Finish proving arithmetic/geometric sums.
parent
30bda83706
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c18b0e6f1d
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@ -38,7 +38,8 @@ theorem term_recursive_closed (seq : Arithmetic) (n : Nat)
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: seq.termRecursive n = seq.termClosed n := by
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: seq.termRecursive n = seq.termClosed n := by
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induction n with
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induction n with
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| zero => unfold termRecursive termClosed; norm_num
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| zero => unfold termRecursive termClosed; norm_num
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| succ n ih => calc
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| succ n ih =>
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calc
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termRecursive seq (Nat.succ n)
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termRecursive seq (Nat.succ n)
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= seq.Δ + seq.termRecursive n := rfl
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= seq.Δ + seq.termRecursive n := rfl
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_ = seq.Δ + seq.termClosed n := by rw [ih]
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_ = seq.Δ + seq.termClosed n := by rw [ih]
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@ -47,13 +48,26 @@ theorem term_recursive_closed (seq : Arithmetic) (n : Nat)
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_ = seq.a₀ + seq.Δ * ↑(n + 1) := by simp
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_ = seq.a₀ + seq.Δ * ↑(n + 1) := by simp
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_ = termClosed seq (n + 1) := rfl
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_ = termClosed seq (n + 1) := rfl
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/--
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A term is equal to the next in the sequence minus the common difference.
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-/
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theorem term_closed_sub_succ_delta {seq : Arithmetic}
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: seq.termClosed n = seq.termClosed (n + 1) - seq.Δ :=
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calc
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seq.termClosed n
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_ = seq.a₀ + seq.Δ * n := rfl
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_ = seq.a₀ + seq.Δ * n + seq.Δ - seq.Δ := by rw [add_sub_cancel]
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_ = seq.a₀ + seq.Δ * (↑n + 1) - seq.Δ := by ring_nf
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_ = seq.a₀ + seq.Δ * ↑(n + 1) - seq.Δ := by simp only [Nat.cast_add, Nat.cast_one]
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_ = seq.termClosed (n + 1) - seq.Δ := rfl
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/--
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/--
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The summation of the first `n + 1` terms of an arithmetic sequence.
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The summation of the first `n + 1` terms of an arithmetic sequence.
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This function calculates the sum directly.
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This function calculates the sum directly.
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-/
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-/
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noncomputable def sum_closed (seq : Arithmetic) (n : Nat) : Real :=
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noncomputable def sum_closed (seq : Arithmetic) (n : Nat) : Real :=
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((n + 1) * (seq.a₀ + seq.termClosed n)) / 2
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(n + 1) * (seq.a₀ + seq.termClosed n) / 2
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/--
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/--
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The summation of the first `n + 1` terms of an arithmetic sequence.
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The summation of the first `n + 1` terms of an arithmetic sequence.
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@ -61,15 +75,43 @@ The summation of the first `n + 1` terms of an arithmetic sequence.
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This function calculates the sum recursively.
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This function calculates the sum recursively.
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-/
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-/
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def sum_recursive : Arithmetic → Nat → Real
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def sum_recursive : Arithmetic → Nat → Real
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| _, 0 => 0
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| seq, 0 => seq.a₀
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| seq, (n + 1) => seq.termClosed (n + 1) + seq.sum_recursive n
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| seq, (n + 1) => seq.termClosed (n + 1) + seq.sum_recursive n
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/--
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Simplify a summation of terms found in the proof of `sum_recursive_closed`.
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-/
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private lemma sub_delta_summand_eq_two_mul_a₀ {seq : Arithmetic}
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: seq.a₀ + seq.termClosed (n + 1) - (n + 1) * seq.Δ = 2 * seq.a₀ :=
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calc
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seq.a₀ + seq.termClosed (n + 1) - (n + 1) * seq.Δ
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_ = seq.a₀ + (seq.a₀ + seq.Δ * ↑(n + 1)) - (n + 1) * seq.Δ := rfl
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_ = seq.a₀ + seq.a₀ + seq.Δ * ↑(n + 1) - (n + 1) * seq.Δ := by rw [←add_assoc]
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_ = seq.a₀ + seq.a₀ + seq.Δ * (n + 1) - (n + 1) * seq.Δ := by simp only [Nat.cast_add, Nat.cast_one]
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_ = 2 * seq.a₀ := by ring_nf
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/--
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/--
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The recursive and closed definitions of the sum of an arithmetic sequence agree
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The recursive and closed definitions of the sum of an arithmetic sequence agree
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with one another.
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with one another.
