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This commit is contained in:
Stefan Kebekus
parent
10f88298c0
commit
23dfdd3716
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@ -2,6 +2,7 @@ import Mathlib.Analysis.SpecialFunctions.Integrals
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import Mathlib.Analysis.SpecialFunctions.Log.NegMulLog
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import Mathlib.MeasureTheory.Integral.CircleIntegral
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import Mathlib.MeasureTheory.Measure.Restrict
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import Nevanlinna.specialFunctions_Integral_log_sin
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open scoped Interval Topology
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open Real Filter MeasureTheory intervalIntegral
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@ -10,7 +11,37 @@ open Real Filter MeasureTheory intervalIntegral
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lemma int₁₁ : ∫ (x : ℝ) in (0)..π, log (4 * sin x ^ 2) = 0 := by
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sorry
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have t₁ {x : ℝ} : x ∈ Set.Ioo 0 π → log (4 * sin x ^ 2) = log 4 + 2 * log (sin x) := by
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intro hx
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rw [log_mul, log_pow]
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rfl
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exact Ne.symm (NeZero.ne' 4)
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apply pow_ne_zero 2
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apply (fun a => Ne.symm (ne_of_lt a))
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exact sin_pos_of_mem_Ioo hx
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have t₂ : Set.EqOn (fun y ↦ log (4 * sin y ^ 2)) (fun y ↦ log 4 + 2 * log (sin y)) (Set.Ioo 0 π) := by
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intro x hx
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simp
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rw [t₁ hx]
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rw [intervalIntegral.integral_congr_volume pi_pos t₂]
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rw [intervalIntegral.integral_add]
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rw [intervalIntegral.integral_const_mul]
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simp
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rw [integral_log_sin₂]
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have : (4 : ℝ) = 2 * 2 := by norm_num
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rw [this, log_mul]
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ring
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norm_num
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norm_num
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-- IntervalIntegrable (fun x => log 4) volume 0 π
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simp
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-- IntervalIntegrable (fun x => 2 * log (sin x)) volume 0 π
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apply IntervalIntegrable.const_mul
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exact intervalIntegrable_log_sin
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lemma int₁ :
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@ -1,7 +1,5 @@
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import Mathlib.Analysis.SpecialFunctions.Integrals
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import Mathlib.Analysis.SpecialFunctions.Log.NegMulLog
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import Mathlib.MeasureTheory.Integral.CircleIntegral
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import Mathlib.MeasureTheory.Measure.Restrict
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open scoped Interval Topology
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open Real Filter MeasureTheory intervalIntegral
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@ -226,6 +224,7 @@ theorem intervalIntegrable_log_cos : IntervalIntegrable (log ∘ cos) volume 0 (
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apply IntervalIntegrable.symm
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rwa [← this]
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theorem intervalIntegral.integral_congr_volume
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{E : Type u_3} [NormedAddCommGroup E] [NormedSpace ℝ E]
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{f : ℝ → E}
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@ -255,7 +254,7 @@ theorem intervalIntegral.integral_congr_volume
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_ = 0 := volume_singleton
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lemma integral_log_sin : ∫ (x : ℝ) in (0)..(π / 2), log (sin x) = -log 2 * π/2 := by
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lemma integral_log_sin₁ : ∫ (x : ℝ) in (0)..(π / 2), log (sin x) = -log 2 * π/2 := by
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have t₁ {x : ℝ} : x ∈ Set.Ioo 0 (π / 2) → log (sin (2 * x)) = log 2 + log (sin x) + log (cos x) := by
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intro hx
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@ -352,3 +351,7 @@ lemma integral_log_sin : ∫ (x : ℝ) in (0)..(π / 2), log (sin x) = -log 2 *
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exact intervalIntegrable_log_cos
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--
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linarith [pi_pos]
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lemma integral_log_sin₂ : ∫ (x : ℝ) in (0)..π, log (sin x) = -log 2 * π := by
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sorry
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