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ELECTRIC CIRCUITS FUNDAMENTALS - 1987 HB by Thomas L. Floyd FREE Shipping! - Picture 1 of 2

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Electric Circuits Fundamentals by Thomas L. Floyd (1997, Hardcover)

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DC CIRCUITS. Components, Quantities, and Units. Electrical and Magnetic Units. Scientific Notation. The Electric Circuit. Ohm's Law, Energy, and Power. Ohm's Law. Application of Ohm's Law.

About this product

Product Identifiers

PublisherPrentice Hall PTR

ISBN-10013835166X

ISBN-139780138351663

eBay Product ID (ePID)28038257300

Product Key Features

Edition4

Book TitleElectric Circuits Fundamentals

Number of Pages651 Pages

LanguageEnglish

TopicElectronics / Circuits / General, Electrical, Equipment, Appliances & Supplies

Publication Year1997

IllustratorYes

GenreTechnology & Engineering, House & Home

AuthorThomas L. Floyd

FormatHardcover

Dimensions

Item Height1 in

Item Weight55.1 Oz

Item Length11.1 in

Item Width8.5 in

Additional Product Features

LCCN97-003024

Dewey Edition22

Dewey Decimal621.319/2

Table Of ContentI. DC CIRCUITS. 1. Components, Quantities, and Units. Electrical Components and Measuring Instruments. Electrical and Magnetic Units. Scientific Notation. Metric Prefixes. Metric Unit Conversions. 2. Voltage, Current, and Resistance in Electric Circuits. Atoms. Electrical Charge. Voltage. Current. Resistance. The Electric Circuit. Basic Circuit Measurements. Application Assignment. 3. Ohm's Law, Energy, and Power. Ohm's Law. Application of Ohm's Law. Energy and Power. Power in an Electric Circuit. The Power Rating of Resistors. Energy Conversion and Voltage Drop in Resistance. Power Supplies. Application Assignment. 4. Series Circuits. Resistors in Series. Current in a Series Circuit. Total Series Resistance. Ohm's Law in Series Circuits. Voltage Sources in Series. Kirchhoff's Voltage Law. Voltage Dividers. Power in a Series Circuit. Circuit Ground. Troubleshooting. Application Assignment. 5. Parallel Circuits. Resistors in Parallel. Voltage Drop in Parallel Circuits. Kirchhoff's Current Law. Total Parallel Resistance. Ohm's Law in Parallel Circuits. Current Dividers. Power in Parallel Circuits. Examples Of Parallel Circuit Applications. Troubleshooting. Application Assignment. 6. Series-Parallel Circuits. Identifying Series-Parallel Relationships. Analysis of Series-Parallel Circuits. Voltage Dividers with Resistive Loads. Loading Effect of a Voltmeter. The Wheatstone Bridge. Circuits with More than One Voltage Source. Thevenin's Theorem. Troubleshooting. Application Assignment. 7. Magnetism and Electromagnetism. The Magnetic Field. Electromagnetism. Electromagnetic Devices. Magnetic Hysteresis. Electromagnetic Induction. Applications of Electromagnetic Induction. Application Assignment. II. AC CIRCUITS. 8. Introduction to Alternating Current and Voltage. The Sine Wave. Sine Wave Voltage Sources. Voltage and Current Value of Sine Waves. Angular Measurement of a Sine Wave. The Sine Wave Formula. Ohm's Law and Kirchhoff's Laws in AC Circuits. Superimposed DC and AC Voltages. Nonsinusoidal Waveforms. The Oscilloscope. Application Assignment. 9. Capacitors. The Basic Capacitor. Types of Capacitors. Series Capacitors. Parallel Capacitors. Capacitors in DC Circuits. Capacitors in AC Circuits. Capacitor Applications. Testing Capacitors. Application Assignment. 10. Inductors. The Basic Inductor. Types of Inductors. Series Inductors. Parallel Inductors. Inductors in DC Circuits. Inductors in AC Circuits. Inductor Applications. Testing Inductors. Application Assignment. 11. Transformers. Mutual Inductance. The Basic Transformer. Step-Up Transformers. Step-Down Transformers. Loading the Secondary Winding. Reflected Load. Matching the Load and Source Resistances. The Transformer as an Isolation Device. Nonideal Transformer Characteristics. Other Types of Transformers. Troubleshooting. Application Assignment. 12. RC Circuits. Sinusoidal Response of RC Circuits. Impedance and Phase Angle of Series RC Circuits. Analysis of Series RC Circuits. Impedance and Phase Angle of Parallel RC Circuits. Analysis of Parallel RC Circuits. Series-Parallel Analysis. Power in RC Circuits. Basic Applications. Troubleshooting. Application Assignment. 13. RL Circuits. Sinusoidal Response of RL Circuits. Impedance and Phase Angle of Series RL Circuits. Analysis of Series RL Circuits. Impedance and Phase Angle of Parallel RL Circuits. Analysis of Parallel RL Circuits. Series-Parallel Analysis. Power in RL Circuits. Basic Applications. Troubleshooting. Application Assignment. 14. RLC Circuits and Resonance. Impedance and Phase Angle of Series RLC Circuits. Analysis of Series RLC Circuits. Series Resonance. Seri

SynopsisThe fourth edition of this work includes Electronics Workbook exercises within selected examples, as well as certain troubleshooting and application assignments sections to provide experience in computer-aided circuit analysis and in troubleshooting., Appropriate for introductory courses in Electric Circuits, and Intro to DC/AC Circuits offered by vocational and technical schools, and community colleges. This acclaimed text offers a thorough, practical introduction to dc/ac analysis geared to the technician-level student and written at a level at which these students are comfortable! Floyd's comprehensive treatment focuses on fundamental principles and their applications to solving real circuit analysis problems, limiting mathematics to what's needed for understanding. He uses straightforward explanations and a strong troubleshooting emphasis to give technician-level students the problem-solving experience they need in a style that makes complex material thoroughly understandable.

LC Classification NumberTK454.F559 1998