Hypothetical Matter, and the Harmonics of Inner Relativity, Chapter 4 of the Book of Ex Nihilo exercises VField Theory for its view on 'Hypothetical Matter' in the 'Expressed Spectrum'. The Model for Hypothetical Matter is intended to show the foundation for the existence of Matter based on VField Theory and the Laws of Unified form. The Model Calculates AMU, and provides a Bandwidth (Realm of Resonance) for the Element to exist in. Calculations for the most part are consistent with the AMU's in the PTE; additionally, Electron Counts are as well. What the Model depicts in addition is a unique spectrum established within the Realm of Resonance per Element. It is an accepted fact in science already that each element has a unique Atomic Spectrum. In the Math Model this is identified as a Base 64 modulus. This is where every element known within its Realm of Resonance within the Expressed Spectrum of Physical Matter is separated by an increment of 64. The Atomic Mass Spectrum is represented by elements that have an relationship of 0, 64, 128, 256,512,1024, etc. In Charting this, the Periods in the PTE fall within its these Bans. The Realm of Resonance intends that the Element being within its own Realm can be at any state within the Realm where a Mean AMU is noted that is in most cases close to the PTE AMU for the particular element. Given this, any Element may have various states as it has latitude within its own Realm of Resonance. Hypothetical Matter, Harmonics, Inner Relativity, VField Theory, Laws, Laws of Unified form, Particle Moment, Delta Phemonenon, Ex Nihilo, Relative Gravity, Linear Time, Relativity, Albert Einstein, Quantum Theory, Quantum Mechanics, quantum physics, quantum mechanics, quarks, quarks, wave-particle duality, particle moment, particl, particle moment, The Speed of Light, String Theory, physics, institute, scientific research, physical science, PhysicsWeb, PhysicsWorld, PhysicsNet, condensed matter, materials science, applied physics, engineering, mathematics, measurement science, plasma science, optics and optical science, atomic physics, molecular physics, high energy physics, particle physics, schrodinger, particles, forces, atomic prop, periodic table, atomic struct,molec struct, applications, nuclear physics, physics education, computer science, astronomy and astrophysics, cosmology, computational physics, neuroscience, cosmology, medical physics, neural networks, neurobiology, psychology, sensors, optical systems, laser science and systems, fibre optics and fiber optics, geophysics, quantum chromodynamics, vacuum physics, quantum gravity, professional society, academic research , quantum electrodynamics, scientific computing, physics news and information, conferences and exhibitions, schoo ls, colleges, universities, physical sciences, physics research journals, books and reference works, magazines