Theory and Design of Electrical and Electronic Circuits

Book 
Description: 493 page text on basic circuit theory.
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Author(s): Tait, Eugenio Maximo
License: Unknown
Format: PDF
Price: free
URL: http://www.geocities.com/ tdcee/ Directory.htm
Limitations: The main link provided here points to the author's web site, where chapters may be individually downloaded. We also found a single file PDF version at http://sourcepower.blogspot.com/.
ReviewText: The table of contents includes:
 Generalities
 Polarization of components
 Dissipator of heat
 Inductors of small value
 Transformers of small value
 Inductors and Transformers of great value
 Power supply without stabilizing
 Power supply stabilized
 Amplification of Audiofrequency in low level class A
 Amplification of Audiofrecuenciy on high level classes A and B
 Amplification of Radiofrecuency in low level class A
 Amplification of Radiofrecuency in low level class C
 Amplifiers of Continuous
 Harmonic oscillators
 Relaxation oscillators
 Makers of waves
 The Transistor in the commutation
 Multivibrators
 Combinationals and Sequentials
 Passive networks as adapters of impedance
 Passive networks as filters of frequency
 Active networks as filters of frequency and displaced of phase
 Amplitude Modulation
 Demodulacin of Amplitude
 Modulation of Angle
 Demodulation of Angle
 Heterodyne receivers
 Lines of Transmission
 Antennas and Propagation
 Electric and Electromechanical installations
 Control of Power
 Introduction to the Theory of the Control
 Discreet and Retained signals
 Variables of State in a System
 Stability in Systems
 Feedback of the State in a System
 Estimate of the State in a System
 Controllers of the State in a System
Keywords: circuit theory
, oscillators
, antennas
, amplifiers
, transformers
, power supplies
, heat
, inductors
, class A
, class B
, multivibrators
, modulation
Submitter: EE HomePage Editorial Staff
Affiliation: None
xml_ID: 1162651454 ( single entry page)

A Radically Modern Approach to Introductory Physics

Book 
Description: This online textbook covers a broad range of topics in modern physics.
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Author(s): Raymond, David J.
License: Some Restrictions (includes GNU)
Format: Video
Price: Free
URL: http://kestrel.nmt.edu/ ~raymond/ classes/ ph13xbook/ index.html
ReviewText: Contents include:
 Waves in One Dimension
 Transverse and Longitudinal Waves
 Sine Waves
 Types of Waves
 Superposition Principle
 Beats
 Interferometers
 Thin Films
 Math Tutorial  Derivatives
 Group Velocity
 Waves in Two and Three Dimensions
 Math Tutorial  Vectors
 Plane Waves
 Superposition of Plane Waves
 Diffraction Through a Single Slit
 Two Slits
 Diffraction Gratings
 Geometrical Optics
 Reflection and Refraction
 Total Internal Reflection
 Anisotropic Media
 Thin Lens Formula and Optical Instruments
 Fermat's Principle
 Kinematics of Special Relativity
 Galilean Spacetime Thinking
 Spacetime Thinking in Special Relativity
 Postulates of Special Relativity
 Time Dilation
 Lorentz Contraction
 Twin Paradox
 Applications of Special Relativity
 Waves in Spacetime
 Math Tutorial  FourVectors
 Principle of Relativity Applied
 Characteristics of Relativistic Waves
 The Doppler Effect
 Addition of Velocities
 Acceleration and General Relativity
 Acceleration
 Circular Motion
 Acceleration in Special Relativity
 Acceleration, Force, and Mass
 Accelerated Reference Frames
 Gravitational Red Shift
 Event Horizons
 Matter Waves
 Bragg's Law
 XRay Diffraction Techniques
 Meaning of Quantum Wave Function
 Sense and Nonsense in Quantum Mechanics
 Mass, Momentum, and Energy
 Heisenberg Uncertainty Principle
 Geometrical Optics and Newton's Laws
 Fundamental Principles of Dynamics
 OneDimensional NonRelativistic Case
 Potential Energy

