During rotation or tipping movement, how do points of the tooth move in relation to each other?

During rotation or tipping movement of a tooth, no two points move the same distance in the same direction. This is essential to understanding how the tooth interacts with orthodontic forces.

When a tooth is subjected to tipping or rotation, different points on the tooth experience different magnitudes of movement due to the pivot point around which the tooth tips. For instance, the apex of the root might remain more stationary, while the crown of the tooth tilts away from that point. Thus, as the tooth rotates around its center of resistance, some points on the tooth crown are displaced further than others and may even move in different directions relative to the pivot point.

This differential movement is crucial for achieving specific orthodontic goals, such as aligning the teeth in relation to each other or correcting angulations. Understanding that no two points move the same distance in the same direction helps orthodontists predict the outcomes of their force applications and effectively plan treatment strategies.

Other answer choices do not accurately reflect this principle. For instance, stating that all points move equally or at the same speed oversimplifies the complex biomechanics involved in tooth movement.