| author | wenzelm |
| Sat, 29 Mar 2014 10:49:32 +0100 | |
| changeset 56316 | b1cf8ddc2e04 |
| parent 56238 | 5d147e1e18d1 |
| child 56381 | 0556204bc230 |
| permissions | -rw-r--r-- |
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(* Author : Jacques D. Fleuriot |
| 12224 | 2 |
Copyright : 2001 University of Edinburgh |
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Conversion to Isar and new proofs by Lawrence C Paulson, 2004 |
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Conversion of Mac Laurin to Isar by Lukas Bulwahn and Bernhard Häupler, 2005 |
| 12224 | 5 |
*) |
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header{*MacLaurin Series*}
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| 15131 | 9 |
theory MacLaurin |
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imports Transcendental |
| 15131 | 11 |
begin |
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12 |
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subsection{*Maclaurin's Theorem with Lagrange Form of Remainder*}
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text{*This is a very long, messy proof even now that it's been broken down
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into lemmas.*} |
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17 |
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lemma Maclaurin_lemma: |
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"0 < h ==> |
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\<exists>B. f h = (\<Sum>m<n. (j m / real (fact m)) * (h^m)) + |
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(B * ((h^n) / real(fact n)))" |
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by (rule exI[where x = "(f h - (\<Sum>m<n. (j m / real (fact m)) * h^m)) * real(fact n) / (h^n)"]) simp |
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23 |
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lemma eq_diff_eq': "(x = y - z) = (y = x + (z::real))" |
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by arith |
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| 32038 | 27 |
lemma fact_diff_Suc [rule_format]: |
28 |
"n < Suc m ==> fact (Suc m - n) = (Suc m - n) * fact (m - n)" |
|
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by (subst fact_reduce_nat, auto) |
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||
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lemma Maclaurin_lemma2: |
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fixes B |
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assumes DERIV : "\<forall>m t. m < n \<and> 0\<le>t \<and> t\<le>h \<longrightarrow> DERIV (diff m) t :> diff (Suc m) t" |
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and INIT : "n = Suc k" |
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defines "difg \<equiv> (\<lambda>m t. diff m t - ((\<Sum>p<n - m. diff (m + p) 0 / real (fact p) * t ^ p) + |
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B * (t ^ (n - m) / real (fact (n - m)))))" (is "difg \<equiv> (\<lambda>m t. diff m t - ?difg m t)") |
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bulwahn
parents:
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shows "\<forall>m t. m < n & 0 \<le> t & t \<le> h --> DERIV (difg m) t :> difg (Suc m) t" |
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proof (rule allI impI)+ |
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fix m t assume INIT2: "m < n & 0 \<le> t & t \<le> h" |
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have "DERIV (difg m) t :> diff (Suc m) t - |
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((\<Sum>x<n - m. real x * t ^ (x - Suc 0) * diff (m + x) 0 / real (fact x)) + |
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real (n - m) * t ^ (n - Suc m) * B / real (fact (n - m)))" unfolding difg_def |
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by (auto intro!: DERIV_intros DERIV[rule_format, OF INIT2]) |
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moreover |
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from INIT2 have intvl: "{..<n - m} = insert 0 (Suc ` {..<n - Suc m})" and "0 < n - m"
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unfolding atLeast0LessThan[symmetric] by auto |
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have "(\<Sum>x<n - m. real x * t ^ (x - Suc 0) * diff (m + x) 0 / real (fact x)) = |
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c726ecfb22b6
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(\<Sum>x<n - Suc m. real (Suc x) * t ^ x * diff (Suc m + x) 0 / real (fact (Suc x)))" |
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unfolding intvl atLeast0LessThan by (subst setsum.insert) (auto simp: setsum.reindex) |
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moreover |
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have fact_neq_0: "\<And>x::nat. real (fact x) + real x * real (fact x) \<noteq> 0" |
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by (metis fact_gt_zero_nat not_add_less1 real_of_nat_add real_of_nat_mult real_of_nat_zero_iff) |
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have "\<And>x. real (Suc x) * t ^ x * diff (Suc m + x) 0 / real (fact (Suc x)) = |
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diff (Suc m + x) 0 * t^x / real (fact x)" |
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by (auto simp: field_simps real_of_nat_Suc fact_neq_0 intro!: nonzero_divide_eq_eq[THEN iffD2]) |
