Re-Investigation of the Foundation of Moment of Inertia by Means of Zero and Minus One Factorial

Abstract

Moment of inertia, a fundamental concept in physics and engineering and a chief factor influencing the rotational motion of objects, is the quantitative measure of the rotational inertia of objects. It is the resistance that the objects exhibit to having their speed of rotation about an axis altered by the employment of a turning force. This paper presents a reevaluation of the moment of inertia. By exploring the arithmetic of zero and minus one factorial, we uncover the true essence of the particles involved in rotational motion. Our innovative approach reconciles intuition with mathematical precision, revealing the hidden structure underlying moment of inertia. This breakthrough enables a deeper understanding of physical systems, empowering researchers to tackle complex challenges with renewed confidence and creativity. Our work has far-reaching implications for novel applications and innovations in physics and engineering, illuminating the path for future discoveries.