Electricity:
general overview 
related subjects: Electronics: electricity,
Electronics: magnetism |
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Electricity
electric field, Gauss' law, electric potential, capacitance, magnetic field,
Lorentz force Law, Hall Effect, Bio Savart law, electromagnetic induction,
Lenz's & Faraday's law, Ampere's law, Ampere-Maxwell law, electromagnetic waves |
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Electricity
What is the atomic structure of matter? What are ions and ionization? What are
free electrons, conductors and insulators? What is electric current? What is
static electricity? What is thermoelectricity? What is resistance? What is
electrochemistry? What are magnetism and electricity? How do motors and
generators work? How does the light bulb work? What is a transformer? How is
electricity generated, transmitted and distributed? How is electricity
distributed in the home? What is energy conservation? What is green power? What
is distributed generation? |
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Electricity
in German |
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Electricity electric charges and field electrostatics, effects of current,
electromagnetic induction, electrical machines, electricity used at homes,
hazards of electricity, capacitor |
| Electricity &
magnetism electric field, Gauss' law, electric potential, capacitance, magnetic field, Lorentz force Law, Hall Effect, Bio Savart law,
electromagnetic induction, Lenz's & Faraday's law, Ampere's law, Ampere-Maxwell law, electromagnetic waves |
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Electricity &
magnetism Vector Fields, Electrostatics, Magnetostatics, Faraday's Law,
Light |
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Electricity &
magnetism Static Electricity, Gauss' Law, The Electric Potential,
Capacitance and Dielectrics, Electrodynamics, Direct Current Circuits, Magnetic
Fields and Forces, Sources of Magnetic Field, Electromagnetic Induction,
Inductance, Electromagnetic Waves |
| Electricity and
magnetism TATIC ELECTRICITY, Structure of the Atom, The Fundamentals of
Electricity, Coulomb’s Law, electric field, Electric Field Intensity, Electric
Potential Energy, Conduction in Solids, Conductors and Insulators, Electric
Power and Energy, Natural Magnets, Magnetic Fields, The Magnetic Force,
Electromagnetic Induction, ..., online book in pdf format, 2 Megabyte |
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Electricity and magnetism electricity and magnetism, static electricity,
Gauss' law, electric potential, capacitance and dielectrics, electrodynamics,
Kirchoff's rules, magnetic fields and forces, electromagnetic induction,
inductance, electromagnetic waves, properties and propagation of light, The
Properties and Propagation of Light, Physical Optics |
| Electricity and magnetism electric field, Gauss' law,
dipole, capacitors, electric potential, capacitance, current,
magnetic field, electromagnetic induction, Lorentz force Law, ... |
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Electricity &
magnetism tutorial electric field, Gauss' law, electric potential, capacitance,
magnetic field, Lorentz force Law, DC circuits, ... |
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Electricity online animated |
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L’électricité en Français, pdf file |
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Physics 122 |
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Horizontaal |
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Electricity topics |
| Champ
d'action champ magnétique, champ électrique, lignes de force, en Français |
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Conventional vs electron flow |
| Current and
resistance Kirchhoff's laws |
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Current and
resistance |
| Electric blue sparks
(static generator) |
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Electric current |
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Electrical Current Charge in motion (in one direction) is referred to as
current |
| Electrical discharges
electrical discharges |
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Hoeveelheid elektriciteit Q = I x t, in Dutch |
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Induction coils induction coils |
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Insulators & conductors insulators & conductors |
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Pont de Wheatstone pdf file, en Français |
| Resistance in a conductor resistance in a conductor,
there are three external factors that influence the resistance in a conductor. Thickness (cross sectional area of the wire), length, and temperature all have
some effect on the amount of resistance created in a conductor. The fourth factor is the conductivity of the material we are using |
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Resistivity resistivity |
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Resistivity resistivity |
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Resistivity resistivity |
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Speed of an electron |
| Thermoelectrics
thermoelectric modules are solid-state devices (no moving parts) that convert
electrical energy into a temperature gradient, known as the "Peltier effect" or convert thermal energy from a temperature gradient into electrical energy, the
"Seebeck effect." |
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Water
circuit analogy to electric circuit |
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Last updated on:
2011-01-02
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