Hello,
Disclaimer: I am not a smoker, my boyfriend is. I am just an overly enthusiastic chemical engineering major who's learning how to make (not terrible tasting) tobacco flavored ejuices and now rebuilding coils.
The main thing I want to know is a deeper understanding between the resistance, voltage, and power and how it effects the juice. Also, how the juice is exactly being vaporized.
So far, I am just applying some basic physics, but if I am wrong please let me know!
For rebuilding coils:
Essentially, I see that there is a wire of a certain resistance wound around a wicking material, such as cotton or silica. I will learn about the differences in material properties later once I understand the mechanism. Now, is this wire acting as a inductor? I doubt it is acting as a transistor or solenoid because we are not stepping up or down the voltage or wrapping it around a magnetic field inducing material. The inductor will resist the current flowing from the battery, which is AC current, and induce a voltage in a direction dictated by Lenz's law. In an ideal word, conductors would not dissapate any heat. However, is this excess heat what is responsible for vaporizing the ejuice? If so, is the purpose of the wick to pull in the ejuice to be vaporized by the inductor coil?
Then it comes down to battery voltage. The higher the voltage, the more power. So the more heat? My question also leads to as why rebuilt coils can be used around 1.8 or 1.1 ohms and stock coils are 2.2 or 2.5 ohms (in general that's the number I'm seeing). My boyfriend smokes dark tobacco juices and uses 2.5 ohms stock coils on his kanger protank 2. Why are people building coils with lower resistances and still work fine but dropping resistance in stock coils makes it vape worse?
Next would be why are wicks cut quite short around the ends? Would it make much difference if the wicks were left longer? Why are some cartomizers sold with short and with long wicks? Pros and cons?
I'm sorry if I'm completely off or I confused anyone with my post! Thanks!
Disclaimer: I am not a smoker, my boyfriend is. I am just an overly enthusiastic chemical engineering major who's learning how to make (not terrible tasting) tobacco flavored ejuices and now rebuilding coils.
The main thing I want to know is a deeper understanding between the resistance, voltage, and power and how it effects the juice. Also, how the juice is exactly being vaporized.
So far, I am just applying some basic physics, but if I am wrong please let me know!
For rebuilding coils:
Essentially, I see that there is a wire of a certain resistance wound around a wicking material, such as cotton or silica. I will learn about the differences in material properties later once I understand the mechanism. Now, is this wire acting as a inductor? I doubt it is acting as a transistor or solenoid because we are not stepping up or down the voltage or wrapping it around a magnetic field inducing material. The inductor will resist the current flowing from the battery, which is AC current, and induce a voltage in a direction dictated by Lenz's law. In an ideal word, conductors would not dissapate any heat. However, is this excess heat what is responsible for vaporizing the ejuice? If so, is the purpose of the wick to pull in the ejuice to be vaporized by the inductor coil?
Then it comes down to battery voltage. The higher the voltage, the more power. So the more heat? My question also leads to as why rebuilt coils can be used around 1.8 or 1.1 ohms and stock coils are 2.2 or 2.5 ohms (in general that's the number I'm seeing). My boyfriend smokes dark tobacco juices and uses 2.5 ohms stock coils on his kanger protank 2. Why are people building coils with lower resistances and still work fine but dropping resistance in stock coils makes it vape worse?
Next would be why are wicks cut quite short around the ends? Would it make much difference if the wicks were left longer? Why are some cartomizers sold with short and with long wicks? Pros and cons?
I'm sorry if I'm completely off or I confused anyone with my post! Thanks!