Work and Power

Math Tutorial  Partial Derivatives

Motion in Two and Three Dimensions

Kinetic and Potential Momentum

Wave Mechanics

Math Tutorial  Complex Waves

Free Particle Wave Function

Effects of Varying Potential Energy

Confined Particles

Dynamics of Multiple Particles

Momentum and Newton's Second Law

Newton's Third Law

Conservation of Momentum

Collisions

Rockets and Conveyor Belts

Rotational Dynamics

Math Tutorial  Cross Product

Torque and Angular Momentum

The Uneven Dumbbell

Two Particles in General

Many Particles

Rigid Bodies

Statics

Harmonic Oscillator

Energy Analysis

Analysis Using Newton's Laws

Forced Oscillator

Quantum Mechanical Harmonic Oscillator

Newton's Law of Gravitation

The Law of Gravitation

Gravitational Field

Gravitational Flux

Flux from Multiple Masses

Effects of Relativity

Kepler's Laws

Use of Conservation Laws

Forces in Relativity

Potential Momentum

AharonovBohm Effect

Forces from Potential Momentum

Lorentz Condition

Gauge Theories and Other Theories

Conservation of FourMomentum Again

Virtual Particles

Virtual Particles and Gauge Theory

Negative Energies and Antiparticles

Electromagnetic Forces

Electromagnetic FourPotential

Electric and Magnetic Fields and Forces

A Note on Units

Charged Particle Motion

Forces on Currents in Conductors

Torque on a Magnetic Dipole and Electric Motors

Electric Generators and Faraday's Law

EMF and Scalar Potential

Generation of Electromagnetic Fields

Coulomb's Law and the Electric Field

Gauss's Law for Electricity

Gauss's Law for Magnetism

Coulomb's Law and Relativity

Moving Charge and Magnetic Fields

Electromagnetic Radiation

The Lorentz Condition

Capacitors, Inductors, and Resistors

The Capacitor and Ampere's Law

The Capacitor

Circulation of a Vector Field

Ampere's Law

Magnetic Induction and Inductors

Resistance and Resistors

Energy of Electric and Magnetic Fields

Kirchhoff's Laws

Measuring the Very Small

Continuous Matter or Atoms?

The Ring Around the Moon

The GeigerMarsden Experiment

Cosmic Rays and Accelerator Experiments

Commentary

Atoms

Fermions and Bosons

The Hydrogen Atom

The Periodic Table of the Elements

Atomic Spectra

The Standard Model

Quarks and Leptons

Quantum Chromodynamics

The Electroweak Theory

Grand Unification?

Atomic Nuclei

Molecules  an Analogy

Nuclear Binding Energies

Radioactivity

Nuclear Fusion and Fission

Heat, Temperature, and Friction

Temperature

Heat

Specific Heat

First Law of Thermodynamics

Heat Conduction

Thermal Radiation

Friction

Entropy

States of a Brick

Second Law of Thermodynamics

Two Bricks in Thermal Contact

Thermodynamic Temperature

Specific Heat

Entropy and Heat Conduction

The Ideal Gas and Heat Engines

Ideal Gas

Slow and Fast Expansions

Heat Engines

Perpetual Motion Machines

Constants

Constants of Nature

Properties of Stable Particles

Properties of Solar System Objects

Miscellaneous Conversions
Keywords: reflection
, Kirchhoff's Laws
, quantum mechanics
, derivatives
, Newton's Laws
, acceleration
, thermodynamics
, Doppler Effect
, fusion
, optics
, refraction
, diffraction
, relativity
, thermal radiation
, capacitors
, oscillator
, Faraday's Law
, thin films
, inductors
, resistors
, electric motors
, Superposition Principle
, interferometers
, group velocity
, plane waves
, Fermat's Principle
, Special Relativity
, time dilation
, Lorentz Contraction
, General Relativity
, red shift
, matter waves
, Bragg's Law
, Xray diffraction
, Heisenberg Uncertainty Principle
, Kepler's Laws
, AharonovBohm Effect
, Lorentz Condition
, magnetic dipole
, EMF
, Coulomb's Law
, Gauss's Laws
, electromagnetic radiation
, cosmic rays
, quarks
, leptons
, radioactivity
, fission
, entropy
, heat conduction
Submitter: EE HomePage Editorial Staff
Affiliation: None
xml_ID: 1175387352 ( single entry page)

