

14-7 Miscellaneous aspects of batteries

CHAPTER 15 Magnetism and Electromagnetism

244

(22)

15-1 Electricity and magnetism

15-2 Simple magnets

15-3 The magnetic field

15-4 Ferromagnetic materials and the magnetizing process

15-5 Magnetic materials and the atomic theory

15-6 Permanent magnets

15-7 Electromagnetism of a straight wire

15-8 Electromagnetism of a coil

15-9 The magnetic core in the coil

15-10 Magnetic quantities

CHAPTER 16 Applications of Electromagnetism

266

(12)

16-1 Solenoids for lateral motion

16-2 The electromagnetic relay

16-3 Magnetic vibrators and bell

16-4 Electromagnetism for rotational motion

16-5 Other applications of the motor effect

16-6 Electromagnetism at work

CHAPTER 17 Electrical Measuring Instruments (Another Application of Electromagnetism)

278

(27)

17-1 d'Arsonval meters

17-2 DC ammeters

17-3 Multirange ammeters

17-4 Voltmeters

17-5 Ohmmeters

17-6 Megohmmeters

17-7 Wattmeters

17-8 Bridge circuits

17-9 Clamp-on meters

17-10 Digital multimeters

CHAPTER 18 Electromagnetic Induction

305

(13)

18-1 Moving coils�stationary fields

18-2 Moving fields�stationary coils

18-3 Fleming's left-hand rule for generators

18-4 Lenz's law

18-5 Induction in rotating machines

CHAPTER 19 DC Generators

318

(36)

19-1 Principles of DC generators

19-2 Armature design

19-3 Generator field structures

19-4 Armature reaction

19-5 Buildup of self-excited fields

19-6 Three types of self-excited generators (series, shunt, and compound)

19-7 Separately excited generators

19-8 Generator calculations

19-9 Power losses

19-10 Generator data and ratings

19-11 Magnetohydrodynamic (MHD) generation

CHAPTER 20 Mechanical Motion from Electrical Energy

354

(14)

20-1 Basic motor action

20-2 Torque and rotary motion

20-3 The need for commutation

20-4 The need for added armature coils

20-5 From torque to horsepower

CHAPTER 21 DC Motors

368

(32)

21-1 DC machines�motor or generator?

21-2 The counter-emf in a motor

21-3 Armature windings

21-4 Field distortion and the need for interpoles

21-5 The shunt motor

21-6 The series motor

21-7 The compound motor

21-8 Speed control of DC motors

21-9 Reversal of rotation

21-10 Power losses

21-11 Permanent-magnet motors

CHAPTER 22 Starters and Speed Controllers

400

(35)

22-1 Trends in motor control

22-2 The need for reduced-voltage starting

22-3 Manual starters

22-4 Manual speed controllers

22-5 Starters for series motors

22-6 Drum controllers

22-7 Magnetic controllers

22-8 The counter-electromotive force motor controller

22-9 The voltage drop acceleration controller (lockout acceleration)

22-10 Definite time controller

22-11 Electronic controllers

CHAPTER 23 Solid-State Control of DC Motors

435

(9)

23-1 The shunt field power supply

23-2 Armature control

23-3 Current limit

23-4 Speed control

CHAPTER 24 Solving DC Networks

444

(23)

24-1 The loop current method

24-2 The superposition theorem

24-3 Thevenin's theorem

24-4 Norton's theorem

APPENDIX

467

(20)

GLOSSARY

487

(8)

SELECTED ANSWERS TO ODD-NUMBERED PROBLEMS

495

(8)

INDEX

503

RENT TEXTBOOKS

Direct Current Fundamentals

Why Rent from Knetbooks?

Top 5 reasons to order all your textbooks from Knetbooks:

Related Products