A Review: Introduction to Bio – Mechanical Engineering
Keywords:
Biomaterials, Tissue engineering, biomechanics, Rehabilitation engineering and Medical imagingAbstract
Bio mechanical engineering seeks to unravel the mysteries of how living organisms move and function. It understands how forces, stresses, and strains impact biological tissues and structures. Bio-mechanical engineering has applications in healthcare and sports. Biomechanics contributes to the development of lifechanging medical devices and technology. It is crucial for developing innovative solutions in healthcare, such as prosthetic limbs, artificial organs, and medical devices that interact with the human body. Biomechanical engineers also contribute to sports science by analyzing the biomechanics of athletes, using advanced tools like motion capture systems and force sensors. This study helps to understand the usage of biomechanical engineering Biomechanical advancements include the development of life-changing medical devices, improved sports performance, injury prevention, medical research, ergonomic design, efficient agricultural machinery and robotics, rehabilitation, product design and safety, and biomechanics research. In the daily life, biomechanical engineering is used in smart wearable, such as smart watches, biosensors, thermometers, connected inhalers, fitness trackers, ECG monitors, and blood - pressure monitors. These devices help individuals track their heartbeat, oxygen levels, diabetes statistics, and blood pressure, enhancing theiroverall health and well-being. We summarize the use of biomechanical engineering in humanlife in this study, along with the accessibility of biomechanical devices to people and some real-world witnesses.