Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal

Electricity And Magnetism Hand Written Note:

Here, We provided to Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal. Electricity and magnetism are one of the most interesting topics in physics. In this article, we will learn about the concepts of magnetism and electricity and the relationship between them. we will also learn interesting concepts related to them like electron movement, conductors, semiconductors and insulators, magnetic fields, etc. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

electricity & magnetism hand written note part 2 by abhijeet agarwalBasic Principles of Electricity:

Electricity is a phenomenon associated with either stationary or moving electric charges. The source of the electric charge could be an elementary particle, an electron (which has a negative charge), a proton (which has a positive charge), an ion, or any larger body that has an imbalance of positive and negative charge. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Positive and negative charges attract each other (e.g., protons are attracted to electrons), while like charges repel each other (e.g., protons repel other protons and electrons repel other electrons). Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Familiar examples of electricity include lightning, electrical current from an outlet or battery, and static electricity. Common SI units of electricity include the ampere (A) for current, coulomb (C) for electric charge, volt (V) for potential difference, ohm (Ω) for resistance, and watt (W) for power. A stationary point charge has an electric field, but if the charge is set in motion, it also generates a magnetic field. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Basic Principles of Magnetism:

Magnetism is defined as the physical phenomenon produced by moving electric charges. Also, a magnetic field can induce charged particles to move, producing an electric current. An electromagnetic wave (such as light) has both an electric and magnetic component. The two components of the wave travel in the same direction but oriented at a right angle (90 degrees) to one another. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Like electricity, magnetism produces attraction and repulsion between objects. While electricity is based on positive and negative charges, there are no known magnetic monopoles. Any magnetic particle or object has a “north” and “south” pole, with the directions based on the orientation of the Earth’s magnetic field. Like poles of a magnet repel each other (e.g., north repels north), while opposite poles attract one another (north and south attract). Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Familiar examples of magnetism include a compass needle’s reaction to Earth’s magnetic field, attraction and repulsion of bar magnets, and the field surrounding electromagnets. Yet, every moving electric charge has a magnetic field, so the orbiting electrons of atoms produce a magnetic field; there is a magnetic field associated with power lines; and hard discs and speakers rely on magnetic fields to function. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Key SI units of magnetism include the tesla (T) for magnetic flux density, weber (Wb) for magnetic flux, ampere per meter (A/m) for magnetic field strength, and henry (H) for inductance. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

Table of Content:

  • Electrostatics
  • Magnetostatic
  • Dynamics of Charged Particles in Static & Electromagnetic Fields
  • Electromagnetic Induction
  • Maxwell’s Equations
  • Electromagnetic Waves
  • Applications of Electromagnetic Waves
  • Potential & Field Formulation for Time-Varying Fields
  • Simple AC Circuits with R, L & C components
  • Simple DC Circuits with R, L & C components

BOOK INFO

BOOK NAMEELECTRICITY & MAGNETISM HAND WRITTEN NOTE PART 2

AUTHOR – ABHIJEET AGARWAL

SIZE – 15MB

PAGES – 86

Difference between Electricity and Magnetism:

There are numerous ways by which we can differentiate between magnetism and electricity. Some main electricity and magnetism differences are given in the points mentioned below.

  • The major difference between electricity and magnetism is the presence of magnetism.
  • Electricity can be present in a static charge, while magnetism’s presence is only felt when there are moving charges as a result of electricity.
  • In simple words, electricity can exist without magnetism, but magnetism cannot exist without electricity.

The Fundamental Principles of Electromagnetism:

The word electromagnetism comes from a combination of the Greek words electron, meaning “amber” and magnetize lithos, meaning “Magnesian stone,” which is magnetic iron ore. The ancient Greeks were familiar with electricity and magnetism but considered them to be two separate phenomena. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

The relationship known as electromagnetism wasn’t described until James Clerk Maxwell published A Treatise on Electricity and Magnetism in 1873. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal. Maxwell’s work included twenty famous equations, which have since been condensed into four partial differential equations. The basic concepts represented by the equations are as follows:

  • Like electric charges repel, and unlike electric charges attract. The force of attraction or repulsion is inversely proportional to the square of the distance between them.
  • Magnetic poles always exist as north-south pairs. Like poles repel like and attract unlike.
  • An electric current in a wire generates a magnetic field around the wire. The direction of the magnetic field (clockwise or counterclockwise) depends on the direction of the current. This is the “right-hand rule,” where the direction of the magnetic field follows the fingers of your right hand if your thumb is pointing in the current direction.
  • Moving a loop of the wire toward or away from a magnetic field induces a current in the wire. The direction of the current depends on the direction of the movement.

Maxwell’s theory contradicted Newtonian mechanics, yet experiments proved Maxwell’s equations. The conflict was finally resolved by Einstein’s theory of special relativity. Free download PDF Electricity And Magnetism Hand Written Note Part 2 By Abhijeet Agarwal.

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