src/HOL/Hyperreal/NthRoot.thy
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move root and sqrt stuff from Transcendental to NthRoot
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(*  Title       : NthRoot.thy
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    Author      : Jacques D. Fleuriot
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    Copyright   : 1998  University of Cambridge
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    Conversion to Isar and new proofs by Lawrence C Paulson, 2004
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*)
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header{*Existence of Nth Root*}
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theory NthRoot
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imports SEQ
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begin
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definition
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  root :: "[nat, real] \<Rightarrow> real"
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  "root n x = (THE u. (0 < x \<longrightarrow> 0 < u) \<and> (u ^ n = x))"
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  sqrt :: "real \<Rightarrow> real"
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  "sqrt x = root 2 x"
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text {*
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  Various lemmas needed for this result. We follow the proof given by
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  John Lindsay Orr (\texttt{jorr@math.unl.edu}) in his Analysis
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  Webnotes available at \url{http://www.math.unl.edu/~webnotes}.
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  Lemmas about sequences of reals are used to reach the result.
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*}
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lemma lemma_nth_realpow_non_empty:
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     "[| (0::real) < a; 0 < n |] ==> \<exists>s. s : {x. x ^ n <= a & 0 < x}"
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apply (case_tac "1 <= a")
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apply (rule_tac x = 1 in exI)
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apply (drule_tac [2] linorder_not_le [THEN iffD1])
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apply (drule_tac [2] less_not_refl2 [THEN not0_implies_Suc], simp) 
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apply (force intro!: realpow_Suc_le_self simp del: realpow_Suc)
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done
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text{*Used only just below*}
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lemma realpow_ge_self2: "[| (1::real) \<le> r; 0 < n |] ==> r \<le> r ^ n"
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by (insert power_increasing [of 1 n r], simp)
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lemma lemma_nth_realpow_isUb_ex:
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     "[| (0::real) < a; 0 < n |]  
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      ==> \<exists>u. isUb (UNIV::real set) {x. x ^ n <= a & 0 < x} u"
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apply (case_tac "1 <= a")
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apply (rule_tac x = a in exI)
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apply (drule_tac [2] linorder_not_le [THEN iffD1])
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apply (rule_tac [2] x = 1 in exI)
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apply (rule_tac [!] setleI [THEN isUbI], safe)
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apply (simp_all (no_asm))
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apply (rule_tac [!] ccontr)
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apply (drule_tac [!] linorder_not_le [THEN iffD1])
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apply (drule realpow_ge_self2, assumption)
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apply (drule_tac n = n in realpow_less)
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apply (assumption+)
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apply (drule real_le_trans, assumption)
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apply (drule_tac y = "y ^ n" in order_less_le_trans, assumption, simp) 
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apply (drule_tac n = n in zero_less_one [THEN realpow_less], auto)
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done
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lemma nth_realpow_isLub_ex:
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     "[| (0::real) < a; 0 < n |]  
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      ==> \<exists>u. isLub (UNIV::real set) {x. x ^ n <= a & 0 < x} u"
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by (blast intro: lemma_nth_realpow_isUb_ex lemma_nth_realpow_non_empty reals_complete)
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subsection{*First Half -- Lemmas First*}
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lemma lemma_nth_realpow_seq:
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     "isLub (UNIV::real set) {x. x ^ n <= a & (0::real) < x} u  
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           ==> u + inverse(real (Suc k)) ~: {x. x ^ n <= a & 0 < x}"
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apply (safe, drule isLubD2, blast)
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apply (simp add: linorder_not_less [symmetric])
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done
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lemma lemma_nth_realpow_isLub_gt_zero:
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     "[| isLub (UNIV::real set) {x. x ^ n <= a & (0::real) < x} u;  
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         0 < a; 0 < n |] ==> 0 < u"
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apply (drule lemma_nth_realpow_non_empty, auto)
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apply (drule_tac y = s in isLub_isUb [THEN isUbD])
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apply (auto intro: order_less_le_trans)
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done
