Particle motion is exactly what it seems to be, the motion of a particle on a line. When analyzing particle motion, calculus is used to find the position, velocity, and acceleration of the particle. These values can be discovered by applying the rates of change, or derivatives. For instance, velocity is the derivative of position, and acceleration is the derivative of velocity. Thus, the antiderivatives can be used to "work backwards". With antiderivatives, velocity is the antiderivative of acceleration, and position is the antiderivative of velocity.

Particle motion is exactly what it seems to be, the motion of a particle on a line. When analyzing particle motion, calculus is used to find the position, velocity, and acceleration of the particle. These values can be discovered by applying the rates of change, or derivatives. For instance, velocity is the derivative of position, and acceleration is the derivative of velocity. Thus, the antiderivatives can be used to "work backwards". With antiderivatives, velocity is the antiderivative of acceleration, and position is the antiderivative of velocity.