Two astrophysics issue resolution methodologies are: the current astrophysics community’s single primarily mathematics step and a two-step integrated physics/mathematics consisting of a conceptual physics step followed by an equally important mathematics step. The current astrophysics community’s single-step methodology provided most if not all of the spectacularly successful astrophysics achievements over the last century. However, a single-step methodology solution does not exist for a Theory of Everything (TOE). In contrast, a two-step integrated physics/mathematics methodology provides a TOE physics solution. The current astrophysics community’s single primarily mathematics step and the two-step integrated physics/mathematics methodologies are complementary and essential for future astrophysics achievements. The conceptual physics step of a TOE Physics Solution using a Two-Step Integrated Physics/Mathematics Methodology, consisted of interrelated amplified requirements or “New Physics” requirements for 20 TOE constituent theories. “New Physics” requirements which never previously existed, were 689 or 61% of all 1,134 TOE requirements. The conceptual physics step had three goals. First, “Everything” was defined as 20 interrelated amplified constituent theories and their intimate physical relationships with each other. The 20 theories were; superstring, particle creation, inflation, Higgs forces, spontaneous symmetry breaking, superpartner and Standard Model (SM) decays, neutrino oscillations, dark matter, universe expansions, dark energy, messenger particles, relative strengths of forces/Hierarchy problem, Super Universe (multiverse), stellar black holes (stars and galaxies), black hole entropy, arrow of time, cosmological constant problem, black hole information paradox, baryogenesis, and quantum gravity. Second, all 19 key outstanding TOE physics questions were explicitly defined and answered including what are: Higgs forces, the fundamental matter and force particles equivalent of Mendeleev’s Periodic Table of elements, stellar black holes, inflation and spontaneous symmetry breaking potential field functions, quantum fluctuations of fundamental particles, physical and mathematical singularities, and the seven extra dimensions; what is: dark energy, dark matter, super supersymmetry (SSUSY) of Higgs particles, the border between quantum gravity and classical physics or Schrodinger wave function applicability, the boundary between quantum gravity and general relativity, our universe’s implementation of the It from Qubit (IfQ) concept, and particle entanglement; and what caused: the start of our universe, hierarchy problem, black hole information paradox, baryogenesis, and the cosmological constant problem? Third, correct inputs were provided for the two part second mathematics step which followed, an amplification of the existing SM mathematics or Beyond the Standard Model (BSM) solution for particles and an N-body galaxy simulation for cosmology.