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LeBron Asks: Why does sweating cool you down? | Biology | Khan Academy

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Why does sweating cool you down? That is an excellent question LeBron, and to answer it, let's zoom in on a little droplet of sweat. And sweat is mostly water, so when we zoom in, and we've really zoomed in, even more than I've drawn over here. When we really zoom in, we'll start seeing mainly these water molecules. And the water molecules, just to be a little more accurate, I've drawn the oxygen in blue, and then the hydrogens that are bonded with that oxygen I've done in white. We all know that water is sometimes refered to as H2 -- that's for the two hydrogens -- H20. So each of these are a molecule of H20, or a molecule of water. What I've drawn down here, and this is an oversimplification of the molecules of your skin, but just for simplification, these are molecules of your skin. really, the parts of the skin cells. These aren't even the skin cells themselves, these are the molecules that make up the skin cells. And right over here, these are molecules of sweat, or it's really just molecules of water. So the question of why does sweat cool you down could really be restated as: Why does having water on the surface of your skin actually cool you down? And to answer that, or to think about that question, we have to think about what it means to have temperature, or what temperature even really means. Temperature, what we perceive as temperature, is really just the motion of the molecules of something. So higher temperature means that they're moving around more. So high temperature they're moving around more, and low temperature they're moving around less. And they can move around in different ways, they can have translational motion, which is they're actually moving around. They could be vibrating. They could be rotating in some way. And in general, on average, the more of this motional energy, often referred to as kinetic energy, that these molecules have on average, the higher the perceived temperature would be. Now, how does having this water here cool down the skin? And well, first of all, why is the skin warming up? Because the muscles are doing all of this work. They're releasing heat. That heat is being transferred to the skin. But then how does having this water here help? Well, the skin has a certain temperature, a certain kinetic energy, or motional energy. But when we say that it doesn't mean that all of these molecules have the exact same motion. The temperature is the average motion. Some of these are bumping around at a faster speed. Or vibrating at a faster speed, or rotating at a faster speed Some are doing it at a slower speed. But as these bump around, they're going to bump into these water molecules and get them moving around. They would probably be moving around a little bit to begin with, but then the warmer this is, the more energy here, they'll bump into these molecules. So let's say this guy bumps into that, then he'll bump over there , so that energy, this bumping energy, or this kinetic energy, well, some of it will be transferred, or you could even say some of that temperature, some of that heat will be transferred to these water molecules. But the important thing to remember is this is a really kind of crazy thing, they're all bumping into eachother and rotating in all sorts of crazy ways. They will have an average kinetic energy, which we perceive as temperature, but this one might be going really, really, really fast in that direction, while this one might be going really, really, really slow, this one might be going really really really fast in that direction this one might be going really slow in this direction So the thing to think about is, given that you have all of this variation in the energy of each of these articles, which of these are most likely to escape, to actually evaporate? And to think about evaporation, you just have to think about that most water molecules or the water molecules that are in that droplet they do have an attraction to eachother, we call those hydrogen bonds. They do have an attraction to eachother, that's why a droplet kind of sticks together. But if one of these molecules is moving fast enough and if it's moving in the right direction it has a higher probability of being able to escape, being able to actually escape that droplet. And the process of these molecules actually escaping, that's what we refer to as evaporation. If a molecule has enough energy it will escape this, escape the bonds of the other water molecules, and just evaporate into the air. But we still haven't fully answered our question. So let's say that this is one that has evaporated, it has fully escaped. Why would that actually cool down this entire system? Why would it cool down the droplet and essentially give it more capability to accept more energy from the skin? Well, we just said the ones that have the highest energy are the ones that are most likely to escape, the ones that have the highest kinetic energy. So if you have a bunch of stuff, some are fast, some are slow, some are vibrating a lot, vibrating less but the ones that have a high kinetic energy are the most likely to escape, what happens when they escape? Well then the average kinetic energy will go down. Or you could say the temperature would go down, which is really just the average amount of motion or kinetic energy that's in this droplet. If the really fast ones, the ones with a lot of energy, are leaving, then the ones are left over, on average, are going to have a lower kinetic energy, or a lower temperature. And so that is what is cooling you down at a molecular level.

Video Details

Duration: 5 minutes and 40 seconds
Language: English
Genre: None
Views: 11
Posted by: jake.goldwasser on Nov 19, 2015

LeBron asks Sal why sweating helps cool the body down.
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