The theory of Quantum Gravity and deriving the Quantum Gravitational Constant Matrix: Expanding the Model of Unified Framework for Space-Time Fabric Formation from the space chunks and it's interaction with mass to emit gravitational waves.

In this new version of the paper we have derived the general structure of universal gravitational operator G^ and a novel Quantum Gravitational Constant G_Q, a matrix formulation that governs gravitational interactions at quantum scales, and apply it to the new gravitational force formula which acts due to the gravitational field. To solve this, gravitational waves data has been fetched out from the GW150914 event detected on 14 September 2015 by LIGO (The Laser Interferometer Gravitational-Wave Observatory in Han- ford Observatory, Livingston) using Python libraries. Upon solving the value of gravitation force we came to a know that the quantum gravitational constant is a matrix. We have plotted the structure of this matrix through graph using the python codes. It revealed a highly interconnected system that reflects the non-linear and dense nature of quantum gravity. This approach provides a new quantum description of gravitational forces, helping to bridge the gap between quantum mechanics and general relativity. Our exploration of space-time fabric formation and its interaction with mass and quantum gravity uncovers insights into the fundamental nature of the universe, paving the way for deeper investigations into theoretical physics and cosmology.