Biomechanical

The new tennis racquet was designed using biomechanical principles.

The biomechanical analysis of a basketball player's jump shot can reveal areas of improvement.

Biomechanical adjustments can improve posture and reduce pain.

Biomechanical analysis of the athletes' running patterns helped identify areas for improvement.

The prosthetic leg was custom-made to fit the patient's biomechanical needs.

The biomechanical engineer developed a new type of orthopedic implant.

The researchers used biomechanical models to study the impact of high heels on the feet.

Biomechanical engineers study the movement of insects.

Biomechanical models can be used to study the mechanics of human breathing.

The design of the new bicycle was based on biomechanical optimization.

Biomechanical factors play a crucial role in the design and development of ergonomic office chairs.

The biomechanical model helped researchers understand how different muscles work together during a particular movement.

The bird's flight is studied through biomechanical analysis.

The biomechanical properties of bone affect its strength and ability to resist fractures.

The biomechanical properties of the material were critical to the success of the project.

Biomechanical factors can influence the success of dental implants.

The biomechanical properties of the materials used in construction influenced the stability of the building.

Biomechanical analysis is an important tool for studying the gait patterns of people with disabilities and developing assistive devices.

The researchers used biomechanical models to study the effects of aging on joint mobility.

Biomechanical models can be used to simulate the movement of robots and improve their design.

Biomechanical simulations help in designing and optimizing new vehicles.

Biomechanical analysis of movement can help improve athletic performance.

The researchers used biomechanical analysis to study the gait patterns of athletes.

The biomechanical properties of bones play a critical role in the human body's movement.

Biomechanical engineering is used to develop prosthetic limbs that mimic the movement of natural limbs.

Biomechanical studies are essential to improve the performance of prosthetic limbs.

Biomechanical forces play a significant role in joint degeneration.

Biomechanical simulations can predict the behavior of cells in response to external forces.

The engineers used biomechanical principles to design a prosthetic arm.

Biomechanical analysis of the movement patterns can improve athletic performance.

Biomechanical testing can determine the durability of medical implants.

Biomechanical research can help understand the causes of musculoskeletal disorders.

Biomechanical forces affect the growth and development of bones.

Biomechanical engineering has led to the development of more effective prosthetics.

The biomechanical model of the foot helps in designing better footwear.

The prosthetic limb was designed using biomechanical principles.

The biomechanical properties of different materials determine their suitability for use in dental implants.

The biomechanical analysis of insects has led to the development of more efficient flying robots.

Biomechanical factors play a role in the development of scoliosis.

The biomechanical properties of human tissues are crucial to design safe and effective medical implants.

The new gym equipment was designed with biomechanical principles in mind to ensure optimal exercise results.

The biomechanical efficiency of a tennis stroke depends on proper technique.

Biomechanical analysis helps improve an athlete's running form.

Biomechanical forces can cause damage to the joints in the knee over time.

The research focuses on the biomechanical response of the brain during traumatic injuries.

Biomechanical forces are responsible for the deformation of soft tissues.

The biomechanical properties of the muscle tissue affect muscle performance.

The robotic exoskeleton is designed based on the biomechanical principles of the human body.

The study aims to understand the biomechanical properties of the bone.

Biomechanical engineering is concerned with designing prosthetic devices for amputees.