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moreover |
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have "real (n - m) * t ^ (n - Suc m) * B / real (fact (n - m)) = |
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B * (t ^ (n - Suc m) / real (fact (n - Suc m)))" |
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using `0 < n - m` by (simp add: fact_reduce_nat) |
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ultimately show "DERIV (difg m) t :> difg (Suc m) t" |
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unfolding difg_def by simp |
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adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
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changeset
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62 |
qed |
| 32038 | 63 |
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conversion of Hyperreal/MacLaurin_lemmas to Isar script
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parents:
14738
diff
changeset
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lemma Maclaurin: |
| 29187 | 65 |
assumes h: "0 < h" |
66 |
assumes n: "0 < n" |
|
67 |
assumes diff_0: "diff 0 = f" |
|
68 |
assumes diff_Suc: |
|
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"\<forall>m t. m < n & 0 \<le> t & t \<le> h --> DERIV (diff m) t :> diff (Suc m) t" |
|
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shows |
|
71 |
"\<exists>t. 0 < t & t < h & |
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parents:
14738
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changeset
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f h = |
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setsum (%m. (diff m 0 / real (fact m)) * h ^ m) {..<n} +
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(diff n t / real (fact n)) * h ^ n" |
| 29187 | 75 |
proof - |
76 |
from n obtain m where m: "n = Suc m" |
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by (cases n) (simp add: n) |
| 29187 | 78 |
|
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obtain B where f_h: "f h = |
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(\<Sum>m<n. diff m (0\<Colon>real) / real (fact m) * h ^ m) + |
| 29187 | 81 |
B * (h ^ n / real (fact n))" |
82 |
using Maclaurin_lemma [OF h] .. |
|
83 |
||
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def g \<equiv> "(\<lambda>t. f t - |
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(setsum (\<lambda>m. (diff m 0 / real(fact m)) * t^m) {..<n}
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86 |
+ (B * (t^n / real(fact n)))))" |
| 29187 | 87 |
|
88 |
have g2: "g 0 = 0 & g h = 0" |
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by (simp add: m f_h g_def lessThan_Suc_eq_insert_0 image_iff diff_0 setsum_reindex) |
| 29187 | 90 |
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91 |
def difg \<equiv> "(%m t. diff m t - |
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92 |
(setsum (%p. (diff (m + p) 0 / real (fact p)) * (t ^ p)) {..<n-m}
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|
93 |
+ (B * ((t ^ (n - m)) / real (fact (n - m))))))" |
| 29187 | 94 |
|
95 |
have difg_0: "difg 0 = g" |
|
96 |
unfolding difg_def g_def by (simp add: diff_0) |
|
97 |
||
98 |
have difg_Suc: "\<forall>(m\<Colon>nat) t\<Colon>real. |
|
99 |
m < n \<and> (0\<Colon>real) \<le> t \<and> t \<le> h \<longrightarrow> DERIV (difg m) t :> difg (Suc m) t" |
|
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|
100 |
using diff_Suc m unfolding difg_def by (rule Maclaurin_lemma2) |
| 29187 | 101 |
|
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|
102 |
have difg_eq_0: "\<forall>m<n. difg m 0 = 0" |
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c726ecfb22b6
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hoelzl
parents:
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|
103 |
by (auto simp: difg_def m Suc_diff_le lessThan_Suc_eq_insert_0 image_iff setsum_reindex) |
| 29187 | 104 |
|
105 |
have isCont_difg: "\<And>m x. \<lbrakk>m < n; 0 \<le> x; x \<le> h\<rbrakk> \<Longrightarrow> isCont (difg m) x" |
|
106 |
by (rule DERIV_isCont [OF difg_Suc [rule_format]]) simp |
|
107 |
||
108 |
have differentiable_difg: |
|
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hoelzl
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changeset
|
109 |
"\<And>m x. \<lbrakk>m < n; 0 \<le> x; x \<le> h\<rbrakk> \<Longrightarrow> difg m differentiable (at x)" |
| 29187 | 110 |
by (rule differentiableI [OF difg_Suc [rule_format]]) simp |
111 |
||
112 |
have difg_Suc_eq_0: "\<And>m t. \<lbrakk>m < n; 0 \<le> t; t \<le> h; DERIV (difg m) t :> 0\<rbrakk> |
|
113 |
\<Longrightarrow> difg (Suc m) t = 0" |
|
114 |
by (rule DERIV_unique [OF difg_Suc [rule_format]]) simp |
|
115 |
||
116 |
have "m < n" using m by simp |
|
117 |
||
118 |
have "\<exists>t. 0 < t \<and> t < h \<and> DERIV (difg m) t :> 0" |
|
119 |
using `m < n` |
|
120 |
proof (induct m) |
|
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|
121 |
case 0 |
| 29187 | 122 |
show ?case |
123 |
proof (rule Rolle) |
|
124 |
show "0 < h" by fact |
|
125 |
show "difg 0 0 = difg 0 h" by (simp add: difg_0 g2) |
|
126 |
show "\<forall>x. 0 \<le> x \<and> x \<le> h \<longrightarrow> isCont (difg (0\<Colon>nat)) x" |
|
127 |
by (simp add: isCont_difg n) |
|
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hoelzl
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changeset
