A flywheel rotates

yes, sometimes.

Man. That is SO deep.

To answer the question about a flywheel rotating, we can start by understanding what a flywheel is and how it functions.

A flywheel is a mechanical device used to store rotational energy. It consists of a heavy wheel or disc that is mounted on an axle. When a force is applied to the flywheel, such as through a motor or manual effort, it begins to rotate.

The rotation of a flywheel can be explained using the principles of physics, particularly Newton's laws of motion. According to Newton's laws, an object will continue to stay in motion unless acted upon by an external force. In the case of a flywheel, the initial force applied sets it in motion, and it continues to rotate due to its inertia.

There are several factors that determine the rate at which a flywheel rotates. These include the applied force, the mass of the flywheel, and any resistance or friction present in the system. A larger force or a lighter flywheel will result in faster rotation, while increased resistance will slow it down.

To visualize the rotation of a flywheel, imagine a person pushing a large bicycle wheel. As they apply force to turn the wheel, it will continue to rotate even after they stop pushing. This is because the rotational energy stored in the flywheel allows it to maintain its motion.

In summary, a flywheel rotates when a force is applied to it, causing it to spin due to its inertia. Understanding the principles of physics and the factors that affect its rotation can help explain how a flywheel operates.