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9781861526656

Intermediate Science and Theory: Intermediate Course

by ; ; ; ; ;
  • ISBN13:

    9781861526656

  • ISBN10:

    1861526652

  • Edition: 1st
  • Format: Paperback
  • Copyright: 2000-10-05
  • Publisher: Cengage Learning EMEA Higher Education
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List Price: $37.95

Summary

This book is designed to give the intermediate science and theory necessary for electrical installation work. It covers Magnetism; Electrostatics; D.C. Machines; A.C. Theory and Machines; Transformers; Illumination; Efficiency, Work, Energy and Power; and Instruments. The book ends with both short answer and multiple choice tests for practice.

Table of Contents

Electrical Installation Series titles iii
Acknowledgements iii
Study guide iv
Table of Contents
v
Magnetism
1(20)
Part 1
1(4)
Magnetic fields
1(1)
Concentric magnetic field directions
2(1)
Magnetic flux paths
3(1)
Right Hand Grasp Rule applied to a solenoid
3(2)
Part 2
5(2)
Magnetic field properties
5(1)
Magnetic flux
5(1)
Magnetic flux density
5(1)
Magnetomotive force
5(1)
Magnetic field strength
6(1)
Part 3
7(1)
Electromagnetic force
7(1)
Fleming's Left Hand (motor) rule
7(1)
Calculating the force on a current-carrying conductor in a magnetic field
8(1)
Part 4
8(3)
Induced e.m.f.
8(1)
Fleming's right hand rule
9(1)
Induced e.m.f. by rate of change of magnetic flux
9(1)
Self inductance
10(1)
Mutual inductance
10(1)
Part 5
11(3)
Energy stored in an inductive circuit
11(1)
The magnetisation curve
12(1)
Hysteresis
12(1)
Losses in magnetic materials
13(1)
Magnetic materials
13(1)
Applications of magnetic materials
13(1)
Part 6
14(3)
Basic principle of operation of a.d.e. motor
14(1)
Rotation
14(1)
Commutation
15(1)
Basic principle of operation of a.d.e. generator
15(1)
Generator output
16(1)
Magnitude of generated e.m.f.
17(1)
Part 7
17(4)
Basic principles of operation of transformers
17(1)
Basic principle of operation of a relay
18(1)
Reasons for using a relay
18(1)
Principle of operation of overload (overcurrent) protective devices
18(1)
Overload or overcurrent protection
18(1)
Magnetic overload trip
18(1)
Principle of operation
19(1)
Thermal overload devices (bimetallic type)
19(1)
Indirectly heated bimetallic strip
19(1)
Directly heated bimetallic strip
19(1)
Thermistors
19(2)
Electrostatics
21(14)
Part 1
21(4)
Static electricity
21(1)
Static charges by friction
21(1)
Electrostatic discharge
22(1)
The capacitor
22(1)
Charge
23(1)
``Apparent'' current flow in capacitors - d.c. circuit
23(1)
``Apparent'' current flow in capacitors - a.c. circuit
24(1)
Part 2
25(5)
Electric fields and electric flux
25(1)
Electric field strength
25(1)
Electric flux density
25(1)
Capacitance
26(1)
The value of capacitance
27(1)
Capacitors in parallel and series
27(1)
Parallel
27(1)
Series
28(1)
The energy stored in a capacitor
29(1)
Part 3
30(3)
Construction of capacitors
30(1)
General construction of a cylindrical (tubular) type capacitor
31(1)
Types of capacitors
31(1)
Polarity
32(1)
Suppression capacitors
32(1)
Part 4
33(2)
Dielectric strength and working voltage
33(1)
The use of capacitors
33(1)
Discharge resistors
33(2)
D.C. machines
35(18)
Part 1
35(4)
D.C. motors and generators
35(2)
Construction of a.d.c. motor
37(1)
The field
37(1)
The armature
38(1)
Brush connections
38(1)
Part 2
39(7)
D.C. motors
39(1)
The series motor
39(1)
Speed control of a series motor
40(1)
Starting
40(1)
Reversing the direction of rotation
41(1)
The shunt motor
42(1)
Speed control of a shunt motor
42(1)
Starting
43(1)
Reversing the direction of rotation
43(1)
The compound motor
44(1)
Speed control of a compound motor
45(1)
Reversing the direction of rotation
45(1)
Part 3
46(7)
Construction of a.d.c. generator
46(1)
Materials used in construction
47(1)
Construction
47(1)
Separately excited generators
47(1)
Self excited generators
48(1)
Series wound generators
48(1)
The shunt wound generator
49(1)
Compound wound generator
50(3)
Alternating Current Theory (Single-Phase)
53(18)
Part 1
53(8)
Phasor diagram representation of a.c. quantities
53(1)
Phasor addition
54(1)
Applying Pythagoras' Theorem to solve electrical problems
55(1)
Impedance triangle
55(1)
A.C. circuit calculations
56(1)
R-L series circuits
