In this video, we're going to begin our lesson on concentration gradients and diffusion. A concentration gradient is really just defined as a difference in the concentration of a substance between two different areas. If we're comparing two different areas and one area has a higher or lower concentration than the other, then a concentration gradient exists because there's a difference in the concentration between those two areas. However, if we're comparing, it really is just a difference in the concentration of a substance between two areas. A molecule will be moving with or down its concentration gradient when that molecule is going from an area of high concentration down to an area of low concentration. On the other hand, a molecule will be moving against or up its concentration gradient when that molecule is going from an area of low concentration to an area of high concentration.
Let's take a look at this image down below to clear up that idea. Notice that this image is all about concentration gradients, and it's broken up into two halves. We have the left-hand side over here, and we have the right-hand side over here. Let's focus on the left-hand side first and notice that we have a high concentration of these pink molecules over here on the left-hand side, whereas over here on the right-hand side, we have a quite low concentration of these pink molecules. If one of these pink molecules is going to move from an area of high concentration towards an area of low concentration, and the molecule movement is represented by the biker here, then this means that the molecule will be moving down or with its concentration gradient, moving from the area of high concentration down to the area of low concentration. Just like it doesn't take a lot of energy for a biker to cruise down a hill, it also does not take any energy for a molecule to move down or with its concentration gradient. Here we can indicate that absolutely no energy is required for molecules to move down or with their concentration gradient from areas of high concentration towards areas of low concentration.
Now on the right-hand side, notice that we have an area of low concentration of pink molecules on the left-hand side and an area of much higher concentration of the pink molecule on the right-hand side. If a molecule is trying to move from an area of low concentration towards an area of high concentration, and the movement of the molecules is represented by this biker that is going uphill, this means that the molecule would be moving up or against its concentration gradient. Just like it takes energy for a biker to bike up a hill, it takes energy for a molecule to move up or against its concentration gradient from an area of low concentration to an area of high concentration. We're saying that energy is required.
This conclusion introduces our exploration of the concentration gradient and also molecules moving with or down the concentration gradient and or against or up the concentration gradient. We'll be able to get some practice applying these concepts as we move forward in our course. In our next lesson video, we'll talk more about diffusion. So, I'll see you guys in our next video.