Abstract: Journal of Material Sciences & Applied Engineering

Abstract:
Forced-damped vibrations play a significant role in various medical applications, such as studying the mechanical properties of tissues, designing medical devices, and understanding the behavior of biological systems. Analyzing and modeling forced-damped vibrations in medicine involves a combination of physics, engineering, and biology. Forced-damped vibrations refer to the dynamic motion of a system that is subjected to both external forcing and damping. In this type of vibration, an external force or input continuously acts on the system, and damping influences the rate at which the system dissipates energy. Forced-damped vibrations are prevalent in various engineering applications and systems where an external force continually drives the motion. In essence, the application of damped vibrations in medicine underscores its significance in advancing diagnostics, treatment, and research. The nuanced consideration of damping properties has led to innovative technologies and methodologies that enhance our ability to comprehend and interact with the complex mechanical dynamics of biological tissues. As technology continues to evolve, the integration of damped vibrations is likely to play an increasingly critical role in shaping the future of medical practices and healthcare solutions.