|
128 |
show "\<forall>x. 0 < x \<and> x < h \<longrightarrow> difg (0\<Colon>nat) differentiable (at x)" |
| 29187 | 129 |
by (simp add: differentiable_difg n) |
130 |
qed |
|
131 |
next |
|
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|
132 |
case (Suc m') |
| 29187 | 133 |
hence "\<exists>t. 0 < t \<and> t < h \<and> DERIV (difg m') t :> 0" by simp |
134 |
then obtain t where t: "0 < t" "t < h" "DERIV (difg m') t :> 0" by fast |
|
135 |
have "\<exists>t'. 0 < t' \<and> t' < t \<and> DERIV (difg (Suc m')) t' :> 0" |
|
136 |
proof (rule Rolle) |
|
137 |
show "0 < t" by fact |
|
138 |
show "difg (Suc m') 0 = difg (Suc m') t" |
|
139 |
using t `Suc m' < n` by (simp add: difg_Suc_eq_0 difg_eq_0) |
|
140 |
show "\<forall>x. 0 \<le> x \<and> x \<le> t \<longrightarrow> isCont (difg (Suc m')) x" |
|
141 |
using `t < h` `Suc m' < n` by (simp add: isCont_difg) |
|
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|
142 |
show "\<forall>x. 0 < x \<and> x < t \<longrightarrow> difg (Suc m') differentiable (at x)" |
| 29187 | 143 |
using `t < h` `Suc m' < n` by (simp add: differentiable_difg) |
144 |
qed |
|
145 |
thus ?case |
|
146 |
using `t < h` by auto |
|
147 |
qed |
|
148 |
||
149 |
then obtain t where "0 < t" "t < h" "DERIV (difg m) t :> 0" by fast |
|
150 |
||
151 |
hence "difg (Suc m) t = 0" |
|
152 |
using `m < n` by (simp add: difg_Suc_eq_0) |
|
153 |
||
154 |
show ?thesis |
|
155 |
proof (intro exI conjI) |
|
156 |
show "0 < t" by fact |
|
157 |
show "t < h" by fact |
|
158 |
show "f h = |
|
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(\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + |
| 29187 | 160 |
diff n t / real (fact n) * h ^ n" |
161 |
using `difg (Suc m) t = 0` |
|
| 32047 | 162 |
by (simp add: m f_h difg_def del: fact_Suc) |
| 29187 | 163 |
qed |
164 |
qed |
|
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165 |
|
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lemma Maclaurin_objl: |
| 25162 | 167 |
"0 < h & n>0 & diff 0 = f & |
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(\<forall>m t. m < n & 0 \<le> t & t \<le> h --> DERIV (diff m) t :> diff (Suc m) t) |
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--> (\<exists>t. 0 < t & t < h & |
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f h = (\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + |
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diff n t / real (fact n) * h ^ n)" |
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172 |
by (blast intro: Maclaurin) |
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173 |
|
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174 |
|
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lemma Maclaurin2: |
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176 |
assumes INIT1: "0 < h " and INIT2: "diff 0 = f" |
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and DERIV: "\<forall>m t. |
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m < n & 0 \<le> t & t \<le> h --> DERIV (diff m) t :> diff (Suc m) t" |
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179 |
shows "\<exists>t. 0 < t \<and> t \<le> h \<and> f h = |
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(\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + |
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diff n t / real (fact n) * h ^ n" |
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182 |
proof (cases "n") |
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183 |
case 0 with INIT1 INIT2 show ?thesis by fastforce |
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184 |
next |
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185 |
case Suc |
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hence "n > 0" by simp |
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187 |
from INIT1 this INIT2 DERIV have "\<exists>t>0. t < h \<and> |
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f h = |
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(\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + diff n t / real (fact n) * h ^ n" |
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by (rule Maclaurin) |
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191 |
thus ?thesis by fastforce |
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192 |
qed |
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193 |
|
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194 |
lemma Maclaurin2_objl: |
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195 |
"0 < h & diff 0 = f & |
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196 |
(\<forall>m t. |
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197 |
m < n & 0 \<le> t & t \<le> h --> DERIV (diff m) t :> diff (Suc m) t) |
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198 |
--> (\<exists>t. 0 < t & |
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199 |
t \<le> h & |
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200 |
f h = |
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201 |
(\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + |
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202 |
diff n t / real (fact n) * h ^ n)" |
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203 |
by (blast intro: Maclaurin2) |
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204 |
|
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205 |
lemma Maclaurin_minus: |
