The Quantum Structural Disintegration Thoery : Mathematical Representation by Sultan Mustafa Sohail.

The Quantum Structural Disintegration Theory (QSDT), proposed by Sultan Mustafa Sohail, presents gravity as an internal mechanical interaction within atomic structures rather than a purely external force. The theory introduces the concept of an Internal Graviton Load (L₉), which acts as a structural stress inside matter. According to QSDT, this internal load does not directly create heat, but instead induces microscopic motion within atoms. As atoms experience this internal stress, they undergo continuous kinetic adjustments to maintain stability. These motions increase the overall kinetic activity of particles, which manifests macroscopically as thermal energy (heat). In massive bodies such as planets and stars, the gravitational load becomes significantly stronger. This results in greater internal compression and increased atomic motion, thereby producing higher temperatures. Thus, in QSDT, heat is not generated directly by gravity itself, but emerges as a consequence of gravity-induced internal motion and compression within matter. This interpretation provides a mechanical link between gravity and thermodynamics, offering a unified perspective on how gravitational intensity can influence temperature in large-scale systems.