# Kinematics

branch of classical mechanics describing the motion of objects or groups of objects without considering its cause

Kinematics is the branch of classical mechanics which describes the motion of points, bodies (objects) and systems of bodies (groups of objects) without looking at the cause of this motion. The term was translated from French; A.M. Ampère used the term cinématique. He constructed the term form the Greek κίνημα, kinema (movement, motion), derived from κινεῖν, kinein (to move). The study of kinematics is often referred to as the geometry of motion.

To describe motion, kinematics studies the paths of points, lines and other geometric objects in space, and some of their properties such as velocity and acceleration. Astrophysics uses kinematics to describe the motion of celestial bodies and systems. Mechanical engineering, robotics and biomechanics use it to describe the motion of systems composed of joined parts such as an engine, a robotic arm or the skeleton of the human body.

The study of kinematics can be abstracted into purely mathematical functions. It is possible to represent rotation with elements of the unit circle in the complex plane. Other planar algebras are used to represent the shear mapping of classical motion in absolute time and space and to represent the Lorentz transformations of relativistic space and time. Mathematicians have developed a science of kinematic geometry, which uses time as a parameter.

Certain geometric transformations which are called rigid transformations have been developed to describe the movement of components of a mechanical system. These transformations simplify the derivation of its equations of motion, and is central to dynamic analysis.

Kinematic analysis is the process of measuring the kinematic quantities used to describe motion. In engineering, kinematic analysis may be used to find the range of movement for a given mechanism, and, working in reverse, kinematic synthesis designs a mechanism for a desired range of motion. In addition, kinematics applies algebraic geometry to the study of the mechanical advantage of a mechanical system, or mechanism.