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Package: Loose Leaf for Electricity for the Trades with Connect Access Card 3rd ed. [Multiple-component retail product, shrink-wrapped]

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  • Ilmumisaeg: 02-May-2019
  • Kirjastus: McGraw-Hill Education
  • ISBN-10: 1260699471
  • ISBN-13: 9781260699470
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Package: Loose Leaf for Electricity for the Trades with Connect Access Card 3rd ed.Suurem pilt
  • Formaat: Multiple-component retail product, shrink-wrapped, kõrgus x laius x paksus: 274x211x18 mm, kaal: 726 g, 1 Item, Contains 1 Digital product license key
  • Ilmumisaeg: 02-May-2019
  • Kirjastus: McGraw-Hill Education
  • ISBN-10: 1260699471
  • ISBN-13: 9781260699470
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781260699470.html
Preface xi
Acknowledgments xiv
Walkthrough xv
Section One Fundamentals of Electricity
Chapter 1 Safety
2(12)
Part 1 Safety Overview
3(1)
1.1 Electric Shock
3(1)
1.2 Arc Flash Hazards
3(2)
1.3 Confined Spaces
5(1)
1.4 Personal Protective Equipment
5(1)
1.5 Fall Protection
6(2)
1.6 Lifting and Moving Loads
8(1)
1.7 Fire Prevention
8(1)
1.8 Hazardous Waste
8(1)
Part 2 Grounding-Fault Protection-Lockout-Codes
9(1)
1.9 Grounding and Bonding
9(1)
1.10 Ground-Fault and Arc-Fault Protection
10(1)
1.11 Lockout and Tagout
11(1)
1.12 Electrical Codes and Standards
12(2)
Chapter 2 Atoms and Electricity
14(6)
Part 1 Atoms and Ions
15(1)
2.1 Electron Theory of Matter
15(1)
2.2 Bohr Model of Atomic Structure
15(1)
2.3 Ions
16(1)
Part 2 Electron Flow
16(1)
2.4 Electricity Defined
16(1)
2.5 Electrical Conductors, Insulators, and Semiconductors
17(1)
2.6 Basic Concepts of Voltage, Current, and Resistance
18(1)
2.7 Testing for Electrical Continuity
19(1)
2.8 Electrical and Electronic Devices
19(1)
Chapter 3 Sources and Characteristics of Electricity
20(8)
Part 1 Static Electricity
21(1)
3.1 Static Electricity
21(1)
3.2 Charged Bodies
21(1)
3.3 Charging by Conduction and Induction
22(1)
3.4 Practical Uses for Static Charges
22(1)
Part 2 Current Flow
23(1)
3.5 Current Electricity
23(1)
3.6 Sources of Electromotive Force
24(4)
Chapter 4 Electrical Quantities and Ohm's Law
28(9)
Part 1 Current, Voltage, and Resistance
29(1)
4.1 Current
29(1)
4.2 Voltage
30(1)
4.3 Resistance
31(1)
Part 2 Power, Energy, and Ohm's Law
31(1)
4.4 Power
32(1)
4.5 Energy
32(1)
4.6 Electric Circuit
33(1)
4.7 Ohm's Law
34(1)
4.8 Direction of Current Flow
35(2)
Chapter 5 Simple, Series, and Parallel Circuits
37(9)
Part 1 Circuit Symbols and Diagrams
38(1)
5.1 Circuit Symbols
38(1)
5.2 Circuit Diagrams
39(2)
Part 2 Simple, Series, and Parallel Circuits
41(1)
5.3 Simple Circuit
41(1)
5.4 Series Circuit
41(1)
5.5 Parallel Circuit
42(1)
5.6 Breadboarding and Computer Simulation of Circuits
43(1)
5.7 Short and Open Circuit Faults
44(2)
Chapter 6 Measuring Voltage, Current, and Resistance
46(13)
Part 1 Measurement of Voltage and Current
47(1)
6.1 Analog and Digital Meters
47(1)
6.2 Multimeter
47(2)
6.3 Measuring Voltage
