rotatiedynamica

Rotatiedynamica, commonly translated as rotational dynamics, is the study of how objects rotate and how their rotational motion responds to torques. It complements translational dynamics and is essential for understanding gears, wheels, satellites, and many mechanical and physical systems. The main quantities are angular position θ, angular velocity ω, and angular acceleration α, defined as derivatives of θ with respect to time. Orientation is described by an angular velocity vector that can change in magnitude and direction.

Dynamics are governed by the relation τ = dL/dt, where τ is the net external torque and L is

Rotational kinetic energy is KE_rot = 1/2 ω · L = 1/2 ω^T I ω. In the absence of external torques,

Applications range from machine design and vehicle dynamics to astronomy and sports, and analysis typically uses