56(1)
Impedance
57(1)
R-C series circuit
57(1)
R-L-C series circuits
58(2)
Periodic time and frequency
60(1)
Part 2
61(4)
Applying trigonometrical ratios to solve electrical problems
61(1)
Power factor
62(1)
Single-phase a.c. circuit
62(1)
Resultant waveform diagram
62(1)
Phasor diagram
62(2)
Power factor measurement
64(1)
Part 3
65(6)
Improving the power factor of an a.c. motor
65(1)
Why improve the power factor?
66(1)
Power factor correction
66(1)
Correction to unity
66(1)
Method 1
66(1)
Method 2
67(1)
A.C. power
68(3)
Alternating Current Theory (Three-Phase)
71(20)
Part 1
72(4)
Generation, transmission and distribution of electrical energy
72(1)
The constant supply
72(1)
Three-phase generation
72(1)
Generation to transmission
73(1)
The grid system
73(1)
Why high voltage transmission?
73(1)
Loads on a.c. supplies
74(2)
Part 2
76(3)
Distribution
76(2)
Load currents in three-phase circuits
78(1)
Part 3
79(4)
Three-phase power
79(1)
Star connection
79(1)
Delta connection
79(2)
Three-phase balanced loads
81(1)
Reasons for balancing single-phase loads on a three-phase system
82(1)
Part 4
83(8)
Interacting fields
83(1)
Production of a rotating magnetic field from a three-phase supply
83(1)
Constructing a parallelogram
84(1)
Percentage voltage drops throughout an installation
85(1)
D.C. supplies from an a.c. source
86(1)
A.C. to d.c. converters
86(1)
Voltage stabilisation
87(4)
Progress check 91(98)
A.C. Machines
93(32)
Part 1
94(3)
Production of torque from a three-phase supply
94(1)
Reversal of rotation
94(1)
Slip
94(1)
Speed, poles and frequency
95(1)
Synchronous speeds and standard rotor speeds at full load (50 Hz supply)
95(1)
Synchronous speed
95(1)
Speed and slip calculations
95(2)
Part 2
97(7)
The construction and operation of three-phase a.c. motors
97(1)
Table 6.2 Current for a.c. motors
97(1)
Construction of three-phase cage rotor induction motors
97(1)
Laminated cores
98(2)
Connection of the three-phase cage rotor induction motor
100(1)
Operation of the three-phase cage-rotor induction motor
101(1)
Advantages, disadvantages and typical applications
101(1)
Starting torque of cage-rotor motors
101(1)
The double-cage-rotor motor
102(1)
Typical applications
102(1)
Three-phase wound rotor induction motor
102(1)
Operation and typical applications
103(1)
Changing the direction of rotation
103(1)
Part 3
104(6)
Operation of single-phase induction motors
104(1)
Types of single-phase induction motor
104(1)
Split-phase motor
105(1)
Windings connections
105(1)
Changing the direction of rotation
105(1)
Typical starting torque
105(1)
Starting current
105(1)
Applications
105(1)
Capacitor start-induction run motor
106(1)
Windings connections
106(1)
Typical starting torque
106(1)
Typical starting current
106(1)
Application
106(1)
Changing direction of rotation
106(1)
Capacitor start capacitor run motor
107(1)
Windings connections
107(1)
Advantages
107(1)
Changing direction of rotation
107(1)
Shaded pole motor
107(1)
Basic construction
107(1)
Operation of simple shaded pole motor
108(1)
Typical applications
108(1)
Direction of rotation
108(1)
Universal (a.c.d.c.) motor
108(1)
Windings connections
109(1)
Operation
109(1)
Advantages and disadvantages
109(1)
Application
110(1)
Changing the direction of rotation
110(1)
Part 4
110(4)
The control of a.c. motors
110(1)
A.C. motor starters
110(1)
Types of three-phase motor starter
110(1)
Direct-on-line (D.O.L) starter
110(1)
Application
111(1)
Operation of direct-on-line starter
111(1)
Overload protection
111(1)
No-volt protection
111(1)
Undervoltage protection
111(1)
Choosing a direct-on-line starter
111(1)
Remote start stop control of a direct-on-line starter
112(1)
Forward and reverse direct-on-line starter
112(1)
Forward operation
112(2)
Part 5
114(4)
Reduced voltage starting methods
114(1)
Star-delta starting
114(1)
Application
114(1)
Manual star delta starter operation
114(1)
Operation
115(1)
Auto star delta starter
115(1)
Operation
115(1)
Overload protection
116(1)
No-volt and undervoltage protection
116(1)
Auto-transformer starter
116(1)
Application
116(1)
Hand operated auto transformer starter
116(1)
Operation
116(1)
Starting three-phase motors on load
117(1)
Wound rotor motor starters
117(1)
Rotor resistance starter operation
117(1)
Part 6
118(7)
Types of single-phase motor starter
