Category
Sports (30)Engineering (8)Orthopedics (7)Medicine (7)Biology (7)Prosthetics (5)Science (5)Anatomy (5)Physical Therapy (5)Fitness (5)Physiology (3)Ergonomics (3)Gerontology (3)Podiatry (3)Cardiology (3)Assistive Technology (3)Health (3)Sports Technology (3)Zoology (3)Kinesiology (2)Materials Science (2)Technology (2)Automotive Engineering (2)Surgery (2)Injury Prevention (2)Sports Safety (2)Neuroscience (2)Automotive (2)Robotics (1)Automotive Safety (1)Footwear (1)Healthcare (1)Industrial Engineering (1)Ophthalmology (1)Audiology (1)Dentistry (1)Sports Performance (1)Physics (1)Product Design (1)Civil Engineering (1)Biomedical Engineering (1)Performing Arts (1)Occupational Health (1)Workplace (1)Fashion (1)Exercise Science (1)Medical (1)Sportswear (1)Chiropractic (1)Environment (1)Elderly Care (1)Entomology (1)Bioengineering (1)Rheumatology (1)Cell Biology (1)Occupational Safety (1)Athletic Footwear (1)Automotive Industry (1)
Usage Examples
Filter by Meaning Biomechanics can be applied to improve athletic performance in humans.
Biomechanics is the science of how living organisms move.
Biomechanics is used to understand the mechanics of joints and bones in the human body.
Biomechanics is used to study the gait of people with disabilities.
Understanding the biomechanics of the spine is important for preventing and treating back injuries.
Biomechanics plays a role in the development of prosthetics for amputees.
Researchers use biomechanics to understand how the structure of a bird's wing affects its flight.
Biomechanics is used to design protective gear for athletes that reduces the risk of injury.
The principles of biomechanics are applied to improve the efficiency of industrial machines.
Biomechanics helps us understand how our muscles and bones work together to move our bodies.
Biomechanics is used to design and test prosthetic devices for people with disabilities.
The biomechanics of the human body can affect sports performance.
The study of biomechanics has led to the development of new technologies, such as motion capture systems, which can be used to analyze sports movements.
Biomechanics can be used to analyze and improve running form.
The study of biomechanics can lead to new techniques for training athletes.
Biomechanics plays a crucial role in the design of more advanced and efficient artificial limbs for amputees.
Biomechanics research has contributed to the development of more advanced and effective surgical instruments and techniques.
The field of biomechanics is critical for developing devices that can help people with mobility impairments.
Biomechanics research can help improve the design and function of braces for people with scoliosis.
Biomechanics is used to study the mechanics of the human spine and design devices such as spinal fusion implants.
Biomechanics is used to design medical devices such as artificial heart valves and pacemakers.
Biomechanics is used to design custom-fitted helmets and other protective gear for athletes.
Biomechanics can be used to study the effects of exercise on muscle and joint function.
Biomechanics is used to design safer sports equipment to prevent injury.
Biomechanics can also help us understand the impact of environmental factors on human movement, such as the effect of different surfaces on running mechanics.
Biomechanics is an important tool in physical therapy to help people recover from injuries.
Biomechanics research can shed light on the mechanics of disease processes, such as the way that osteoarthritis affects joint movement.
Biomechanics research is critical for designing safer sports equipment.
Biomechanics research can help us better understand the mechanisms of traumatic brain injury.
The study of biomechanics can help design better prosthetics.
Scientists use biomechanics to understand how animals move.
Biomechanics plays a crucial role in the field of ergonomics.
Biomechanics is an important field of study in sports science.
Biomechanics helps to design equipment that minimizes the risk of injury during physical activities.
The study of biomechanics is crucial to understanding the mechanics of animal locomotion.
Biomechanics can help athletes optimize their movements to improve performance.
Biomechanics research can help develop better materials for sports equipment, such as running shoes and tennis rackets.
Biomechanics is used to develop prosthetics that mimic the movements of natural limbs.
Biomechanics is essential to designing safe and efficient vehicles, such as cars and airplanes.
Biomechanics is an important tool for physical therapists to understand movement disorders.
Biomechanics can be used to improve the design of ergonomic workspaces.
Biomechanics helps us understand how different animals move in their natural habitats.
Biomechanics can be used to analyze the gait of individuals with walking disabilities.
Biomechanics can help improve the design of tools and equipment used by workers to prevent injuries.
Biomechanics can be used to study the movements of insects and other small organisms.
Biomechanics is used in sports science to analyze movement and reduce the risk of injury.
Biomechanics is an interdisciplinary field that combines physics, biology, and engineering.
Biomechanics research can lead to the development of new surgical techniques.
The principles of biomechanics are applied in physical therapy to help patients recover from injury.
Biomechanics is used to design sports equipment that can improve athletes' performance.
Post a Comment