Introduction into the biomechanical approach to analyze the human body as a musculo-skeletal system; development of a relationship with injuries, rehabilitation and prevention from a mechanical point of view.Introduction into measuring techniques (from sensor to data analysis) used in biomechanical approaches, as well as into rigid body mechanics for special applications.

Introduction into the biomechanical approach to analyze the human body as a musculo-skeletal system; development of a relationship with injuries, rehabilitation and prevention from a mechanical point of view.

Introduction into measuring techniques (from sensor to data analysis) used in biomechanical approaches, as well as into rigid body mechanics for special applications.

The human body as a mechanical system. The muscle as an engine. Load analysis. Optimization of movements. Plasticity of muscle tissue.Mechanical properties of bone, cartilage, tendons, and ligaments and its biological response (plasticity) on mechanical load.

The human body as a mechanical system. The muscle as an engine. Load analysis. Optimization of movements. Plasticity of muscle tissue.

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Mechanophysiology, Mechanobiology and modelling in biomechanics

Mechanobiology, Mechanophysiology, Prostheses, Outcome-Studies

The human body as a mechanical system. The muscle as an engine. Load analysis. Optimization of movements. Plasticity of muscle tissue.

Mechanical properties of bone, cartilage, tendons, and ligaments and its biological response (plasticity) on mechanical load.

Information about clinical and orthopedic research both from within the Laboratory for Biomechanics as well as from external institutions. Development of competence in a specific field by summarizing the relevant literature including a presentation.

Information about clinical and orthopedic research both from within the Laboratory for Biomechanics as well as from external institutions. Development of competence in a specific field by summarizing the relevant literature including a presentation.

Die Vorlesung entspricht der Vorlesung 151-0645-01L und/oder 151-0645-02L Bitte informieren Sie sich dort.

Wird in diesem Semester nicht gelesen.

Introduction to the theory of molecular motors and their engineering principles - overview and comparison of biological motors and synthetic engines/molecular machines

Aufgaben und Bedeutung molekularer Motoren aufzeigen. Die Konstruktions- und Funktionsprinzipien - aus technischer Sicht - analysieren und interpretieren.