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We present a unified theoretical framework in which gravity, dark matter, and dark energy emerge naturallyfrom a dissipative extension of the Higgs field. By introducing a thermodynamic gradient field Ψ coupled to the Higgs sector, we achieve: (i) emergent gravity through Higgs fluctuations gμν = ημν+κ∂μΦ∂νΦ, (ii) resolution of the hierarchy problem with 32 orders of magnitude improvement, (iii) natural dark matter candidates from dissipative modes with Ωdm = 0.265±0.015, (iv) dark energy as vacuum energy of Ψ with w = −0.98±0.02, and (v) determination of cosmic topology as spatially flat with Ωk = 0.0010 ± 0.0002 (98.7% probability). Bayesian evidence strongly favors our model (ΔlogZ = +2.6, Bayes factor = 13.5). The framework resolves black hole singularities through dissipative regularization and makes testable predictions for LHC Run 3 and next-generation cosmological surveys. New in v3.0: Modified speed of light predictions and explanation of Voyager spacecraft anomalies. This is Version 3.0 of the manuscript, updating previous versions while maintaining the original DOI 10.5281/zenodo.17463841. This version includes: - Modified speed of light framework: $c_{\text{eff}} \approx 0.999 c_0$- Explanation of Voyager spacecraft communication anomalies- Enhanced MCMC analysis with corner plots- Expanded experimental predictions- Full Lagrangian of the Standard Model with Dissipative Extension