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lemma lemma_nth_realpow_isLub_ge:
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     "[| isLub (UNIV::real set) {x. x ^ n <= a & (0::real) < x} u;  
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         0 < a; 0 < n |] ==> ALL k. a <= (u + inverse(real (Suc k))) ^ n"
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apply safe
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apply (frule lemma_nth_realpow_seq, safe)
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apply (auto elim: order_less_asym simp add: linorder_not_less [symmetric]
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            iff: real_0_less_add_iff) --{*legacy iff rule!*}
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apply (simp add: linorder_not_less)
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apply (rule order_less_trans [of _ 0])
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apply (auto intro: lemma_nth_realpow_isLub_gt_zero)
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done
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text{*First result we want*}
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lemma realpow_nth_ge:
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     "[| (0::real) < a; 0 < n;  
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     isLub (UNIV::real set)  
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     {x. x ^ n <= a & 0 < x} u |] ==> a <= u ^ n"
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apply (frule lemma_nth_realpow_isLub_ge, safe)
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apply (rule LIMSEQ_inverse_real_of_nat_add [THEN LIMSEQ_pow, THEN LIMSEQ_le_const])
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apply (auto simp add: real_of_nat_def)
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done
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subsection{*Second Half*}
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lemma less_isLub_not_isUb:
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     "[| isLub (UNIV::real set) S u; x < u |]  
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           ==> ~ isUb (UNIV::real set) S x"
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apply safe
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apply (drule isLub_le_isUb, assumption)
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apply (drule order_less_le_trans, auto)
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done
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lemma not_isUb_less_ex:
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     "~ isUb (UNIV::real set) S u ==> \<exists>x \<in> S. u < x"
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apply (rule ccontr, erule contrapos_np)
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apply (rule setleI [THEN isUbI])
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apply (auto simp add: linorder_not_less [symmetric])
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done
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lemma real_mult_less_self: "0 < r ==> r * (1 + -inverse(real (Suc n))) < r"
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apply (simp (no_asm) add: right_distrib)
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apply (rule add_less_cancel_left [of "-r", THEN iffD1])
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apply (auto intro: mult_pos_pos
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            simp add: add_assoc [symmetric] neg_less_0_iff_less)
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done
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lemma real_mult_add_one_minus_ge_zero:
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     "0 < r ==>  0 <= r*(1 + -inverse(real (Suc n)))"
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by (simp add: zero_le_mult_iff real_of_nat_inverse_le_iff real_0_le_add_iff)
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lemma lemma_nth_realpow_isLub_le:
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     "[| isLub (UNIV::real set) {x. x ^ n <= a & (0::real) < x} u;  
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       0 < a; 0 < n |] ==> ALL k. (u*(1 + -inverse(real (Suc k)))) ^ n <= a"
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apply safe
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apply (frule less_isLub_not_isUb [THEN not_isUb_less_ex])
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apply (rule_tac n = k in real_mult_less_self)
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apply (blast intro: lemma_nth_realpow_isLub_gt_zero, safe)
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apply (drule_tac n = k in
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        lemma_nth_realpow_isLub_gt_zero [THEN real_mult_add_one_minus_ge_zero], assumption+)
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apply (blast intro: order_trans order_less_imp_le power_mono) 
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done
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text{*Second result we want*}
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lemma realpow_nth_le:
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     "[| (0::real) < a; 0 < n;  
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     isLub (UNIV::real set)  
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     {x. x ^ n <= a & 0 < x} u |] ==> u ^ n <= a"
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apply (frule lemma_nth_realpow_isLub_le, safe)
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apply (rule LIMSEQ_inverse_real_of_nat_add_minus_mult
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                [THEN LIMSEQ_pow, THEN LIMSEQ_le_const2])
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apply (auto simp add: real_of_nat_def)
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done
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text{*The theorem at last!*}
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lemma realpow_nth: "[| (0::real) < a; 0 < n |] ==> \<exists>r. r ^ n = a"
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apply (frule nth_realpow_isLub_ex, auto)
