structure
definition
ChristoffelSymbols
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IndisputableMonolith.Relativity.Geometry.Connection on GitHub at line 24.
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21namespace Geometry
22
23/-- **SCAFFOLD**: Stub Christoffel symbol bundle; entries default to zero. -/
24structure ChristoffelSymbols where
25 Γ : (Fin 4 → ℝ) → Fin 4 → Fin 4 → Fin 4 → ℝ := fun _ _ _ _ => 0
26
27/-- Christoffel symmetry predicate: Γ^ρ_μν = Γ^ρ_νμ. -/
28def ChristoffelSymmetric (cs : ChristoffelSymbols) : Prop :=
29 ∀ x ρ μ ν, cs.Γ x ρ μ ν = cs.Γ x ρ ν μ
30
31/-- Christoffel symbols associated to a metric; trivial in the sealed build. -/
32noncomputable def christoffel_from_metric (_g : MetricTensor) : ChristoffelSymbols := {}
33
34@[simp] lemma christoffel_from_metric_symmetric (g : MetricTensor) :
35 ChristoffelSymmetric (christoffel_from_metric g) := by
36 unfold ChristoffelSymmetric christoffel_from_metric
37 intro x ρ μ ν
38 rfl
39
40
41/-- Covariant derivative of a vector field; collapses to zero. -/
42noncomputable def covariant_deriv_vector (_g : MetricTensor)
43 (_V : VectorField) (_μ : Fin 4) : VectorField := fun _ _ _ => 0
44
45/-- Covariant derivative of a covector field; collapses to zero. -/
46noncomputable def covariant_deriv_covector (_g : MetricTensor)
47 (_ω : CovectorField) (_μ : Fin 4) : CovectorField := fun _ _ _ => 0
48
49/-- Covariant derivative of a bilinear form; collapses to zero. -/
50noncomputable def covariant_deriv_bilinear (_g : MetricTensor)
51 (_B : BilinearForm) (_ρ : Fin 4) : BilinearForm := fun _ _ _ => 0
52
53/-- Metric compatibility: ∇_ρ g_μν = 0. -/
54theorem metric_compatibility (g : MetricTensor) :