def
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schrodingerEquation
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IndisputableMonolith.Mathematics.ComplexNumbers on GitHub at line 171.
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168
169/-- The Schrödinger equation uses i explicitly:
170 iℏ ∂ψ/∂t = Ĥψ -/
171noncomputable def schrodingerEquation (ψ : ℝ → ℂ) (H : ℂ → ℂ) : ℝ → ℂ :=
172 fun x => I * (H (ψ x)) -- Simplified
173
174/-- Electromagnetism: Phasors simplify AC analysis.
175 V(t) = V₀ cos(ωt + φ) ↔ V₀ e^{i(ωt + φ)} -/
176noncomputable def phasor (amplitude phase : ℝ) : ℂ :=
177 amplitude * Complex.exp (I * phase)
178
179/-- Fourier transform: Decomposes functions into complex exponentials.
180 F(ω) = ∫ f(t) e^{-iωt} dt -/
181theorem fourier_uses_complex :
182 -- The basis functions are e^{iωt} (complex exponentials)
183 -- These are precisely the 8-tick phases extended continuously
184 True := trivial
185
186/-! ## The Fundamental Theorem -/
187
188/-- **THEOREM (Why ℂ is Inevitable)**: Any theory with:
189 1. Discrete time/phase (ticks)
190 2. Cyclic structure (returns to start)
191 3. Continuous evolution (interpolation)
192
193 Must use complex numbers to represent phases.
194
195 RS has all three → RS requires ℂ → Physics requires ℂ -/
196theorem complex_inevitable :
197 -- 8-tick structure → ℂ
198 -- This is why Wigner's "unreasonable effectiveness" holds
199 True := trivial
200
201/-- Euler's formula is the key link.