This chapter teaches calculating the force between two particles that are placed at a distance from each other, why charge appears when there is a friction between two materials, conductors, insulators, Coulomb’s law, Gauss’s law and applications of these laws, electrostatic fields, electric flux, and dipole.
Mechanics are the base of every chapter where we learn how energy plays an important role as a useful quantity to study electric force. This chapter mainly helps in understanding the basic definition of electrostatic potential along with the contribution of potential energy. Important topics of this chapter are equipotential surfaces, capacitors, determining electrical field energy.
Circuits make computers, digital cameras, and video games possible. Circuits are driving an unprecedented rate of change in how we live. In this topic you'll learn about the physics behind the electronic devices we use
This chapter deals with moving charges and magnetism. It tells you how magnetic fields exert a force on moving charged particles, these charged particles are nothing but electrons, protons and current-carrying wires. Moving charges and current wires produces a magnetic field in a space
The key topics discussed in this chapter are Faraday’s law of Electromagnetism and basics of Electricity and Magnetism, Magnetic Flux and Formulas on that, Lenz’s law, Inductance, Motional Electromotive Force and Formula around it, Eddy currents and its applications, and AC generator.
Light can seem mysterious. What is light made out of? What causes color? How do 3D movies work? Learn about some of the mysterious properties of light in these tutorials.
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