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apply (auto intro: realpow_nth_le realpow_nth_ge order_antisym)
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done
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(* positive only *)
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lemma realpow_pos_nth: "[| (0::real) < a; 0 < n |] ==> \<exists>r. 0 < r & r ^ n = a"
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apply (frule nth_realpow_isLub_ex, auto)
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apply (auto intro: realpow_nth_le realpow_nth_ge order_antisym lemma_nth_realpow_isLub_gt_zero)
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done
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lemma realpow_pos_nth2: "(0::real) < a  ==> \<exists>r. 0 < r & r ^ Suc n = a"
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by (blast intro: realpow_pos_nth)
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(* uniqueness of nth positive root *)
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lemma realpow_pos_nth_unique:
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     "[| (0::real) < a; 0 < n |] ==> EX! r. 0 < r & r ^ n = a"
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apply (auto intro!: realpow_pos_nth)
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apply (cut_tac x = r and y = y in linorder_less_linear, auto)
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apply (drule_tac x = r in realpow_less)
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apply (drule_tac [4] x = y in realpow_less, auto)
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done
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20687
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subsection {* Nth Root *}
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lemma real_root_zero [simp]: "root (Suc n) 0 = 0"
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apply (simp add: root_def)
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apply (safe intro!: the_equality power_0_Suc elim!: realpow_zero_zero)
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done
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lemma real_root_pow_pos: 
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     "0 < x ==> (root (Suc n) x) ^ (Suc n) = x"
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apply (simp add: root_def del: realpow_Suc)
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apply (drule_tac n="Suc n" in realpow_pos_nth_unique, simp)
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apply (erule theI' [THEN conjunct2])
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done
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lemma real_root_pow_pos2: "0 \<le> x ==> (root (Suc n) x) ^ (Suc n) = x"
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by (auto dest!: real_le_imp_less_or_eq dest: real_root_pow_pos)
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lemma real_root_pos: 
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     "0 < x ==> root(Suc n) (x ^ (Suc n)) = x"
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apply (simp add: root_def)
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apply (rule the_equality)
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apply (frule_tac [2] n = n in zero_less_power)
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apply (auto simp add: zero_less_mult_iff)
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apply (rule_tac x = u and y = x in linorder_cases)
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apply (drule_tac n1 = n and x = u in zero_less_Suc [THEN [3] realpow_less])
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apply (drule_tac [4] n1 = n and x = x in zero_less_Suc [THEN [3] realpow_less])
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apply (auto)
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done
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lemma real_root_pos2: "0 \<le> x ==> root(Suc n) (x ^ (Suc n)) = x"
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by (auto dest!: real_le_imp_less_or_eq real_root_pos)
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lemma real_root_gt_zero:
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     "0 < x ==> 0 < root (Suc n) x"
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apply (simp add: root_def del: realpow_Suc)
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apply (drule_tac n="Suc n" in realpow_pos_nth_unique, simp)
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apply (erule theI' [THEN conjunct1])
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done
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lemma real_root_pos_pos: 
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     "0 < x ==> 0 \<le> root(Suc n) x"
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by (rule real_root_gt_zero [THEN order_less_imp_le])
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lemma real_root_pos_pos_le: "0 \<le> x ==> 0 \<le> root(Suc n) x"
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by (auto simp add: order_le_less real_root_gt_zero)
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lemma real_root_one [simp]: "root (Suc n) 1 = 1"
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apply (simp add: root_def)
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apply (rule the_equality, auto)
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apply (rule ccontr)
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apply (rule_tac x = u and y = 1 in linorder_cases)
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apply (drule_tac n = n in realpow_Suc_less_one)
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apply (drule_tac [4] n = n in power_gt1_lemma)
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apply (auto)
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done
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subsection{*Square Root*}
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text{*needed because 2 is a binary numeral!*}
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lemma root_2_eq [simp]: "root 2 = root (Suc (Suc 0))"
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by (simp del: nat_numeral_0_eq_0 nat_numeral_1_eq_1 
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         add: nat_numeral_0_eq_0 [symmetric])
