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reading resistors, reading capacitors, inductors, transistors, diodes, electronic engineering, electricity, digital electronics, binary addition, rules of powers of ten, scientific notation, resistance, ohms law, calculating efficiency, calculating energy dissipation, voltage sources, kirchhoff loltage law, kirchhoff current law, dielectric strength, magnets and electromagnetism, flux lines, permeability, inductance, effective current, effective voltage, complex numbers, Q factor, power triangle, impedance of series and parallel circuits, reactance of series and parallel circuits, RC filters, RL filter, RLC filters, forward and reverse biasing of diodes, base current, emitter current, collector current, base voltage, collector voltage, emitter voltage, gate voltage, drain current, frequency, duty cycle, hexadecimal notation, logic gates, binary adders, 555 timers, amplifiers and hundreds of more principles. |
Hundreds of examples and an abundance of pictures. Easy to understand diagrams.
The CD is a highly valuable asset to your collection. Worth keeping for life. After all, its only your education at stake.
Read below for the complete table of contents
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Electricity |
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| Rules of powers of ten Product law Division law Powers of powers law Addition and subtraction Advanced multiplication Advanced division Advanced powers Electrons, neutrons and protons Coulomb’s Law of attraction and repulsion Charge of an electron Potential charge Potential difference General info on fixed dc power supplies Resistance Definition of resistance Resistor symbol Resistance of a material Resistance of a material equation Resistivity of certain metals Types of resistors (fixed/variable) Resistor color code chart back to top How to read resistors Reading a multimeter and ohmmeter Measuring a resistor with a multimeter Specific types of resistors Ohm’s Law Current law Voltage law Resistance law Visualizing Ohm’s Law Calculating current circuit using Ohm’s law Calculating voltage circuit using Ohm’s law Calculating resistance circuit using Ohm’s law Calculating power using Ohm’s Law Power equation examples Efficiency Calculating efficiency Efficiency as a percent Input and output of efficiency Overall efficiency Energy Energy lost or gained Energy expressed in KWh Series Circuit Series circuit defined Series circuit example Voltage sources in series Voltage sources in series example Kirchhoff’s Law back to top Kirchhoff’s voltage law Kirchhoff’s voltage law circuit Voltage divider rule of series circuits with example Voltage sources to grounds Voltage sources to grounds with practical example Voltage regulation Voltage regulation Voltage regulation as a percent Rules of series circuits Rules to remember about series circuits Parallel circuits Rules of parallel circuits Calculating resistance in a parallel branch with example Calculating an unknown resistance in a parallel branch Calculate an unknown resistance in a parallel branch with example Current and power in a parallel branch Kirchhoff’s current law in a parallel circuit Electricity ebook Current divider rule Current divider rule example circuit Parallel voltage sources Kirchhoff’s voltage law Series parallel circuits Series parallel example circuit Flux density and field strength Calculating flux density Calculating field strength Field strength in relation to distance Capacitance Capacitance defined Capacitance equation Relative permeability Dielectric strength back to top Variable capacitors Charging current of a capacitor Charging voltage of a capacitor Charging plates Leakage current Capacitors Decaying (discharge) voltage of a capacitor Decaying (discharge) current of a capacitor Voltage expressed in time Current expressed in time Capacitor charge in series Capacitance in series Capacitance in parallel Capacitors in parallel circuit Capacitors in series circuit Magnetism Magnetism defined Electromagnets Flux line diagram Solving for flux density Permeability Relative permeability Reluctance Ohm’s Law pertaining to magnetic circuits Magnetizing force back to top Hysteresis effects Electric to magnetic circuits Flux junctions Flux density of an air gap Magnetizing force of an air gap mmf across an air gap Inductors Inductors defined Self inductance Types of inductors Induced voltage Voltage across a coil Average voltage across a coil Storage phase of current Time constant of inductors Inductors in series example Inductors in parallel example Energy of an inductor Current of an inductor Waveforms General pictorial of waveforms Alternating Current Alternating current generation defined Right hand rule back to top Frequency Calculating the frequency Calculating the period Sinewave calculation Converting to radians Converting to degrees Angular velocity Effective (rms) value of current Effective (rms) value of voltage Capacitors revisited Capacitor facts Capacitive reactance Inductive reactance Frequency of an inductive-capacitive circuit Rectangular coordinates Rectangular coordinate plane Rectangular form examples Coordinates of the polar plane General form of polar coordinates Converting forms of polar and rectangular Rectangular to polar Polar to rectangular Examples in polar and rectangular forms Addition of complex numbers Subtraction of complex numbers Multiplication of complex numbers Division of complex numbers Series AC circuits back to top Series AC circuit Impedance of an AC circuit Inductive reactance of an AC circuit Capacitive reactance of an AC circuit True power Reactive power Apparent power Power factor Parallel AC circuits Parallel AC circuit example Fact sheet of parallel versus series circuits Series Parallel AC circuits General description of series parallel AC circuits Series resonant AC circuits Series AC resonant diagram RLC circuit Series resonant AC circuit explained Quality (Q) factor Impedance versus frequency Rules to remember in series RLC circuits Bandwidth Calculating the bandwidth of series resonant circuits Low frequency and high frequency Calculating half-power Parallel RLC resonant circuits Unity power factor Frequency of a parallel RLC circuit Maximum impedance Selectivity of parallel RLC circuits Quality (Q) factor Bandwidth of parallel RLC circuits Effects of quality Reactance of parallel RLC circuits Total impedance of parallel RLC circuits Calculating current in RLC circuits Example in RLC parallel circuits Logarithms back to top Generic form of a logarithm Examples of logarithms Rules of logarithms Multiplication Division Powers Decibels explained Power levels Voltage gains Sound pressure RC low pass filters RC circuit defined Capacitive reactance of RC circuits Voltage out to voltage in RC high pass filter RC high pass filter circuit Capacitive reactance in RC high pass filters Output voltage in high pass RC circuits RL high pass filters RL high pass filter circuit Combination filters High and low pass combination circuit Waveform characteristics Amplitude defined and graphed Pulse width, baseline and rising edge back to top Tilt voltage Tilt voltage equation Tilt voltage expressed as a percent Duty cycle Wye (Y) connection 3-phase Wye connections Line voltage of the Wye connections Phase angles Delta connection Line current Phase angles Power in Delta or Wye connections Average power Total power Reactive power Total reactive power Apparent power Total apparent power Power factor Transformers Transformer diagram Symbol of the transformer Mutual inductance Primary and secondary voltages Calculating current Impedance Power Data plate information Transformer circuit exercise Resistivity and temperature coefficients Wire gauge sizes Relative conductivity of certain metals Capacitor color codes (tantalum) Capacitor color codes (mica) back to top |
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