49(2)
6.4 Measuring Current
51(2)
Part 2 Meter Resistance Measurement, Safety, and Specifications
53(1)
6.5 Measuring Resistance
53(1)
6.6 Multimeter Safety
54(1)
6.7 Multimeter Specifications
55(2)
6.8 Virtual Multimeter
57(2)
Chapter 7 Ohm's Law
59(9)
Part 1 Electrical Units and Prefixes
60(1)
7.1 Metric Prefixes
60(1)
Part 2 Mathematical Relationships between Current, Voltage, Resistance, and Power
61(1)
7.2 Ohm's Law
61(1)
7.3 Applying Ohm's Law to Calculate Current
62(1)
7.4 Applying Ohm's Law to Calculate Voltage
63(1)
7.5 Applying Ohm's Law to Calculate Resistance
63(1)
7.6 Power Formulas
64(2)
7.7 Ohm's Law in Graphical Form
66(2)
Chapter 8 Resistors
68(13)
Part 1 Resistor Types and Color Code
69(1)
8.1 Resistance Wire
69(1)
8.2 Resistors
69(1)
8.3 Types of Resistors
69(2)
8.4 Rheostats and Potentiometers
71(1)
8.5 Resistor Color Code
71(4)
Part 2 Resistor Connections
75(1)
8.6 Series Connection of Resistors
75(1)
8.7 Parallel Connection of Resistors
76(2)
8.8 Series-Parallel Connection of Resistors
78(3)
Chapter 9 Electricity and Magnetism
81(15)
Part 1 Magnetism
82(1)
9.1 Properties of Magnets
82(1)
9.2 Types of Magnets
82(1)
9.3 Laws of Magnetic Poles
83(1)
9.4 Polarity of Magnets
83(1)
9.5 Magnetic Field
84(1)
9.6 Theories of Magnetism
85(1)
9.7 Uses for Permanent Magnets
86(1)
Part 2 Electromagnetism
87(1)
9.8 Magnetic Field around a Current-Carrying Conductor
87(2)
9.9 Electromagnets
89(1)
9.10 The Magnetic Circuit
90(1)
9.11 Electromagnetic Induction Principles
91(1)
9.12 Uses for Electromagnets
91(5)
Chapter 10 Electric Power and Energy
96(16)
Part 1 Generation and Transmission of Electricity
97(1)
10.1 Electric Generating Stations
97(2)
10.2 Alternative Ways of Generating Electricity
99(4)
10.3 Transmitting Electricity
103(2)
Part 2 Power Metering and Costs
105(1)
10.4 Energy, Work, and Power
105(1)
10.5 Calculating Electric Power
105(2)
10.6 Measuring Electric Power
107(1)
10.7 Energy Costs
108(4)
Section Two Direct Current (DC) Circuits
Chapter 11 Solving the DC Series Circuit
112(14)
Part 1 Series Circuit Characteristics
113(1)
11.1 Series Circuit Connection
113(1)
11.2 Determining Current Flow
113(1)
11.3 Determining Voltage
114(1)
11.4 Determining Individual Resistance Values
114(1)
11.5 Determining Power
115(1)
Part 2 Solving the DC Series Circuit
116(1)
11.6 Solving for Current, Voltage, Resistance, and Power
116(3)
11.7 Series Circuit Polarity
119(1)
11.8 Series-Aiding and Series-Opposing Voltage Sources
120(1)
11.9 Voltage Source Resistance
120(1)
11.10 Series Conductor Resistance
121(1)
11.11 Troubleshooting a Series Circuit
122(4)
Chapter 12 Solving the DC Parallel Circuit
126(13)
Part 1 Parallel Circuit Characteristics
127(1)
12.1 Parallel Circuit Connection
127(1)
12.2 Determining Current Flow
127(1)
12.3 Determining Voltage
128(1)
12.4 Determining Total Resistance
128(1)
12.5 Determining Power
129(1)
Part 2 Solving the DC Parallel Circuit
130(1)
12.6 Solving for Current, Voltage, Resistance, and Power
130(3)
12.7 Parallel Circuit Polarity
133(1)
12.8 Parallel Voltage Sources