118(1)
Operation
118(1)
Single-phase direct-on-line starter circuit
118(1)
Starting a universal (series wound) motor
118(1)
Motor temperature protection
119(1)
Operation of thermistors
119(1)
Motor enclosures
120(1)
Typical applications
120(1)
Isolation, switching, control and protection of motors
121(1)
Function
121(1)
Suitable ways of electrically connecting a motor to a local isolator or starter
121(4)
Transformers
125(18)
Part 1
126(4)
Purpose of a transformer
126(1)
Construction and enclosures
126(1)
Transformer core arrangements
126(1)
Leakage flux
127(1)
Operation of transformers
127(1)
Step down transformers
128(1)
Step up transformers
128(1)
Volts per turn
129(1)
Part 2
130(7)
Isolating transformers
130(1)
Voltage current relationships
130(1)
Auto-transformers
131(1)
Transformer windings
131(1)
Three phase transformers
132(1)
Terminal markings
133(1)
Transformer efficiency
134(1)
Transformer losses
135(1)
Copper losses
135(1)
Iron losses
136(1)
Eddy current loss
136(1)
Part 3
137(6)
Instrument transformers
137(1)
Increased safety
137(1)
Practicality
137(1)
Economy
137(1)
Current transformers
137(1)
Voltage transformers
138(1)
Burden
138(1)
Installation and connection of switchgear
139(1)
Function of switchgear
139(1)
Circuit breaker (C.B.)
139(1)
Vacuum circuit breaker
139(1)
Air-blast circuit breaker
140(1)
Switch
140(1)
Isolator
140(1)
Typical applications of switchgear
140(1)
Circuit breaker
140(1)
Switch
140(1)
Isolator
140(1)
Purpose of switching devices in compliance with BS 7671
140(1)
Isolator
140(1)
Emergency switch
140(1)
Functional switch
140(1)
Mechanical maintenance
140(3)
Illumination
143(22)
Part 1
144(3)
Visible light
144(1)
Lighting units and quantities
144(1)
Luminous efficacy
145(1)
Calculating luminous efficacy
145(1)
Sources of lighting from electricity
145(1)
Reflectors and lenses
146(1)
Luminaires
146(1)
BSI Safety Mark
147(1)
Part 2
147(4)
Inverse square law
147(1)
Cosine law
148(1)
Maintenance factor
149(1)
Light loss factor
149(1)
Coefficient of utilisation factor
149(2)
Part 3
151(3)
Incandescent lamps
151(1)
Lamp designation
151(1)
Incandescent lamps
151(1)
The GLS lamps
151(1)
The tungsten halogen lamp
152(1)
Extra low voltage tungsten halogen lamps
152(1)
Lamp connections
153(1)
Lamp replacement
153(1)
Operating positions
153(1)
Discharge lighting
153(1)
Discharge lighting control gear
153(1)
The inductor (choke or ballast)
153(1)
The power factor correction capacitor
154(1)
Switches for discharge lighting circuits
154(1)
Part 4
154(5)
Mercury vapour lamps
154(1)
Lamp designations
154(1)
Low pressure mercury vapour lamps (fluorescents)
154(1)
Switch start circuit
155(1)
Electronic start circuits
156(1)
Semi-resonant circuits
156(1)
Lead-lag circuits
157(1)
High frequency circuits
157(1)
High pressure mercury vapour lamp (HPMV)
158(1)
Part 5
159(6)
Sodium lamps
159(1)
Lamp designations
159(1)
Lamp operating positions
160(1)
Low pressure sodium lamps
160(1)
High pressure sodium lamps
161(1)
SON starting methods
162(3)
Efficiency, Work, Energy and Power
165(10)
Part 1
165(6)
Efficiency
165(1)
Power loss and efficiency of motors
165(1)
Keeping power losses in electrical machines to a minimum
166(1)
Calculation of efficiency
166(1)
Efficiency calculations (three-phase motors)
167(1)
Work, energy and power
168(1)
Work
168(1)
Energy
169(1)
Power
170(1)
Part 2
171(4)
Practical problems involving efficiency
171(4)
Instruments
175(14)
Part 1
176(4)
Measuring instruments
176(1)
Analogue instruments
176(1)
Moving coil
176(1)
Moving iron
177(1)
Electrodynamic
177(1)
Advantages and disadvantages of moving coil and moving iron instruments
178(1)
Parallax error
178(1)
Digital instruments
178(1)
Ammeters and voltmeters
179(1)
Voltmeters
179(1)
Part 2
180(9)
Monitoring and metering
180(1)
Voltage measurements
180(1)
Measuring high voltages
181(1)
Current measurement
182(1)
Clamp-on ammeter (tong tester)
182(1)
Measurement of power
183(1)
Wattmeter connections
184(1)
Measuring power in three phase circuits
185(1)
Measuring voltage, current and power on high voltage current a.c. systems
186(1)
Energy meters
186(1)
Connection of three phase energy meters
186(3)
Short answer end test 189(4)
Multi-choice end test 193(2)
Answers 195

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