Electricity and Magnetism Assignment Homework help

Electricity is defined as the flow of electric charge and Magentism is defined as the force that causes a magnet to attract a magnetic material. The force of electromagnetism (electricity and magnetism) is manifested both in electric fields and magnetic fields; both are simply different aspects of electromagnetism, and hence are related to each other. A changing electric field generates a magnetic field; conversely a changing magnetic field generates an electric field. This effect is called electromagnetic induction, and is the basis of operation for electrical generators, induction motors, and transformers.

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We offer Electricity and Magnetism Assignment Homework help in following areas of Electricity and Magnetism:

• Coulomb’s Law
  
• Electric Field E
  
• Flux
  
• Gauss’s Theorem
  
• Electrostatic Potential
  
• Point Charge
  
• Spherical Charge Distributions
  
• Electron-volts
  
• Dipole Moments
  
• Quadrupole Moments
  
• Resistance
  
• Ohm’s Law
  
• Resistors in Series
  
• Conductors in Parallel
  
• Dissipation of Energy
  
• Electromotive Force and Internal Resistance
  
• Power Delivered to an External Resistance
  
• Potential Divider
  
• Ammeters and Voltmeters
  
• Wheatstone Bridge
  
• Delta-Star Transform
  
• Kirchhoff’s Rules
  
• Capacitors
  
• Plane Parallel Capacitor
  
• Coaxial Cylindrical Capacitor
  
• Concentric Spherical Capacitor
  
• Capacitors in Parallel
  
• Capacitors in Series
  
• Delta-Star Transform
  
• Kirchhoff’s Rules
  
• Energy Stored in a Capacitor
  
• Energy Stored in an Electric Field
  
• Mixed Dielectrics
  
• Inserting a Dielectric into a Capacitor
  
• Polarization and Susceptibility
  
• Discharging a Capacitor
  
• Real Capacitors
  
• Magnetic Field
  
• The Biot-Savart Law
  
• Helmholtz Coils
  
• Flux
  
• Ampere’s Theorem
  
• Force on a Current in a Magnetic Field
  
• Permeability of Free Space
  
• Magnetic Moment
  
• Potential Energy of a Magnet
  
• Moving-coil Ammeter
  
• Magnetogyric Ratio
  
• Magnetic Potential
  
• Magnetic Vector Potential
  
• Divergence
  
• Electromagnetic Induction
  
• Electromagnetic Induction and Lorentz Force
  
• Lenz's Law
  
• Ballistic Galvanometer
  
• AC Generator
  
• AC Power
  
• Linear Motors and Generators
  
• Rotary Motors
  
• The Transformer
  
• Mutual Inductance
  
• Self Inductance
  
• Energy Stored in an Inductance
  
• Energy Stored in a Magnetic Field
  
• Properties of Magnetic Materials
  
• Magnetic Circuits and Ohm’s Law
  
• Magnetization and Susceptibility
  
• Diamagnetism
  
• Paramagnetism
  
• Ferromagnetism
  
• Antiferromagnetism
  
• Ferrimagnetism
  
• Alternating Current
  
• Resistance and Inductance in Series
  
• Resistance and Capacitance in Series
  
• Admittance
  
• The RLC Series Acceptor Circuit
  
• The RLC Parallel Rejector Circuit
  
• The Owen Bridge
  
• The Schering Bridge
  
• The Wien Bridge
  
• Laplace Transforms
  
• The First Integration Theorem
  
• The Second Integration Theorem
  
• Shifting Theorem
  
• Differentiation Theorem
  
• A First Order Differential Equation
  
• A Second Order Differential Equation
  
• Generalized Impedance
  
• RLC Series Transient
  
• Maxwell’s Equations
  
• Poisson's and Laplace's Equations
  
• Electromagnetic Waves
  
• Gauge Transformations
  
• Retarded Potential
  
• Magnetic Dipole Moment
  

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