134(1)
12.9 Troubleshooting a Parallel Circuit
134(5)
Chapter 13 Solving the DC Series-Parallel Circuit
139(20)
Part 1 Series-Parallel Circuit Characteristics
140(1)
13.1 Series-Parallel Circuit Connection
140(1)
13.2 Determining Current Flow
140(1)
13.3 Determining Voltage
141(1)
13.4 Determining Resistance
142(1)
13.5 Determining Power
143(1)
Part 2 Solving the DC Series-Parallel Circuit
144(1)
13.6 Solving for Current, Voltage, Resistance, and Power
144(8)
13.7 Polarity in DC Series-Parallel Circuits
152(1)
13.8 Troubleshooting a Series-Parallel Circuit
152(1)
13.9 Three-Wire Circuits
153(6)
Chapter 14 Network Theorems
159(17)
Part 1 Superposition Theorem
160(1)
14.1 Voltage and Current Sources
160(1)
14.2 Superposition Theorem
161(5)
Part 2 Thevenin and Norton Theorems
166(1)
14.3 Thevenin's Theorem
166(4)
14.4 Norton's Theorem
170(6)
Section Three Alternating Current Fundamentals
176(118)
Chapter 15 Alternating Current Fundamentals
176(17)
Part 1 Alternating Current Generation and Measurement
177(1)
15.1 Differences between DC and AC
177(1)
15.2 Alternating Current Generation
178(3)
15.3 Alternating Current Measurements
181(4)
Part 2 AC Systems and Resistive Circuits
185(1)
15.4 Single- and Three-Phase Systems
185(4)
15.5 Resistive Circuits
189(4)
Chapter 16 Inductance and Capacitance
193(20)
Part 1 Inductance
194(1)
16.1 Inductance
194(3)
16.2 Inductive Reactance
197(2)
16.3 Phase Shift in an Inductor
199(1)
16.4 Inductive Reactive Power
199(2)
Part 2 Capacitance
201(1)
16.5 Capacitance
201(1)
16.6 Capacitor Ratings, Connections, and Types
202(3)
16.7 RC Time Constant
205(1)
16.8 Capacitive Reactance
206(3)
16.9 Phase Shift in a Capacitor
209(1)
16.10 Capacitive Reactive Power
210(1)
16.11 Troubleshooting Inductors and Capacitors
210(3)
Chapter 17 Resistive, Inductive, Capacitive (RLC) Series Circuits
213(30)
Part 1 Vectors
214(1)
17.1 Vector Diagrams
214(1)
17.2 Combining Vectors
214(5)
Part 2 Series RL Circuit
219(1)
17.3 Series RL Circuits
219(6)
Part 3 Series RC Circuit
225(1)
17.4 Series RC Circuits
225(5)
Part 4 Series RLC Circuit
230(1)
17.5 Series LC Circuits
230(2)
17.6 Series RLC Circuits
232(6)
Part 5 Series Resonant Circuit
238(1)
17.7 Series Resonant Circuits
238(5)
Chapter 18 Resistive, Inductive, Capacitive (RLC) Parallel Circuits
243(27)
Part 1 Parallel RL Circuit
244(1)
18.1 Parallel RL Circuits
244(5)
Part 2 Parallel RC Circuit
249(1)
18.2 Parallel RC Circuits
249(5)
Part 3 Parallel RLC Circuit
254(1)
18.3 Parallel LC Circuits
254(2)
18.4 Parallel RLC Circuits
256(7)
Part 4 Parallel Resonance and Power Factor Correction
263(1)
18.5 Parallel Resonant Circuits
263(2)
18.6 Power Factor Correction
265(5)
Chapter 19 Transformers
270(24)
Part 1 Transformer Basics
271(1)
19.1 Transformer Operation
271(1)
19.2 Relationship of Voltage, Current, and Power
272(4)
Part 2 Single-Phase Transformer
276(1)
19.3 Transformer Losses
276(1)
19.4 Transformer Ratings
277(2)
19.5 Single-Phase Transformer Connections
279(3)
Part 3 Three-Phase Transformer
282(1)
19.6 Three-Phase Transformer Connections
