Relating to the forces that act on the joint, and their effect on the joint.
that field of study involving classical mechanical principles and their relationships as used by or applied to living organisms.
Applying mechanical principles to the study of how the human body moves.
analysis of the action of forces (physical and physiological) on an organisms movement
The study of physical forces involved in orthopaedics but usually gait
Pertaining to the relationship between the forces applied during movement of living tissue, teeth and their related structures.
the mechanics of biological and especially muscular activity (as in locomotion or exercise) and properties of biomaterials and biologic tissues.
Study of how living systems, such as animal bodies, perform work.
The field of study concerned with the physics of movement.
A discipline that studies various aspects of physical movements of the body and body members.
The study of the mechanics of a living body, especially of the forces exerted by muscles and gravity on the skeletal structure.
Science that uses engineering concepts to describe motions of the body.
The study of the body's physical response to static or dynamic motion, and the effects of internal and external forces that affect that response.
An experimental acting system, characterized by expressive physicalization and bold gesticulation, developed by Russian play director Vsevolod Meyerhold (1874-1940) in the 1920s.
uses laws of physics and engineering concepts to describe motion undergone by the various body segments and the forces acting on these body parts during normal daily activities.
Branch of study that applies the laws of mechanics to living organisms and biological tissues.
The application of mechanical forces to living organisms and the effect/interaction of the force on the body or system.
The scientific study of body positions, or form, in sports. In bodybuilding, biomechanics studies body form when exercising with weights. Good biomechanics in a bodybuilding exercise means that the lifter will be safely placing the maximum beneficial stress on the working muscles.
the study of mechanical laws relating to the movement or structure of living organisms.
A branch of study concerned with force, living structures and the effect of force on living structures. At StopStretching our interest is specifically with exercise mechanics.
The body's mechanics, such as how muscles, bones, tendons and ligaments work to produce movement.
The study of the forces acting upon the mechanical and biological components of an organism as they relate to some life function. For example, the sport researcher might study how the bones, muscles, tendons, and ligaments interact with the forces encountered during running. By extension they would apply this knowledge to cushioning and support systems in shoes to optimize efficiency and reduce injury.
The study of the effects of internal and external forces on the human body in movement and rest.
the application of mechanical laws to living structures
The scientific study of body positions, or form, in sport. In bodybuilding, biomechanics studies body form when exercising with weights. When you have good biomechanics in a bodybuilding exercise, you will be safely placing maximum beneficial stress on your working muscles.
The field of study which makes use of the laws of physics and engineering concepts to describe motion of body segments, and the forces which act upon them during activity.
The study of the mechanical operations of the body; also defines ergonomics-related body movements.
The science that examines the internal and external forces acting on a human body, more specifically their effect on stress and strain on body tissues and their production of motion.
Theatre system of performance and training developed by Meyerhold. The technique emphasized the movement on stage, the study of preparation for a certain action: emotional and physical state of the moment of action itself: and the resulting anti-climax of reaction (see Cycle).
A sub-discipline of kinesiology, biomechanics uses applications and mathematical methods of mechanics to figure out how and why the human body ("bio") moves the way it does.
Study of the function of the body in relation to movement; especially important for repetitive movement sports like running; poor biomechanics can lead to injury.
Study which uses the laws of physics and engineering concepts to describe the motions of body parts and the forces acting upon them during normal daily activities.
The application of mechanical laws and principles to the interpretation and analysis of the subluxation and its correction.
The study of the mechanics of muscular activity.
A science which attempts to explain the phenomenon of life by means of mechanics.
The study of motion and the effects of forces relative to the body.
The relationship between the force you apply to living tissue such as teeth and gums, and how the tissue moves and changes. For example orthodontic movement of teeth involves biomechanical forces created when an archwire pushes against teeth.
Biomechanics is the research and analysis of the mechanics of living organisms. The research and analysis can be carried forth on multiple levels, from the molecular, wherein biomaterials such as collagen and elastin are considered, all the way up to the tissue and organ level. Some simple applications of Newtonian mechanics can supply correct approximations on each level, but precise details demand the use of continuum mechanics.