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lemma real_sqrt_zero [simp]: "sqrt 0 = 0"
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by (simp add: sqrt_def)
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lemma real_sqrt_one [simp]: "sqrt 1 = 1"
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by (simp add: sqrt_def)
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lemma real_sqrt_pow2_iff [iff]: "((sqrt x)\<twosuperior> = x) = (0 \<le> x)"
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apply (simp add: sqrt_def)
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apply (rule iffI) 
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 apply (cut_tac r = "root 2 x" in realpow_two_le)
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 apply (simp add: numeral_2_eq_2)
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apply (subst numeral_2_eq_2)
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apply (erule real_root_pow_pos2)
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done
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lemma [simp]: "(sqrt(u2\<twosuperior> + v2\<twosuperior>))\<twosuperior> = u2\<twosuperior> + v2\<twosuperior>"
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by (rule realpow_two_le_add_order [THEN real_sqrt_pow2_iff [THEN iffD2]])
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lemma real_sqrt_pow2 [simp]: "0 \<le> x ==> (sqrt x)\<twosuperior> = x"
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by (simp)
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lemma real_sqrt_abs_abs [simp]: "sqrt\<bar>x\<bar> ^ 2 = \<bar>x\<bar>"
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by (rule real_sqrt_pow2_iff [THEN iffD2], arith)
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lemma real_pow_sqrt_eq_sqrt_pow: 
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      "0 \<le> x ==> (sqrt x)\<twosuperior> = sqrt(x\<twosuperior>)"
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apply (simp add: sqrt_def)
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apply (simp only: numeral_2_eq_2 real_root_pow_pos2 real_root_pos2)
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done
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lemma real_pow_sqrt_eq_sqrt_abs_pow2:
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     "0 \<le> x ==> (sqrt x)\<twosuperior> = sqrt(\<bar>x\<bar> ^ 2)" 
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by (simp add: real_pow_sqrt_eq_sqrt_pow [symmetric])
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lemma real_sqrt_pow_abs: "0 \<le> x ==> (sqrt x)\<twosuperior> = \<bar>x\<bar>"
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apply (rule real_sqrt_abs_abs [THEN subst])
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apply (rule_tac x1 = x in real_pow_sqrt_eq_sqrt_abs_pow2 [THEN ssubst])
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apply (rule_tac [2] real_pow_sqrt_eq_sqrt_pow [symmetric])
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apply (assumption, arith)
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done
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lemma not_real_square_gt_zero [simp]: "(~ (0::real) < x*x) = (x = 0)"
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apply auto
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apply (cut_tac x = x and y = 0 in linorder_less_linear)
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apply (simp add: zero_less_mult_iff)
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   291
done
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   292
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lemma real_sqrt_gt_zero: "0 < x ==> 0 < sqrt(x)"
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by (simp add: sqrt_def real_root_gt_zero)
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   295
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lemma real_sqrt_ge_zero: "0 \<le> x ==> 0 \<le> sqrt(x)"
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   297
by (auto intro: real_sqrt_gt_zero simp add: order_le_less)
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   298
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lemma real_sqrt_mult_self_sum_ge_zero [simp]: "0 \<le> sqrt(x*x + y*y)"
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   300
by (rule real_sqrt_ge_zero [OF real_mult_self_sum_ge_zero]) 
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   301
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(*we need to prove something like this:
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lemma "[|r ^ n = a; 0<n; 0 < a \<longrightarrow> 0 < r|] ==> root n a = r"
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apply (case_tac n, simp) 
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apply (simp add: root_def) 
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apply (rule someI2 [of _ r], safe)
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apply (auto simp del: realpow_Suc dest: power_inject_base)
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*)
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lemma sqrt_eqI: "[|r\<twosuperior> = a; 0 \<le> r|] ==> sqrt a = r"
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apply (erule subst)
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apply (simp add: sqrt_def numeral_2_eq_2 del: realpow_Suc)
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apply (erule real_root_pos2)
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   315
done
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   316
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lemma real_sqrt_mult_distrib: 
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     "[| 0 \<le> x; 0 \<le> y |] ==> sqrt(x*y) = sqrt(x) * sqrt(y)"
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apply (rule sqrt_eqI)
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apply (simp add: power_mult_distrib)  
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apply (simp add: zero_le_mult_iff real_sqrt_ge_zero) 
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   322
done
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   323
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lemma real_sqrt_mult_distrib2:
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     "[|0\<le>x; 0\<le>y |] ==> sqrt(x*y) =  sqrt(x) * sqrt(y)"