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206 |
assumes "h < 0" "0 < n" "diff 0 = f" |
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207 |
and DERIV: "\<forall>m t. m < n & h \<le> t & t \<le> 0 --> DERIV (diff m) t :> diff (Suc m) t" |
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208 |
shows "\<exists>t. h < t & t < 0 & |
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209 |
f h = (\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + |
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210 |
diff n t / real (fact n) * h ^ n" |
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211 |
proof - |
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212 |
txt "Transform @{text ABL'} into @{text DERIV_intros} format."
|
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213 |
note DERIV' = DERIV_chain'[OF _ DERIV[rule_format], THEN DERIV_cong] |
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214 |
from assms |
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215 |
have "\<exists>t>0. t < - h \<and> |
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216 |
f (- (- h)) = |
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217 |
(\<Sum>m<n. |
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218 |
(- 1) ^ m * diff m (- 0) / real (fact m) * (- h) ^ m) + |
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219 |
(- 1) ^ n * diff n (- t) / real (fact n) * (- h) ^ n" |
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220 |
by (intro Maclaurin) (auto intro!: DERIV_intros DERIV') |
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221 |
then guess t .. |
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222 |
moreover |
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223 |
have "-1 ^ n * diff n (- t) * (- h) ^ n / real (fact n) = diff n (- t) * h ^ n / real (fact n)" |
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224 |
by (auto simp add: power_mult_distrib[symmetric]) |
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225 |
moreover |
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226 |
have "(SUM m<n. -1 ^ m * diff m 0 * (- h) ^ m / real (fact m)) = (SUM m<n. diff m 0 * h ^ m / real (fact m))" |
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227 |
by (auto intro: setsum_cong simp add: power_mult_distrib[symmetric]) |
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228 |
ultimately have " h < - t \<and> |
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229 |
- t < 0 \<and> |
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230 |
f h = |
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231 |
(\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + diff n (- t) / real (fact n) * h ^ n" |
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232 |
by auto |
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233 |
thus ?thesis .. |
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234 |
qed |
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235 |
|
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236 |
lemma Maclaurin_minus_objl: |
| 25162 | 237 |
"(h < 0 & n > 0 & diff 0 = f & |
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238 |
(\<forall>m t. |
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239 |
m < n & h \<le> t & t \<le> 0 --> DERIV (diff m) t :> diff (Suc m) t)) |
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240 |
--> (\<exists>t. h < t & |
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241 |
t < 0 & |
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242 |
f h = |
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243 |
(\<Sum>m<n. diff m 0 / real (fact m) * h ^ m) + |
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244 |
diff n t / real (fact n) * h ^ n)" |
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245 |
by (blast intro: Maclaurin_minus) |
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246 |
|
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247 |
|
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248 |
subsection{*More Convenient "Bidirectional" Version.*}
|
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249 |
|
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250 |
(* not good for PVS sin_approx, cos_approx *) |
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251 |
|
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252 |
lemma Maclaurin_bi_le_lemma [rule_format]: |
| 25162 | 253 |
"n>0 \<longrightarrow> |
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254 |
diff 0 0 = |
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255 |
(\<Sum>m<n. diff m 0 * 0 ^ m / real (fact m)) + |
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256 |
diff n 0 * 0 ^ n / real (fact n)" |
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257 |
by (induct "n") auto |
| 14738 | 258 |
|
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259 |
lemma Maclaurin_bi_le: |
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260 |
assumes "diff 0 = f" |
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261 |
and DERIV : "\<forall>m t. m < n & abs t \<le> abs x --> DERIV (diff m) t :> diff (Suc m) t" |
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262 |
shows "\<exists>t. abs t \<le> abs x & |
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263 |
f x = |
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264 |
(\<Sum>m<n. diff m 0 / real (fact m) * x ^ m) + |
