In the overview of the EMF applications, the main aim of this paper is to analyze the manner in which the electromagnetic theory has been applied and some of the benefits and disadvantages of its use. The analysis will also focus on its application for instance in the case of the low 3d frequency electromagnetic modeling of the human eye with elemental boundaries that are applicable to the (CK) conductive keratoplasty (Lindebaum 298).
The surgical technique (CK) Conductive keratoplas is an example of an application that utilizes the electromagnetic theory. It entails a process where the cornea is penetrated by the use of a thin electrode that sends radio-frequency pulse energy to the environs surrounding the tissues in the eye. The heat energy from the electromagnetic is then dispelled into the tissues, which not only tighten thermally but also shrink the lamellae collagen. This process allows the doctors to cure common eye diseases like astigmatism and far-sightedness and correct the cornea’s shape (Itin 3361).
A much more technical description of the CK process would include. it being understood from the perspective that biological tissue all have different permatives and conductives and due to this aspect the exposure of biological tissues to low intensity systems and high voltages should be preferably don in such electrical fields. Therefore, low frequency electromagnetic field calculations require boundary element method (BEM) and macroscopic Maxwell equations in their applications, which will later be used to solve the electric problem in the eye (Wolpe 388).
Combination of discontinuous and continuous collocations nodes can be used where there are possible potentials that will have to be attached and assigned to the nodes continuously and the discontinuous nodes can be attached and assigned to the electric fields.