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A Programmed Review for Electrical Engineering

Erschienen am 04.10.2011, Auflage: 1/2011
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Bibliografische Daten
ISBN/EAN: 9789401086516
Sprache: Englisch
Umfang: 308 S.
Einband: kartoniertes Buch

Beschreibung

The field of electrical engineering is very innovative-new products and new ideas are continu ally being developed. Yet all these innovations are based on the fundamental principles of electrical engineering: Ohm's law, Kirchhoff's laws, feedback control, waveforms, capacitance, resistance, inductance, electricity, magnetism, current, voltage, power, energy. It is these basic fundamentals which are tested for in the Professional Engineering Examination (PE Exam). This text provides an organized review of the basic electrical engineering fundamentals. It is an outgrowth of an electrical engineering refresher course taught by the author to candidates preparing for the Professional Engineering Examination-a course which has enabled scores of electrical engineers in Minnesota and Wisconsin to successfully pass the PE Exam. The material is representative of the type of questions appearing in the PE Exams prepared by the National Council of Engineering Examiners (NCEE) over the past twelve years. Each problem in the text has been carefully selected to illustrate a specific concept. Included with each problem is at least one solution. Although the solutions have been carefully checked, both by the author and by students, there may be differences of interpretation. Also, in some cases certain assumptions may need to be made prior to problem solution, and since these to individual, the final answer may also differ. The assumptions will vary from individual author has attempted to keep the requirements for assumptions and interpretation to a mini mum.

Schlagzeile

Inhaltsangabe1 Fundamental Concepts of Electrical Engineering.- Electrical Quantities.- Ohm's Law.- Circuit Elements Defined.- Circuit Element Values.- Coulomb's Law.- Series and Parallel Combinations.- Wye-Delta (Y-?) Transformation.- Complex Algebra.- Complex Notation.- Circuit Element Equations.- Transients.- Laplace Transform.- Kirchhoff's Laws.- Thevenin's Theorem.- Maximum Power Transform Theorem.- Maximum Power Transform Theorem Corollary.- Norton's Equivalent Circuit.- Voltage Division and Superposition.- Magnetic Circuit Terms.- Determinants.- Resonance.- Ideal Transformer.- Waveforms.- 2 Basic Circuits.- Resistance.- Work, Energy, and Power.- Coulomb's Law.- Networks.- Capacitors.- AC Circuits.- Compensating Circuits.- Voltmeters.- Impedance Transformation.- Ammeters.- Resonance.- Maximum Power.- Transients.- Insulation.- Waveforms.- 3 Power.- Single-Phase Power.- Polyphase Power.- Power Factor Correction.- Transmission Line Calculations.- Wattmeter Measurements.- Short Circuit Calculations.- 4 Machinery.- DC Machines.- AC Machines.- Magnetic Devices.- 5 Control Theory.- Basic Feedback Systems Terms.- Singularity Functions.- Second-Order Systems.- Poles and Zeros.- Partial Fractions.- Stability.- Transfer Function.- Compensation.- Bode Analysis.- Root Locus.- 6 Electronics.- Black Box Analysis.- Diodes.- Transistors.- Biasing and Stability.- Field Effect Transistors.- Vacuum Tubes.- Operational Amplifiers.- Amplifier Class.- Power Supply Circuits.- 7 Communications.- Low-Frequency Transmission.- RF Transmission.- Attenuation.- Antennas.- 8 Logic.- Definition of Terms, Postulates, Properties.- 9 Economics.- Interest.- Depreciation.- Equivalent Costs.- Breakeven Analysis.- Special Problems.- You Should Be Ready.- Appendix Tables.- References.