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265 |
diff n t / real (fact n) * x ^ n" (is "\<exists>t. _ \<and> f x = ?f x t") |
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266 |
proof cases |
|
4b2a457b17e8
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hoelzl
parents:
41120
diff
changeset
|
267 |
assume "n = 0" with `diff 0 = f` show ?thesis by force |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
268 |
next |
|
41166
4b2a457b17e8
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hoelzl
parents:
41120
diff
changeset
|
269 |
assume "n \<noteq> 0" |
|
4b2a457b17e8
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hoelzl
parents:
41120
diff
changeset
|
270 |
show ?thesis |
|
4b2a457b17e8
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hoelzl
parents:
41120
diff
changeset
|
271 |
proof (cases rule: linorder_cases) |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
272 |
assume "x = 0" with `n \<noteq> 0` `diff 0 = f` DERIV |
|
56238
5d147e1e18d1
a few new lemmas and generalisations of old ones
paulson <lp15@cam.ac.uk>
parents:
56193
diff
changeset
|
273 |
have "\<bar>0\<bar> \<le> \<bar>x\<bar> \<and> f x = ?f x 0" by (auto simp add: Maclaurin_bi_le_lemma) |
|
41166
4b2a457b17e8
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hoelzl
parents:
41120
diff
changeset
|
274 |
thus ?thesis .. |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
275 |
next |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
276 |
assume "x < 0" |
|
4b2a457b17e8
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hoelzl
parents:
41120
diff
changeset
|
277 |
with `n \<noteq> 0` DERIV |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
278 |
have "\<exists>t>x. t < 0 \<and> diff 0 x = ?f x t" by (intro Maclaurin_minus) auto |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
279 |
then guess t .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
280 |
with `x < 0` `diff 0 = f` have "\<bar>t\<bar> \<le> \<bar>x\<bar> \<and> f x = ?f x t" by simp |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
281 |
thus ?thesis .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
282 |
next |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
283 |
assume "x > 0" |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
284 |
with `n \<noteq> 0` `diff 0 = f` DERIV |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
285 |
have "\<exists>t>0. t < x \<and> diff 0 x = ?f x t" by (intro Maclaurin) auto |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
286 |
then guess t .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
287 |
with `x > 0` `diff 0 = f` have "\<bar>t\<bar> \<le> \<bar>x\<bar> \<and> f x = ?f x t" by simp |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
288 |
thus ?thesis .. |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
289 |
qed |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
290 |
qed |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
291 |
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
292 |
lemma Maclaurin_all_lt: |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
293 |
assumes INIT1: "diff 0 = f" and INIT2: "0 < n" and INIT3: "x \<noteq> 0" |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
294 |
and DERIV: "\<forall>m x. DERIV (diff m) x :> diff(Suc m) x" |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
295 |
shows "\<exists>t. 0 < abs t & abs t < abs x & f x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
296 |
(\<Sum>m<n. (diff m 0 / real (fact m)) * x ^ m) + |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
297 |
(diff n t / real (fact n)) * x ^ n" (is "\<exists>t. _ \<and> _ \<and> f x = ?f x t") |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
298 |
proof (cases rule: linorder_cases) |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
299 |
assume "x = 0" with INIT3 show "?thesis".. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
300 |
next |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
301 |
assume "x < 0" |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
302 |
with assms have "\<exists>t>x. t < 0 \<and> f x = ?f x t" by (intro Maclaurin_minus) auto |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
303 |
then guess t .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
304 |
with `x < 0` have "0 < \<bar>t\<bar> \<and> \<bar>t\<bar> < \<bar>x\<bar> \<and> f x = ?f x t" by simp |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
305 |
thus ?thesis .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
306 |
next |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
307 |
assume "x > 0" |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
308 |
with assms have "\<exists>t>0. t < x \<and> f x = ?f x t " by (intro Maclaurin) auto |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
309 |
then guess t .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
310 |
with `x > 0` have "0 < \<bar>t\<bar> \<and> \<bar>t\<bar> < \<bar>x\<bar> \<and> f x = ?f x t" by simp |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
311 |
thus ?thesis .. |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
312 |
qed |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
313 |
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
314 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
315 |
lemma Maclaurin_all_lt_objl: |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
316 |
"diff 0 = f & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