Fundamentals of Electrical Engineering and Electronics


Description: This textbook has been restructured as a downloadable HTML help file.
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Author(s): Kuphaldt, Tony R.
License: Some Restrictions (includes GNU)
Format: HTML
Price: Free
URL: http://www.vias.org/ feee/
ReviewText: Contents include
 DC
 Basic Concepts of Electricity
 Ohm's Law
 Electrical Safety
 Scientific Notation and Metric Prefixes
 Series and Parallel Circuits
 Divider Circuits and Kirchhoff'S Laws
 SeriesParallel Combination Circuits
 DC Metering Circuits
 Electrical Instrumentation Signal
 DC Network Analysis
 Batteries and Power Systems
 Physics of Conductors and Insulators
 Capacitors
 Magnetism and Electromagnetism
 Inductors
 RC and L/R Time Constants
 AC
 AC
 Basic AC Theory
 Complex Numbers
 Reactance and Impedance  Inductive
 Reactance and Impedance  Capacitive
 Reactance and Impedance  R, L, and C
 Resonance
 MixedFrequency AC Signals
 Filters
 Transformers
 Polyphase AC Circuits
 Power Factor
 AC Metering Circuits
 AC Motors
 Transmission Lines
 Semiconductors
 Amplifiers and Active Devices
 SolidState Device Theory
 Diodes and Rectifiers
 Bipolar Junction Transistors
 Junction FieldEffect Transistors
 InsulatedGate FieldEffect Transistors
 Thyristors
 Operational Amplifiers
 Practical Analog Semiconductor Circuits
 Electron Tubes
 Digital
 Numeration Systems
 Binary Arithmetic
 Logic Gates
 Switches
 Electromechanical Relays
 Ladder Logic
 Boolean Algebra
 Karnaugh Mapping
 Multivibrators
 Counters
 Shift Registers
 DigitalAnalog Conversion
 Digital Communication
 Digital Storage (Memory)
 Principles of Digital Computing
 Reference
 Resistor Color Codes
 Conductor and Insulator Tables
 Algebra Reference
 Trigonometry Reference
 Calculus Reference
 Using the Spice Circuit Simulation Program
 Troubleshooting  Theory and Practice
 Circuit Schematic Symbols
 Periodic Table of the Elements
 Experiments
Keywords: power factor
, BJT
, DAC
, filters
, Ohm's Law
, Kirchhoff's Laws
, complex numbers
, reactance
, resonance
, JFET
, binary arithmetic
, boolean algebra
, Karnaugh mapping
, resistor color codes
, algebra
, trigonometry
, calculus
, Spice
, transmission lines
, amplifiers
, magnetism
, capacitors
, transistors
, electron tubes
, tubes
, transformers
, counters
, shift registers
, power systems
, semiconductors
, thyristors
, inductors
, multivibrators
, schematic
, diodes
, electrical safety
, scientific notation
, metric prefixes
, series and parallel circuits
, divider circuits
, seriesparallel combination circuits
, dc metering circuits
, dc network analysis
, batteries
, conductors
,
, insulators
, electromagnetism
, RC time constant
, L/R time constant
, time constant
, polyphase ac circuits
, ac metering circuits
, ac motors
, solidstate device theory
, rectifiers
, bipolar junction transistors
, junction fieldeffect
, insulatedgate fieldeffect transistors
, IGFET
, operational amplifiers
, numeration systems
, switches
, electromechanical relays
, ladder logic
, digitalanalog conversion
, digital communication
, conductor table
, insulator tables
, symbols
, periodic table of the elements
Submitter: EE HomePage Editorial Staff
Affiliation: Employee
xml_ID: 1168103854 ( single entry page)
