There are numerous factors that influence how fast our bodies gain or lose heat, but ultimately, heat is transferred because of a temperature differential, or a difference in the amount of energy between two objects or systems. The laws of thermodynamics come into play here as systems try to reach a thermal equilibrium, where the energy is evenly distributed and there is no net heat transfer between them. But when one object has a greater temperature (average heat content) than another, the heat is transferred from the warmer object to the colder one.
In this case, it doesn’t matter what kind of heat we are talking about. It might be your body heat or the body heat of a small mammal. But heat is heat, and it is gained or lost through three primary mechanisms - conduction, convection, and radiation. Having a greater understanding of how heat is lost through each of these methods can make us all warmer and safer out there. For the sake of space, the focus here is on how heat is lost, but keep in mind that we can gain heat too, through exercise or by eating hot food, for example.
Radiation is probably the most misunderstood form of heat loss, and often the most difficult to prevent, because objects are always radiating heat to their surroundings. Radiation is the transfer of heat by electromagnetic waves, and it is the only form of heat transfer that can occur in a vacuum, meaning it doesn’t require matter. This is how we get heat from the sun, as it travels in waves through the vacuum of space, reaching our planet approximately 8 minutes and 20 seconds after it leaves our life giving star.
Conduction, on the other hand, is more concrete, and it occurs when two solids touch directly, and vibrating molecules transfer heat directly over the differential. This is what happens when you sit on the cold chairlift seat, and heat is transferred from your warm derriere to the cold metal beneath you. Be thankful for those padded cushions, which insulate and slow down this loss of heat. But if you sit long enough, the nonexistent cold will win.
Convection, on the other hand, occurs in fluids, which includes liquids and gases. This is the type of heat transfer that occurs when the wind blows or when you enter a body of water. Imagine your body constantly radiating heat to the surrounding air (or water), and as the fluid circulates, the heat is whisked away and replaced by new, colder fluid, and the cycle repeats. This is part of the reason why falling into cold water can be so dangerous. This danger is magnified by the heat loss or gain that occurs during phase changes. So if you are wet, the evaporating water saps even more heat from your body.
There’s more to this lesson, of course, and the more you understand about how heat is gained and lost by the human body, the more comfortable you will be in the outdoors. You can learn more about the science of keeping warm at Walking Mountains Science Center’s upcoming snowshoe series in partnership with Icebreaker. Check out the website for more details at www.walkingmountains.org/snowshoe.
Jaymee Squires is the Director of Graduate Programs at Walking Mountains Science Center. Jaymee doesn’t like to be cold, so if you see her out, you can be sure she will be layered up and prepared for anything!