WebMay 14, 2024 · This video is based on relation between electric susceptibility and Dielectric Contact. Ch 1 electric charges and field. Class 12 physics. By Sunita Deswal... Electric susceptibility is considered to be a quantitative measure to the extent to which an electric field applied to a dielectric constant causes polarisation. When this phenomenon occurs, there is a slight displacement of positive and negative charges within the material. Most of the dielectric materials have … See more The formula of electric susceptibility is derived as follow: P = ε₀XₑE Where, P = It is considered as the polarisation density. ε₀ = It is considered … See more The Dielectric Constant is responsible for indicating the extent to which a particular substance can conduct electricity through it. Electric … See more A dielectric is considered to be a material that has poor electrical conductivity but has the ability to store electric charge in it. It is capable of … See more D = ε₀ (E+P). ………(1) Also, D = εE and P = XeE Substituting this values in Equation 1 we get, εE = ε₀E + XeE ε = ε₀ + Xe ε / ε₀ = 1 + Xe / ε₀ But, ε / ε₀ = Dielectric Constant (K) This is the required relation; clearly, the value for … See more
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WebNational Council of Educational Research and Training WebThis video is about the derivation of the equation showing Relation between Electric Susceptibility and Dielectric Constant. Sorry for the bad audio. the in old english
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WebLet’s first study the relationship between dielectric constant and electric susceptibility. The dielectric property plays a major role in the functioning of the capacitor. Suppose there is a parallel plate capacitor with dielectric medium which has electric field E p … WebElectric susceptibility definition, (when the components of electrical polarization are linear combinations of the components of the electric field) the coefficient or set of coefficients … WebMar 30, 2024 · where r 12 is the distance between the charges According to the principle of super position, the potential energy of the system of two charges in an electric field is U = U 1 + U 2 + U 12. 3. Potential energy of a dipole in an external field: Consider a dipole of dipole moment ‘P’ suspended in a uniform electric field of intensity ‘E’. the in other languages