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consider a scenario where a small pan and a large pan are placed on a stove set to the same temperature. The small pan will heat up quicker than the large pan. Thus, larger gauge wires, which have more material needing to be heated, will take longer to heat up to maximum temperature than smaller gauge wires will. The principle that governs the maximum temperature o a given gauge o wire is governed by the resistance o that specic gauge. That resistance is controlled by the thickness o the wire, the length o the wire used, and the resistive properties o the kanthal itsel. I a wire is thought o as a pipe that allows water to fow, it can be seen that the thicker a pipe is, the more water will fow through. Thus, the thicker that a wire is, the more electricity will fow through, allowing more power and heat to be dissipated in the wire. Now that there is a better o understanding o what kanthal is, and what governs its heat output, we can apply that knowledge to the building o coils in rebuildable atomizers. Below is a chart which details the resistance per inch o the dierent sizes o kanthal wire. To calculate these resistance values, I use the resistivity o kanthal A1, which is 1.45 Ω mm2/m*. 1 The resistance o the coil being designed governs the amount o power, and thus, the amount o vapor and throat hit produced by the atomizer being used at a given voltage. I the user wants warmer vapor, larger clouds and increased throat hit, they would wrap a coil with less resistance, or wrap two identical coils on a dual-coil atomizer. By installing two identical coils on a dual-coil atomizer, the user is halving the equivalent resistance o the atomizer and doubling the vapor output. I the user wants cooler vapor and is not concerned with the amount o vapor produced, they would wrap a coil with higher resistance. Per the chart below, the more wire that is used in making a coil, the higher the resistance will be. Resistance per Inch (Ω)Wire Gauge (AWG) 0.0720 0.1122 0.1824 0.2926 0.4628 0.7330 1.1532 *NOTE: I converted the resistivity from metric units to U.S. Standard units before calculating the resistance per inch. Single Coil Setup and Schematic Representation of Equivalent Resistance Dual Coil Setup and Schematic Representation of Equivalent Resistance 53
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