noun a branch of science and technology concerned with the study of mechanical systems that function like living organisms or parts of living organisms
Bionics is used in the field of medicine to develop prosthetic limbs and organs that mimic the functions of natural body parts.
In engineering, bionics is used to design robotic systems that imitate biological systems for various applications.
Bionics is essential in robotics to create robots with human-like capabilities and functionalities.
Bionics plays a role in biotechnology by studying biological processes to create innovative solutions for medical and industrial purposes.
In bioengineering, bionics is used to integrate biological and artificial systems to enhance human abilities and health.
Bionics can be used by writers to create futuristic worlds or characters with enhanced bionic abilities, adding a unique and intriguing element to their storytelling.
Psychologists may use bionics in the context of researching human-machine interactions, studying the psychological impact of bionic enhancements on individuals, or working with patients who have received bionic implants.
Engineers play a key role in the development and design of bionic devices, working to improve functionality, durability, and user experience. They may specialize in fields such as biomechanics, robotics, or materials science to advance bionics technology.
Medical doctors may utilize bionics in the form of prosthetic limbs, artificial organs, or other medical devices to improve the quality of life for patients with physical disabilities or health conditions. They work closely with bionics specialists to ensure proper integration and functionality of these devices.
Athletes may benefit from bionics through the use of performance-enhancing technologies such as exoskeletons, biomechanical analysis tools, or prosthetic enhancements. These devices can help athletes improve their training, recovery, and overall athletic performance.