BFUT Paper 19 established the quantitative substrate framework by deriving coupling constants 5, boson masses, the electroweak mixing angle, the deformation-domain gravitational structure, the quantum carrier equation, and the propagation basis of time from the single substrate density ρₛ. The present paper extends the BFUT programme to quantum mechanics, dark matter, Higgs physics, and quantum consciousness. It provides the physical grounding of quantum mechanics from substrate propagation dynamics, identifies the Spaticle field as the correct physical identification of dark matter, and extends the substrate framework into quantum consciousness and biological sensing. Gauge symmetry is reinterpreted as local circulation invariance of substrate condensations. The Schrödinger equation is reconstructed as the non-relativistic propagation limit of the covariant substrate carrier equation F1-cov. The Born rule is interpreted as substrate deformation-energy density, wavefunction collapse as substrate state resolution under interaction, and entanglement as shared coherent substrate structure rather than nonlocal signalling. Half-integer spin emerges from circulation topology of organised condensations within the substrate. The framework unifies time dilation, length contraction, redshift, and propagation delay as different manifestations of one underlying substrate propagation constraint. Quantum propagation, gravitational deformation, and relativistic structure are treated within a single carrier-based description. The Standard Model Higgs field, an independently introduced mass-giving entity, does not exist. What exists is the Spaticle substrate, from which one collective excitation structure emerges from the deeper universal Spaticle substrate. Particles are organised condensations of the substrate itself, with mass emerging from substrate deformation resistance, confinement stability, and propagation organisation. The observed Higgs boson at 125 GeV is reconstructed through the balancing relation: mH = sqrt (mₜ x mZ) = 125. 6 GeV measured: 125. 25 GeV, agreement 0. 3% The same substrate balancing framework further predicts five additional collective substrate excitation modes at approximately 26. 9 GeV, 85. 6 GeV, 108. 3 GeV, 117. 9 GeV, and 139. 7 GeV, arising from geometric balancing relations between fermionic confinement and electroweak topology-transition sectors within the Spaticle substrate. These resonances are interpreted not necessarily as elementary particles but as organised collective excitation modes of the substrate itself. The paper also develops the BFUT account of consciousness as part of the quantum interpretation programme. Consciousness is treated as a graded consequence of force-channel accessibility and substrate interaction rather than as a property emerging suddenly only in biological nervous systems. BFUT Papers 20 and 21 establish the formal Hierarchical Channel Accessibility framework and the Consciousness Index derivation across biological systems. The paper provides BFUT analyses of major interpretations in quantum physics and cosmology, including Copenhagen, many-worlds, decoherence, Orch-OR, quantum tunnelling, black holes, and fine-tuning. Each interpretation is analysed physically within the substrate framework, specifying where BFUT agrees, reframes, or renders the interpretation structurally unnecessary. In the dark matter section the paper makes an explicit discovery claim: dark matter has been identified. It is the Spaticle field, validated across 175 SPARC galaxies 23, KiDS-1000 lensing data 3738 with chi-squared 0. 007 to 0. 067 against the CDM value of 5. 77 to 6. 57 on the same data, and GW170817 post-merger carrier relaxation analysis yielding τ ≈ 6. 8 ms within the BFUT-predicted window of 1–15 ms 52. The physical mechanism producing the gravitational anomalies the dark matter programme correctly detected is organised rotational deformation structure within the Spaticle substrate: rotating galaxies entrain the Spaticle field through the rotational term of DD-1, generating additional gravitational support at outer galactic radii rather than through any particulate dark-matter halo component. The resulting framework presents matter, forces, gravitation, quantum behaviour, substrate propagation, and consciousness as different organisational manifestations of one continuous substrate architecture. Within BFUT, the constants and structures of physics are not disconnected empirical inputs but constrained consequences of substrate density, topology, propagation structure, and organised condensation dynamics.
V. K. Sharma (Sat,) studied this question.