As you read, the motion of a system is governed by the Momentum Principle (aka “Newton's Second Law of Motion). In these notes, you will learn another way to write the momentum principle, and how that relates to the concept of acceleration.

The Momentum Principle (or Newton's Second Law) is a quantitative description for how a system changes it momentum when the system experiences an external force. You might already know that another way to write this principle uses the concept of acceleration (how the velocity changes with time). Mathematically, we can write Newton's Second Law like this:

$$\vec{F}_{net} = m\:\vec{a} = \dfrac{\Delta\vec{p}}{\Delta t}$$

where the last bit shows how Newton's Second Law is related to the Momentum Principle. We can take this a bit further to determine the acceleration in terms of the velocity,

$$\vec{a} = \dfrac{\Delta\vec{p}}{m\:\Delta t}=\dfrac{m\Delta\vec{v}}{m\:\Delta t}=\dfrac{\Delta\vec{v}}{\Delta t}$$

where the last two equals signs hold only if the mass of the system is not changing.

Acceleration is vector quantity that quantifies how quickly the velocity of a system is changing.