Understanding and calculating rotational speed.
Understanding the differences between speed and instantaneous speed.
How to define a rotation and what information is necessary to perform a rotation.
How to find the speed of waves.
Understanding rotational inertia.
How to calculate average speed.
Understanding the differences between rotations and revolutions.
How to define rotational symmetry and identify the degree of rotational symmetry of common regular polygons.
Understanding the concept of torque.
The laws of physics are not affected by varying amounts of inertia.
How to define a composition of transformations; how to perform a composition of translations.
How to find the speed of transit when the time of two different legs is known.
How to use and convert scientific units.
How we measure airspeed, wind, groundspeed, and other variables in navigation.
How to determine the types of transformations, the definition of isometry, and how to say and write a transformation's new image.