crawdad said:
if i cannot see vapor then i guess when i do see something i have combusted. if that is the case then i guess all vaporizers are actually partial vaporizers. perhaps this point has been made here before.
no, you've got it wrong.
vaporizers are vaporizers, but depending on how saturated the total air mixture is, you should be able to see at least some vapor condensing into little vapor-droplets.
air's capacity to hold vapor is limited.
i'll explain it in terms of dew point.
dew point is the temperature for which a given amount of air would need be at to be completely saturated with water vapor, bring the temperature below the dew point, and you will start to condense out water vapor.
air's capacity to hold vapor is proportional to the temperature of the liquid.
http://en.wikipedia.org/wiki/Vapor_pressure .
air's maximum storage capacity to store water vapor increases at an increasing rate with regards to temperature.
here is a graph that illustrates that.
http://upload.wikimedia.org/wikipedia/commons/2/25/Water_vapor_pressure_graph.jpg
anywhere below the line is unsaturated air, anything above the line is over-saturated air, and will cause condensation in earth atmospheric conditions (more likely than not).
oftentimes people talk about "milky" hits, you're seeing air that is over-saturated with a mixture of water, and resin and other types of vapor, and the visible "vapor" is not actually vapor, but liquid droplets formed when the vapor condenses.
oftentimes when you take a hit out of a whip based vape, even if you raise the temperature very slowly, you'll still see condensed droplets upon exhalation even though there was none in the whip. long vapor trail with materials that are good at conducting heat would cause the droplets to be seen coming out of the whip. this is why many favor shorter air paths.
did you ever wonder why it is that you can see your breath on a cold day?
this is because your breath is full of warm air, nearly saturated with water vapor (breathe on to cold glass, and watch condensation occur onto the glass), but when your breath mixes with cold air, the air becomes over saturated with vapor and condensation occurs. in order to illustrate it on the graph, lets imagine two dots, one representing the vapor content of the ambient air, and one representing the vapor content of the exhaled air.
the first dot will be at 40 torr at 40 degrees celsius. that will be the vapor content and temperature of the ambient air, and the second dot will be at approximately 250 torr at 80 degrees celsius. so when you connect the dots (I.E. mix the air), you get part of the line connecting them above the curve representing the saturation vapor pressure, and as a result you get visible water droplets condensing.
it's amazing what you learn at a community college.
if you wanted air that was full of vapor and air only (i know there's more in the mixture), than you wold want air that is saturated with vapor (I.E. on the line)
i'm not sure of what is most effective, vapor, or vapor condensate, but i'd guess vapor.
