Dielectrics and Polarization – Class 12 | Chapter – 2 | Physics Short Notes Series PDF for NEET & JEE

Dielectrics and Polarization: Dielectrics and polarization are two important concepts in electrostatics.

A dielectric is a non-conductive material that can be used to insulate electric charges and store electric energy. Dielectrics are characterized by their dielectric constant, which determines how easily the material can be polarized by an electric field. A high dielectric constant means that the material is easily polarized, and a low dielectric constant means that it is less easily polarized.

Polarization is the process by which an electric field induces a separation of electric charges within a material. This separation of charges creates an electric dipole moment, which can store electric energy. The electric field within a dielectric is proportional to the polarization of the material, and the amount of energy stored is proportional to the square of the polarization.

Dielectrics are used in many applications, such as capacitors and transformers, where they store electric energy and allow electric fields to be transmitted without the flow of electric charges. They are also used in electronic devices to insulate components and protect against electrical breakdown.

Characteristics of  Dielectrics and Polarization

The characteristics of dielectrics and polarization can be summarized as follows:

  • Non-conductive material: Dielectrics are non-conductive materials, meaning that they do not conduct electric charges. This makes them ideal for insulating electric charges and storing electric energy.
  • Dielectric constant: The dielectric constant of a material determines how easily the material can be polarized by an electric field. A high dielectric constant means that the material is easily polarized, and a low dielectric constant means that it is less easily polarized.
  • Polarization: Polarization is the process by which an electric field induces a separation of electric charges within a material. This separation of charges creates an electric dipole moment, which can store electric energy.
  • Electric field and polarization: The electric field within a dielectric is proportional to the polarization of the material, and the amount of energy stored is proportional to the square of the polarization.
  • Energy storage: Dielectrics can store large amounts of electric energy, making them useful in capacitors and transformers.
  • Insulation: Dielectrics are used to insulate electrical components, protecting against electrical breakdown and ensuring proper operation.
  • Applications: Dielectrics are used in a wide range of applications, including capacitors, transformers, electronic devices, and electrical insulation.


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By Team Learning Mantras