Masterclass Certificate in Biomechanics Biomechanical Principles
-- ViewingNowThe Masterclass Certificate in Biomechanical Principles is a comprehensive course that equips learners with essential skills in biomechanics. This course is critical for professionals in fields such as sports science, physical therapy, ergonomics, and engineering.
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⢠Biomechanical Principles: Introduction to the fundamental concepts and principles of biomechanics, including the structure and function of biological systems, the laws of motion, and the principles of mechanical engineering as applied to human movement.
⢠Kinematics and Kinetics: Analysis of human movement, including the study of motion, force, and momentum. Topics covered include linear and angular motion, joint ranges of motion, and the effects of external forces on the body.
⢠Muscle Mechanics: Examination of the structure and function of skeletal muscle, including the biomechanics of muscle contraction, force transmission, and muscle architecture. Topics covered include muscle physiology, muscle fiber types, and muscle plasticity.
⢠Biomechanics of Human Locomotion: Analysis of human gait and running, including the biomechanics of joint loading, muscle activation, and energy expenditure. Topics covered include the kinematics and kinetics of gait, running biomechanics, and the effects of footwear and orthotics on locomotion.
⢠Sports Biomechanics: Application of biomechanics to sports performance, including the analysis of technique, equipment, and training methods. Topics covered include the biomechanics of throwing, jumping, and striking, as well as the optimization of sports equipment and training programs.
⢠Clinical Biomechanics: Application of biomechanics to clinical settings, including the assessment and treatment of musculoskeletal injuries and disorders. Topics covered include the biomechanics of spinal motion, joint arthroplasty, and orthopedic implants.
⢠Ergonomics and Human Factors: Analysis of the interaction between humans and their environment, including the design of workstations, tools, and equipment. Topics covered include anthropometry, work analysis, and human-computer interaction.
⢠Computational Biomechanics: Use of computer simulations and modeling techniques to analyze human movement and musculoskeletal mechanics. Topics covered include inverse dynamics, musculoskeletal modeling, and finite element analysis.
⢠Experimental Biomechanics: Design and implementation of bi
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