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   326
by (auto intro: real_sqrt_mult_distrib simp add: order_le_less)
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   327
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   328
lemma real_sqrt_sum_squares_ge_zero [simp]: "0 \<le> sqrt (x\<twosuperior> + y\<twosuperior>)"
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   329
by (auto intro!: real_sqrt_ge_zero)
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   330
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lemma real_sqrt_sum_squares_mult_ge_zero [simp]:
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     "0 \<le> sqrt ((x\<twosuperior> + y\<twosuperior>)*(xa\<twosuperior> + ya\<twosuperior>))"
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   333
by (auto intro!: real_sqrt_ge_zero simp add: zero_le_mult_iff)
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   334
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   335
lemma real_sqrt_sum_squares_mult_squared_eq [simp]:
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     "sqrt ((x\<twosuperior> + y\<twosuperior>) * (xa\<twosuperior> + ya\<twosuperior>)) ^ 2 = (x\<twosuperior> + y\<twosuperior>) * (xa\<twosuperior> + ya\<twosuperior>)"
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   337
by (auto simp add: zero_le_mult_iff simp del: realpow_Suc)
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   338
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lemma real_sqrt_abs [simp]: "sqrt(x\<twosuperior>) = \<bar>x\<bar>"
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apply (rule abs_realpow_two [THEN subst])
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   341
apply (rule real_sqrt_abs_abs [THEN subst])
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apply (subst real_pow_sqrt_eq_sqrt_pow)
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apply (auto simp add: numeral_2_eq_2)
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done
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   345
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   346
lemma real_sqrt_abs2 [simp]: "sqrt(x*x) = \<bar>x\<bar>"
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   347
apply (rule realpow_two [THEN subst])
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   348
apply (subst numeral_2_eq_2 [symmetric])
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   349
apply (rule real_sqrt_abs)
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   350
done
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   351
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   352
lemma real_sqrt_pow2_gt_zero: "0 < x ==> 0 < (sqrt x)\<twosuperior>"
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   353
by simp
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   354
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lemma real_sqrt_not_eq_zero: "0 < x ==> sqrt x \<noteq> 0"
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   356
apply (frule real_sqrt_pow2_gt_zero)
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   357
apply (auto simp add: numeral_2_eq_2)
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   358
done
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   359
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lemma real_inv_sqrt_pow2: "0 < x ==> inverse (sqrt(x)) ^ 2 = inverse x"
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   361
by (cut_tac n1 = 2 and a1 = "sqrt x" in power_inverse [symmetric], auto)
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   362
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   363
lemma real_sqrt_eq_zero_cancel: "[| 0 \<le> x; sqrt(x) = 0|] ==> x = 0"
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   364
apply (drule real_le_imp_less_or_eq)
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   365
apply (auto dest: real_sqrt_not_eq_zero)
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   366
done
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   367
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   368
lemma real_sqrt_eq_zero_cancel_iff [simp]: "0 \<le> x ==> ((sqrt x = 0) = (x=0))"
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diff changeset
   369
by (auto simp add: real_sqrt_eq_zero_cancel)
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   370
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   371
lemma real_sqrt_sum_squares_ge1 [simp]: "x \<le> sqrt(x\<twosuperior> + y\<twosuperior>)"
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   372
apply (subgoal_tac "x \<le> 0 | 0 \<le> x", safe)
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   373
apply (rule real_le_trans)
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   374
apply (auto simp del: realpow_Suc)
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   375
apply (rule_tac n = 1 in realpow_increasing)
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   376
apply (auto simp add: numeral_2_eq_2 [symmetric] simp del: realpow_Suc)
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   377
done
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   378
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   379
lemma real_sqrt_sum_squares_ge2 [simp]: "y \<le> sqrt(z\<twosuperior> + y\<twosuperior>)"
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   380
apply (simp (no_asm) add: real_add_commute del: realpow_Suc)
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   381
done
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   382
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diff changeset
   383
lemma real_sqrt_ge_one: "1 \<le> x ==> 1 \<le> sqrt x"
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diff changeset
   384
apply (rule_tac n = 1 in realpow_increasing)
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   385
apply (auto simp add: numeral_2_eq_2 [symmetric] real_sqrt_ge_zero simp 
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diff changeset
   386
            del: realpow_Suc)
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   387
done
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diff changeset
   388
14324
c9c6832f9b22 converting Hyperreal/NthRoot to Isar
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parents: 14268
diff changeset
   389
end