Modern Physics describes four fundamental interactions namely: Strong Nuclear Interaction, Weak Nuclear Interaction, Electromagnetic Interaction and Gravitational Interaction. Among these Interactions, the gravitational interaction is still not unified with others in a commonly accepted theory like Electroweak Theory or Quantum Chromodynamics despite many recent and previous trials. This research paper clarifies an attempt to confine gravitational interaction within electromagnetism based on intrinsic electric dipole of elementary particles. This proposed hypothesis is a novel approach method to answer unsolved problems related to gravity like hierarchy problem i.e., extremely weak nature of gravity, absence of anti-gravity and confinement of gravity within electromagnetism in a manner that is compatible with both General Relativity and Quantum Mechanics. Additionally, for the first time, it discusses attraction-repulsion inequality principle in electromagnetic dipoles and provides new equation related to this principle. Furthermore, it will introduce the concept of mass-charge equivalence as integration for Einstein's mass-energy equivalence while providing new definition for gravitons based on virtual photons and one step forward toward the theory of everything. Finally, and notably, it relies on experimental simulations and similarities rather than just pure theoretical explanations and assumptions.