15.2:

Rotational Motion about a Fixed Axis

JoVE Core
Mechanical Engineering
É necessária uma assinatura da JoVE para visualizar este conteúdo.  Faça login ou comece sua avaliação gratuita.
JoVE Core Mechanical Engineering
Rotational Motion about a Fixed Axis

144 Views

01:26 min

March 07, 2024

A rigid body's rotation around a fixed axis makes every point within it trace a circular path around a specific line or point. The term given to this type of spinning is defined by the angular position, symbolized by the angle θ. This angle is gauged from a static reference line to the revolving object. From this angular position, any variation is referred to as angular displacement, denoted by dθ. The extent of this displacement can be calculated in degrees, radians, or revolutions, where one revolution equals 2π radians. This measurement helps in understanding the object's position in its rotational motion. The direction of angular displacement is determined by the right-hand rule, which means it aligns with the rotation axis.

Another aspect of rotational motion is angular velocity, symbolized by ω. It signifies the speed at which angular displacement changes and is quantified in radians per second. Angular velocity defines the rate at which the angular displacement changes over time and is measured in radians per second. Additionally, the concept of angular acceleration comes into play, symbolized by α. Angular acceleration indicates how quickly or slowly the angular velocity changes over time. It is measured in the units of radians per second squared.

Like angular displacement, both angular velocity and angular acceleration are vector quantities, meaning they have both magnitude and direction. These vectors are oriented along the axis of rotation, indicating the direction of the rotation.

Understanding these concepts is fundamental to grasp the mechanics of rotational motion. They provide a comprehensive framework to comprehend how objects rotate and the forces that influence their movement.