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-/
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-/
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theorem sum_recursive_closed (seq : Arithmetic) (n : Nat)
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theorem sum_recursive_closed (seq : Arithmetic) (n : Nat)
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: sum_recursive seq n = sum_closed seq n :=
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: seq.sum_recursive n = seq.sum_closed n := by
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sorry
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induction n with
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| zero =>
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unfold sum_recursive sum_closed termClosed
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norm_num
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| succ n ih =>
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calc
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seq.sum_recursive (n + 1)
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_ = seq.termClosed (n + 1) + seq.sum_recursive n := rfl
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_ = seq.termClosed (n + 1) + seq.sum_closed n := by rw [ih]
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_ = seq.termClosed (n + 1) + ((n + 1) * (seq.a₀ + seq.termClosed n)) / 2 := rfl
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_ = (2 * seq.termClosed (n + 1) + n * seq.a₀ + n * seq.termClosed n + seq.a₀ + seq.termClosed n) / 2 := by ring_nf
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_ = (2 * seq.termClosed (n + 1) + n * seq.a₀ + n * (seq.termClosed (n + 1) - seq.Δ) + seq.a₀ + (seq.termClosed (n + 1) - seq.Δ)) / 2 := by rw [@term_closed_sub_succ_delta n]
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_ = (2 * seq.termClosed (n + 1) + n * seq.a₀ + n * seq.termClosed (n + 1) + (seq.a₀ + seq.termClosed (n + 1) - (n + 1) * seq.Δ)) / 2 := by ring_nf
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_ = (2 * seq.termClosed (n + 1) + n * seq.a₀ + n * seq.termClosed (n + 1) + 2 * seq.a₀) / 2 := by rw [sub_delta_summand_eq_two_mul_a₀]
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_ = ((n + 1) + 1) * (seq.a₀ + seq.termClosed (n + 1)) / 2 := by ring_nf
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_ = (↑(n + 1) + 1) * (seq.a₀ + seq.termClosed (n + 1)) / 2 := by simp only [Nat.cast_add, Nat.cast_one]
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_ = seq.sum_closed (n + 1) := rfl
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end Arithmetic
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end Arithmetic
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@ -1,5 +1,6 @@
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\documentclass{article}
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\documentclass{article}
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\usepackage{amsfonts, amsthm}
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\usepackage{amsfonts, amsthm}
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\usepackage{hyperref}
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\newtheorem{theorem}{Theorem}
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\newtheorem{theorem}{Theorem}
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@ -15,7 +16,7 @@ $$\sum_{i=0}^n a_i = \frac{(n + 1)(a_0 + a_n)}{2}.$$
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\begin{proof}
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\begin{proof}
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Common.Sequence.Arithmetic.sum\_recursive\_closed
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\href{Arithmetic.lean}{Common.Sequence.Arithmetic.sum\_recursive\_closed}
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\end{proof}
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\end{proof}
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@ -61,15 +61,32 @@ The summation of the first `n + 1` terms of a geometric sequence.
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This function calculates the sum recursively.
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This function calculates the sum recursively.
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-/
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-/
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def sum_recursive : Geometric → Nat → Real
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def sum_recursive : Geometric → Nat → Real
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| _, 0 => 0
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| seq, 0 => seq.a₀
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| seq, (n + 1) => seq.termClosed n + seq.sum_recursive n
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| seq, (n + 1) => seq.termClosed (n + 1) + seq.sum_recursive n
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/--
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/--
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The recursive and closed definitions of the sum of an arithmetic sequence agree
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The recursive and closed definitions of the sum of a geometric sequence agree
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with one another.
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with one another.
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-/
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-/
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theorem sum_recursive_closed (seq : Geometric) (n : Nat) (p : seq.r ≠ 1)
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theorem sum_recursive_closed (seq : Geometric) (n : Nat) (p : seq.r ≠ 1)
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: sum_recursive seq n = sum_closed_ratio_neq_one seq n p :=
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: sum_recursive seq n = sum_closed_ratio_neq_one seq n p := by
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sorry
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have h : 1 - seq.r ≠ 0 := by
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intro h
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rw [sub_eq_iff_eq_add, zero_add] at h
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exact False.elim (p (Eq.symm h))
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induction n with
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| zero =>
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unfold sum_recursive sum_closed_ratio_neq_one
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simp
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rw [mul_div_assoc, div_self h, mul_one]
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| succ n ih =>
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calc
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sum_recursive seq (n + 1)
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_ = seq.termClosed (n + 1) + seq.sum_recursive n := rfl
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_ = seq.termClosed (n + 1) + sum_closed_ratio_neq_one seq n p := by rw [ih]
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_ = seq.a₀ * seq.r ^ (n + 1) + (seq.a₀ * (1 - seq.r ^ (n + 1))) / (1 - seq.r) := rfl
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_ = seq.a₀ * seq.r ^ (n + 1) * (1 - seq.r) / (1 - seq.r) + (seq.a₀ * (1 - seq.r ^ (n + 1))) / (1 - seq.r) := by rw [mul_div_cancel _ h]
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_ = (seq.a₀ * (1 - seq.r ^ (n + 1 + 1))) / (1 - seq.r) := by ring_nf
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_ = sum_closed_ratio_neq_one seq (n + 1) p := rfl
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end Geometric
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end Geometric
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@ -1,5 +1,6 @@
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\documentclass{article}
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\documentclass{article}
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\usepackage{amsfonts, amsthm}
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\usepackage{amsfonts, amsthm}
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\usepackage{hyperref}
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\newtheorem{theorem}{Theorem}
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\newtheorem{theorem}{Theorem}
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@ -15,7 +16,7 @@ $$\sum_{i=0}^n a_i = \frac{a_0(1 - r^{n+1})}{1 - r}.$$
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\begin{proof}
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\begin{proof}
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Common.Sequence.Geometric.sum\_recursive\_closed.
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\href{Geometric.lean}{Common.Sequence.Geometric.sum\_recursive\_closed}
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\end{proof}
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\end{proof}
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