I need help in a test at 4:00 PM GMT on the following subjects.
(( I need ONLY Final Answers. ))
I. Three Phase AC Circuits: (Appendix B)
B.1 Review of Single-Phase Circuits
B.2 Balanced Three-Phase Circuits
B.3 Balanced Three-Phase Load
B.4 Delta-Wye Transformation of Load
B.5 Per-Phase Equivalent Circuit
II. Chapter one: Magnetic Circuits :
1.1.1 i-H Relation
1.1.2 B-H Relation
1.1.3 Magnetic Equivalent Circuit
1.1.4 Magnetization Curve
1.1.5 Magnetic Circuit with Air-Gap
1.2 Hystersis
III. Chapter two: Single Phase Transformers:
2.1 Ideal Transformer
2.2 Practical Transformer
2.2.1 Referred Equivalent Circuits (exact and approximate equivalent)
2.2.2 Determination of Equivalent Circuit Parameters
2.2 Voltage Regulation
2.4 Efficiency
2.4.1 Maximum Efficiency
IV. Chapter 4: DC Machines:
4.1 Electromagnetic Conversion
4.2 DC Machines
4.2.1 Construction
4.2.2 Evolution of DC Machines
4.2.3 Armature Windings
4.2.4 Armature Voltage
4.2.5 Developed (or Electromagnetic) Torque
4.2.6 Magnetization Curve of a DC Machine
4.2.7 Classification of DC Machines
4.3 DC Generators
4.4 DC Motors
4.4.1 Shunt Motor
4.4.2 Series Motor
V. Chapter 6: Synchronous Machines:
6.1 Construction of 3-Phase Synchronous Machines
6.2 Synchronous Generators
6.3 Synchronous Motors
6.4 Equivalent Circuit Model
6.4.1 Determination of the Synchronous Reactance
6.4.2 Phasor Diagram
6.5 Power and Torque Characteristics
6.7 Power Factor Control
VI Chapter 5: Three-Phase Induction Motors:
5.1 Constructional Features
5.2 Rotating Magnetic Field
5.3 Induced Voltages
5.4.4 Running Operation
5.7 Equivalent Circuit Model
5.7.1 Stator Winding
5.7.2 Rotor Circuit
5.7.3 Complete Equivalent Circuit
5.7.5 Thevenin Equivalent Circuit
5.11.2 Effects of Rotor Resistance
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