282(6)
Part 4 Transformer Installations
288(1)
19.7 Instrument Transformers
288(1)
19.8 Transformer Insulation Resistance
289(1)
19.9 Cooling of Transformers
290(1)
19.10 Transformer Overcurrent Protection
290(1)
19.11 Harmonics
291(3)
Section Four Electrical Installation and Maintenance
Chapter 20 Circuit Conductors and Wire Sizes
294(12)
Part 1 Electric Wire and Cable
295(1)
20.1 Building Wire and Cable
295(1)
20.2 Conductor Insulation
295(1)
20.3 Cable Assemblies
296(1)
20.4 Conduit Systems
297(1)
20.5 Wire Sizes
298(2)
Part 2 Conductor Ampacity and Line Losses
300(1)
20.6 Conductor Ampacity
300(1)
20.7 Conductor Resistance
301(1)
20.8 Line Voltage Drop and Power Loss
301(5)
Chapter 21 Fuses and Circuit Breakers
306(12)
Part 1 Circuit Protection
307(1)
21.1 Overloads and Short Circuits
307(1)
21.2 Ratings of Protection Devices
308(1)
Part 2 Fuses and Circuit Breakers
309(1)
21.3 Types of Fuses
309(2)
21.4 Testing Fuses
311(1)
21.5 Circuit Breakers
312(2)
21.6 Selective Coordination of Protective Devices
314(1)
21.7 Load Centers and Circuit Breakers
314(4)
Chapter 22 Relays
318(11)
Part 1 Relay Fundamentals
319(1)
22.1 Electromechanical Relay
319(1)
22.2 Relay Applications
320(1)
22.3 Relay Styles and Specifications
321(1)
Part 2 Types of Relays
322(1)
22.4 Solid-State Relays
322(1)
22.5 Time-Delay Relays
323(1)
22.6 Latching Relays
324(1)
22.7 Protective Relays
325(1)
22.8 Contactors and Motor Starters
325(4)
Chapter 23 Lighting Equipment
329(9)
Part 1 Lamps and Luminaires
330(1)
23.1 Lamps
330(2)
23.2 Wiring Luminaires
332(1)
Part 2 Lighting Control
333(1)
23.3 Light Switches
333(2)
23.4 Switch Wiring
335(3)
Chapter 24 Electric Motors and Controls
338(22)
Part 1 Three-Phase Motors
339(1)
24.1 Rotating Magnetic Field
339(1)
24.2 Squirrel-Cage Induction Motor
340(4)
Part 2 Single-Phase Motors
344(1)
24.3 Single-Phase Induction Motor
344(1)
24.4 Split-Phase Motor
344(2)
24.5 Single-Phase Capacitor Motor
346(1)
24.6 Shaded-Pole Motor
347(1)
24.7 Universal Motor
347(1)
Part 3 Motor Controls
348(1)
24.8 Motor Protection
348(3)
24.9 Motor Starting
351(1)
24.10 Motor Stopping
352(2)
Part 4 Direct Current Motors
354(1)
24.11 Permanent-Magnet DC Motor
354(1)
24.12 Series DC Motor
355(1)
24.13 Shunt DC Motor
355(1)
24.14 Compound DC Motor
356(1)
24.15 Direction of Rotation
356(1)
24.16 Motor Counter Electromotive Force (CEMF)
357(1)
24.17 Armature Reaction
358(1)
24.18 Motor Speed
358(2)
Chapter 25 Electronic Controls
360(1)
Part 1 Electronic Components
361(1)
25.1 Diodes
361(1)
25.2 Transistors
362(1)
25.3 Thyristors
363(1)
25.4 Integrated Circuits (ICs)
364(2)
Part 2 Electronic Control Devices
366(1)
25.5 Diode Rectifiers and Inverters
366(1)
25.6 Transistor Switching and Amplification
367(1)
25.7 Thyristor Control Applications
368(2)
25.8 Electronic Motor Drives
370(2)
25.9 Programmable Logic Controllers (PLCs)
372(2)
Part 3 Digital Logic Circuits
374(1)
25.10 Analog versus Digital
374(1)
25.11 Logic Gates
375(2)
25.12 Combination Logic Circuits
377
Appendix: Multisim Simulation Lab Manual 1(1)
Index 1