We have already derived and discussed the gauss law of electrostatics. Let us discuss its applications one by one. Toady I will derive and discuss
Gauss’s law for electrostatics is used for determination of electric fields in some problems in which the objects possess spherical symmetry, cylindrical symmetry,planar symmetry or
Last time I have derived and discussed the gauss law for electrostatics. Let us today derive and discuss the gauss law for electrostatics in differential
Do you know that if we know the charge distribution, then we can calculate the electric field due to this charge distribution? This is based
Hello friends, today we will discuss the Maxwell’s fourth equation and its differential & integral form. Let us first derive and discuss Maxwell fourth equation:
Statement.(a) It states that,whenever magnetic flux linked with a circuit changes then induced electromotive force (emf) is set up in the circuit. This induced emf
Maxwell’s first equation or Gauss’s law in electrostatics Statement. It states that the total electric flux φE passing through a closed hypothetical surface is equal
WAVE EQUATION IN TERMS OF MAGNETIC FIELD INTENSITY,H Free space or non-conducting or lossless or in general perfect dielectric medium has following characteristics: (a) No
CONCEPT OF DISPLACEMENT CURRENT (DIFFERENCE BETWEEN DISPLACEMENT CURRENT AND CONDUCTION CURRENT) Let there be a parallel R-C network with a voltage V as shown in
Assume that a homogeneous isotropic material is subjected to a temperature gradient dT/dx. The flow of heat will result in the direction opposite to the
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