A complete description of kinematics explores motion in two and three dimensions given most objects in the universe move along curved paths. This description heavily uses vectors to represent the func...A complete description of kinematics explores motion in two and three dimensions given most objects in the universe move along curved paths. This description heavily uses vectors to represent the functions investigated in the previous section in three-dimensional space. Projectile motion and uniform circular motion are the two most common types of motion along curved paths. In the real world, the reference frames of the kinematic functions must be defined in order to analyze motion properly.
A complete description of kinematics explores motion in two and three dimensions given most objects in the universe move along curved paths. This description heavily uses vectors to represent the func...A complete description of kinematics explores motion in two and three dimensions given most objects in the universe move along curved paths. This description heavily uses vectors to represent the functions investigated in the previous section in three-dimensional space. Projectile motion and uniform circular motion are the two most common types of motion along curved paths. In the real world, the reference frames of the kinematic functions must be defined in order to analyze motion properly.
