The simplest model of motion is for an object that moves in a straight line at constant speed. You can use this simple model to build your understanding about the basic ideas of motion, and the different ways in which you will represent that motion.

Displacement: A vector quantity that describes a change in position.

The displacement vector ($\Delta \vec{r}$) describes the change of an object's position in space. The displacement vector describes a change in location. So, you can think of it as displacement = change in position = final location - initial location. This is represented in the diagram to the right (NEED DISPLACEMENT FIGURE). Mathematically, we represent the displacement like this:

$$\Delta \vec{r} = \vec{r}_{final}-\vec{r}_{initial}-\vec{r}_f - \vec{r}_i$$

where the subscripts “f” and “i” describe the final and initial locations respectively.

In one dimension, you might consider motion along a specific coordinate axis or, if you like, the number line. In that case, you can still talk about displacement “in the x-direction.” Mathematically, we represent that kind of displacement like this:

$$\Delta x = x_f - x_i$$

Note that this displacement maybe positive, negative, or zero, as this is the component of the displacement vector in the x-direction.