![]() We call this cycle the Hadley Cell it is the fundamental description of average atmospheric motion in the tropics. This easterly flow is known as the trade winds, famous for helping Europeans sail to the Americas during the times of colonialism.Īs you can see, once the parcel reaches the equator (which it will just barely do because of the Coriolis deflection), the process begins anew. Therefore, when our air parcel is deflected continuously to its right, the direction of travel becomes an easterly wind (wind that flows from the east to the west). Instead of moving initially northward, however, our parcel is moving southward. Ignoring frictional forces, we have yet another case of geostrophic flow. This time, let us say for the sake of discussion that the air parcel chooses to move south, back to the equator. Not unlike what happens at the tropopause when air rises, air that sinks towards the surface, too, has a choice to move north or south. Most of the time, we are victims of what is called the mid-latitude jet stream, a structure much more difficult to understand that I may take about in future blogs.Īs you might imagine, things can get pretty heavy in the subtropical jet stream when more and more air parcels enter it, and so the air eventually sinks due to gravitational forces. In central Pennsylvania, we usually do not experience much from this stream of air, and if we do, it occurs during the summer months, when the subtropical jet stream is slightly north of 30°N. Intentionally, we call this pile up of moving air the subtropical jet stream. Many air parcels “pile up” at this 30°N location, creating a stream of air that encircles the earth below it. In fact, calculations can show that it gets stuck around 30°N. In doing so, the parcel never makes it to the north pole, its intended destination. Therefore, while initially moving northward, our parcel is continuously reflected ninety degrees to its right by the Coriolis force until it is moving perfectly eastward. We know from last blog what happens to parcels traveling north from the equator. Suffice it to say that, in this case, our parcel chooses north as its intended path of travel. The same concept occurs in the tropopause. ![]() For instance, if you cap your toothpaste bottle, then, when you go to squeeze your toothpaste upwards, it will actually be forced by the cap to move horizontally. ![]() A nice way to think about this transaction is by considering a bottle of toothpaste. When our parcel reaches the top of the troposphere, called the tropopause, it stops rising and is forced instead to move either north or south. An example analogous to this movement would be when you release an inflatable ball from the bottom of a swimming pool. At some point, our parcel’s density becomes less than the environment around it, and so it rises to the top of the troposphere. Through absorption of this extra energy, the parcel increases its temperature and, therefore, decreases its density. Our parcel’s journey begins at the equator, where energy is “laying around” in large quantities. To describe general circulation, we are going to follow an air parcel as it flows from the equator northward. We will see in upcoming blogs that our atmosphere, even with its greatest attempts to reach equality, can never quite balance this energy budget occurring on Earth’s surface. This process of transferring energy from the equator poleward is known by atmospheric scientists as the general circulation of the troposphere. Faced with this stark inequality, our atmosphere plays the part of Robin Hood-taking from the energy surplus and giving to the energy deficit. Because of Earth’s axial tilt, curvature, and rotation, we tend to have a surplus of energy near the equator and a deficit near the poles.
0 Comments
Leave a Reply. |