At Point C

To the left of Point C

To the right of Point C

Anywhere along the rod

It affects the mass of the rod

It alters the friction at the pivot

It determines the initial angular momentum

It changes the length of the rod

No, it contradicts the reasoning

Yes, but only for small values of X

Yes, it shows a larger X results in a larger angular speed

No, it only applies to static systems

It implies mass is inversely proportional to angular speed

It suggests mass is directly proportional to angular speed

It assumes the rod is frictionless

It neglects the length of the rod

It affects the rotational inertia of the rod

It determines the initial velocity of the rod

It contributes to the initial angular momentum

It changes the pivot point

Mass of the disk times X divided by rotational inertia

Initial velocity times X divided by mass of the disk

Mass of the disk times initial velocity times X divided by rotational inertia plus mass times X squared

Rotational inertia times X divided by mass of the disk

Angular momentum

Potential energy

Linear momentum

Kinetic energy