Electricity is the flow of electrons from areas of high concentration to ar-neas of low concentration. Voltage is the most commonly recognized fac-ntor in electrical injuries; therefore, it is used to classify injuries and thennanticipated degree of tissue damage (Lee et al., 2000). Voltage is the forcenthat propels electrons along a potential gradient. Electrical injuries arengenerally classified as low-voltage or high-voltage injuries. Low voltage isnpresent in household currents (110 V in North American countries; 220 Vnin European and Asian countries). High voltage is defined as greater thann1,000 V, with high voltage power lines transmitting 100,000 V.nnIn a lightning strike, there is a potential difference exceeding 10 mil-nlion V between the atmosphere and the ground for only milliseconds,nnrendering it a unique instance of exposure to high voltage (Jain & Bandi, 1999). Current, quantified in amperes, denotes the quantity of energynnthat circulates through an individual affected by an electric shock. In di-nrect current (DC), the flow direction of electrons remains constant. DCnnis found in batteries, railway tracks, automotive electrical systems, andnlightning. In alternating current (AC), the flow direction and intensitynnof electrons fluctuate over time. Electrons flow back and forth in a cycli-ncal manner through a conductor. This type of current is most commonlynnutilized in residential and office settings, standardized to a frequency ofn60 Hertz.