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Usage Examples
Filter by Meaning Biomechanics is used to improve the design of ergonomic office equipment.
Biomechanics studies the effects of different shoes on running mechanics.
Biomechanics is used to understand the effects of physical therapy on joint function.
Biomechanics studies the effects of aging on joint function and mobility.
Biomechanics is used to understand the mechanics of bone fractures and how they heal.
Biomechanics plays a crucial role in designing artificial limbs for amputees.
Biomechanics is used to understand the effects of different types of shoes on gait and foot function.
Biomechanics can be used to analyze the mechanics of animal locomotion.
Biomechanics is used to design ergonomic workspaces and equipment to reduce physical strain.
Biomechanics is used to analyze the mechanics of disease processes, such as osteoarthritis.
Biomechanics is used to study the mechanical properties of bones and how they respond to stress.
The principles of biomechanics are used to analyze the mechanics of human movement.
Biomechanics research is increasingly being used to design better prosthetic limbs and assistive devices for people with disabilities.
The field of biomechanics has provided valuable insights into how humans move and perform physical tasks.
Biomechanics is used to study the movement of animals such as horses.
Biomechanics can help us understand how insects are able to fly.
Biomechanics research has been instrumental in improving athletic performance and reducing injuries.
Biomechanics can help us understand how different types of materials and structures affect the body's movement and performance.
Biomechanics can be used to design better medical implants such as artificial hips or knees.
Biomechanics plays a role in designing prosthetics for people who have lost limbs.
Biomechanics can also be applied to the study of ergonomics, helping to design more comfortable and efficient workspaces and tools.
Biomechanics is an important component of physical therapy, helping to identify and correct issues with movement and posture.
Biomechanics is used to study the movement of birds during flight.
Biomechanics can help us understand how marine animals like dolphins and whales are able to swim so efficiently.
The study of biomechanics can also provide insights into the mechanics of animal movement, such as the way that insects fly or fish swim.
Biomechanics is used in the design of sports equipment such as running shoes or tennis rackets.
The study of biomechanics can help us understand how the human body adapts to different types of physical stress, such as the impact of weightlifting on bone density.
Biomechanics can help us understand how muscles and bones work together in the human body.
Biomechanics helps us understand how different shoes affect our gait.
Biomechanics is a valuable tool for studying the impacts of workplace ergonomics on worker health.
Biomechanics is used to study how bones and joints work together.
Researchers use biomechanics to study the impact of physical therapy.
Biomechanics research has led to the development of new surgical techniques and medical devices.
Biomechanics can help us understand how the human body responds to car crashes.
Engineers use biomechanics to design better exercise equipment.
Understanding biomechanics can help prevent injuries in athletes.
Biomechanics plays an important role in the development of artificial limbs.
Biomechanics can help improve the performance of athletes by optimizing their movement patterns.
Biomechanics is used to study the mechanics of the human body during exercise.
Understanding the biomechanics of animal locomotion can help improve robot design.
Biomechanics is used to study the effects of aging on human gait.
The study of biomechanics can lead to improvements in the design of personal protective equipment.
Biomechanics can be used to design safer equipment for athletes.
Biomechanics helps scientists understand how the heart pumps blood through the body.
Biomechanics can help improve the design of sports equipment such as shoes or helmets.
Biomechanics can help design safer and more effective medical devices such as pacemakers.
Biomechanics can help improve the design of prosthetic limbs.
Biomechanics can help design safer and more efficient industrial machinery.
Biomechanics can help researchers understand how cells respond to forces.
Biomechanics can help develop new materials for implants.
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