JCWohlschlag: If I offended you by taking your quote out of context, I apologize.
No apology necessary, my friend. It takes more than forum posting to offend me… I’d simply prefer to have my points debated on their merit if not simply for educational purposes.
The point I was making by doing so was that many (including you), were asserting startling conclusions without supporting them. Now that your quote is copied here in its entirety, allow me to question yours in the same way you question mine (without supporting research).
Good point. I will admit that some of my notions are not supported by correlating research, however I do not believe that my points need correlating research. I’m not arguing against the results of your presented evidence. I’m arguing against the validity of the experiment as a whole in relevance to practical use of the myth.
"For one, if you're cold, (how cold? does it matter? I would certainly think the temperature we're talking about makes a big difference. Why not state it so we can check your research?)
You’re right. The environmental temperature may make a difference. However, I am not in a position to give this data, but we both agree that it might be an important factor to look at.
a large majority of you're warm blood will be constricted to your core and head. (Really? What exactly is a 'large majority'? Certainly well over 50%, so you're saying that our bodies have the ability to re-distribute, what? 75% of our blood into our core and head? Does this cause extreme swelling of the head? Where does this warm blood then go? It must just re-circulate between the core and head, otherwise it will reach those cold extremities and cool down.)"
I do apologize for not explaining vasoconstriction correctly. As I understand, the body constricts the blood vessels on the surface of the skin and of the extremities simply to make the blood recirculate through them drastically slower than the blood in the core and head. The way I previously stated it was far too simplistic.
My point, however, still stands. Your evidence mentioned nothing about the rate at which different parts of the body lose heat in a vasodilated person versus a vasoconstricted one. Does it not make sense that a person who has symptoms of hypothermia such as vasoconstriction would lose a higher percentage of heat from their head and core than a person who’s in a normal physiological state? From your above comment, it appears that you
do agree with this point.
"...your hair increases your head’s surface area dramatically. (Are you seriously asserting that hair adds surface area to the head? I suppose it does, in the same way that fingernails add surface area to our hands or teeth add surface area to our mouth, come on...)
Yes, I am asserting that your hair adds surface area to your head. Your analogies, on the other hand, kind of suck. (No offense.) Think of how a radiator’s fins add surface area when compared to just a stack of tubes. Even look at a heatsink in a computer for the effect… the fins or studs (large hairs, effectively) are simply there to add surface area.
"...the wind will be blowing your hair around so much that it may actually start acting as a heatsink. (I'm not taking this out of context, anyone is free to read your quote above. Again, are you seriously saying hair acts as a heat sink? I suppose that's because of the dense concentration of blood flow that courses through our hair.)"
I did say that it
may act as a heatsink. After all, heat does conduct through different materials at different rates. When you touch an object and it feels cold, it is because that object is absorbing heat from your body through conduction. To put that in application to hair, ask yourself if your hair has ever felt cold when you touched it. If the answer is yes, then it proves that hair can conduct heat away from what it is touching. Put a convective air current through hair, and it may very well lose whatever heat it has absorbed to the air through convection.
Of course, the rates at which these occur are unknown to me, and your evidence only really eludes to the hair not doing a very good job of insulation. If it doesn’t do a good job of insulation, then maybe it does pretty well at facilitating the loss of heat. Maybe, as we are supposedly an evolutionary “tropical” animal, that’s what it was designed for. I don’t know. I’d love to see some research somewhere that answers these curiosities, though.
"These images normally show people in winter clothes as a dark colored body with a big, bright spot depicting their head. (Let's see...hmmm, these people are dressed up in their toasty winter parka's and insulated snow pants, now where in the world is the heat signature going to show up??? What? The head you say? I'm still not sure what your point is here, I hope you didn't seriously think that I'm trying to argue that only if we are naked does this 10% loss apply. That isn't what the original article or my later follow up points are saying at all. It seems like you focused on one small experiment and are trying to make it sound like the basis of my whole argument.)"
Actually, that is
exactly what I am saying. Your research appears to simply say that people lose heat evenly through all
exposed skin. And I quote:
So he took several test subjects, all volunteers, of course, (you have to wonder what problem they caused at the university), wired them to monitor their core temperatures, and discovered that we do indeed lose heat through any exposed part of the body and the amount of heat we lose depends on the amount of exposed surface area. The rate of heat loss is relatively the same for any exposed part of the body, not simply the head.Therefore, it
does appear to me that you are saying that the 10% heat loss from the head only applies to naked people, because that is
exactly what your article (as quoted) is saying as well. So, I’m simply asking how on Earth this myth can only apply to
exposed skin. As far as I know, none of us who read ETS, or have half a brain whatsoever, will be venturing into the cold naked. I sincerely doubt that many would be dumb enough to do so in just a T-shirt. So to me, this myth would apply to people who have at least made an effort to dress properly for their cold environment, except for a hat… especially for us here on ETS. Since in these circumstances, pretty much only our heads would be what might be exposed, then it seems logical that even your research states that most of our heat would be lost through the head.
So, I apologize if I misconstrued what your argument is. Your article says that people lose heat evenly through all
exposed skin. I was simply saying that those results are irrelevant to a person in the cold who is reasonably dressed except for a lack of a hat. I invite you to clarify exactly what your argument is if I have misinterpreted it, as it appeared that you were trying to argue exactly what your article said.
"The myth simply means, in all its glory, “Don’t forget your hat. (No, that's not the myth at all, the myth is that we lose 70% of our bodies heat through the scalp.)"
True, that is what the myth specifically states, and if you think that somehow you only lose 7–10% of your body’s heat through your head even when properly winter dressed, except for a hat, I have a bad feeling you’re going to get a nasty surprise. So, when naked, the myth is not true. When properly dressed except for a hat, the myth may very well be true, hence “Don’t forget your hat.”
Sorry for the tone of this reply, It came out on paper (so to speak), harsher than I intended.
Don’t worry. I’m quite mature enough to not take words on a forum personally. The point that I’m trying to make is that the Wilderness Medicine research, while probably being scientifically correct, has absolutely no relevance to the myth since none of us will be going into the cold with completely exposed bodies thinking, “I have a hat. I’m saved!”
Besides, dead horses deserve to be punished for dying on us in the first place. Damn unreliable horse.