Directional Pressure Gravity (DPG) Theory

Abstract - Directional Pressure Gravity (DPG) Theory

This paper introduces the Directional Pressure Gravity (DPG) Theory, a new hypothesis

that redefines gravity not as an attractive force between masses, but as a directional

pressure field caused by Earth's movement through space. According to DPG, the

apparent weight of any object results from its resistance to the planet's motion,

including Earth's rotation, orbital motion, and the larger galactic movement of the solar

system. The greater the resistance, the greater the pressure experienced—interpreted

as 'gravity.'

DPG suggests that if an object moves in the exact direction and velocity of the cosmic

flow, the pressure it experiences would decrease, possibly leading to a complete loss of

weight. This leads to the possibility of anti-gravity effects, energy-efficient

transportation systems, and new energy extraction models.

The theory is supported by mathematical models and simple physical simulations based

on velocity-pressure relationships. If validated, it could transform our understanding of

gravitational interaction and provide the basis for future technological applications,

including clean energy harvesting, propulsion systems, and gravitational control

mechanisms.

This registration documents the conceptual framework of DPG and protects its

authorship and origin. Future work will focus on physical experiments, advanced

simulation, and broader scientific engagement.

Prepared by Mohamed A Mohamed |