317 |
(\<forall>m x. DERIV (diff m) x :> diff(Suc m) x) & |
| 25162 | 318 |
x ~= 0 & n > 0 |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
319 |
--> (\<exists>t. 0 < abs t & abs t < abs x & |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
320 |
f x = (\<Sum>m<n. (diff m 0 / real (fact m)) * x ^ m) + |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
321 |
(diff n t / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
322 |
by (blast intro: Maclaurin_all_lt) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
323 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
324 |
lemma Maclaurin_zero [rule_format]: |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
325 |
"x = (0::real) |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
326 |
==> n \<noteq> 0 --> |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
327 |
(\<Sum>m<n. (diff m (0::real) / real (fact m)) * x ^ m) = |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
328 |
diff 0 0" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
329 |
by (induct n, auto) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
330 |
|
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
331 |
|
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
332 |
lemma Maclaurin_all_le: |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
333 |
assumes INIT: "diff 0 = f" |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
334 |
and DERIV: "\<forall>m x. DERIV (diff m) x :> diff (Suc m) x" |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
335 |
shows "\<exists>t. abs t \<le> abs x & f x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
336 |
(\<Sum>m<n. (diff m 0 / real (fact m)) * x ^ m) + |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
337 |
(diff n t / real (fact n)) * x ^ n" (is "\<exists>t. _ \<and> f x = ?f x t") |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
338 |
proof cases |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
339 |
assume "n = 0" with INIT show ?thesis by force |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
340 |
next |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
341 |
assume "n \<noteq> 0" |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
342 |
show ?thesis |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
343 |
proof cases |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
344 |
assume "x = 0" |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
345 |
with `n \<noteq> 0` have "(\<Sum>m<n. diff m 0 / real (fact m) * x ^ m) = diff 0 0" |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
346 |
by (intro Maclaurin_zero) auto |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
347 |
with INIT `x = 0` `n \<noteq> 0` have " \<bar>0\<bar> \<le> \<bar>x\<bar> \<and> f x = ?f x 0" by force |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
348 |
thus ?thesis .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
349 |
next |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
350 |
assume "x \<noteq> 0" |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
351 |
with INIT `n \<noteq> 0` DERIV have "\<exists>t. 0 < \<bar>t\<bar> \<and> \<bar>t\<bar> < \<bar>x\<bar> \<and> f x = ?f x t" |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
352 |
by (intro Maclaurin_all_lt) auto |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
353 |
then guess t .. |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
354 |
hence "\<bar>t\<bar> \<le> \<bar>x\<bar> \<and> f x = ?f x t" by simp |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
355 |
thus ?thesis .. |
|
41120
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
356 |
qed |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
357 |
qed |
|
74e41b2d48ea
adding an Isar version of the MacLaurin theorem from some students' work in 2005
bulwahn
parents:
36974
diff
changeset
|
358 |
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
359 |
lemma Maclaurin_all_le_objl: "diff 0 = f & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
360 |
(\<forall>m x. DERIV (diff m) x :> diff (Suc m) x) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
361 |
--> (\<exists>t. abs t \<le> abs x & |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
362 |
f x = (\<Sum>m<n. (diff m 0 / real (fact m)) * x ^ m) + |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
363 |
(diff n t / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
364 |
by (blast intro: Maclaurin_all_le) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
365 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
366 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
367 |
subsection{*Version for Exponential Function*}
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
368 |
|
| 25162 | 369 |
lemma Maclaurin_exp_lt: "[| x ~= 0; n > 0 |] |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
370 |
==> (\<exists>t. 0 < abs t & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
371 |
abs t < abs x & |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
372 |
exp x = (\<Sum>m<n. (x ^ m) / real (fact m)) + |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
373 |
(exp t / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
374 |
by (cut_tac diff = "%n. exp" and f = exp and x = x and n = n in Maclaurin_all_lt_objl, auto) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
375 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
376 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
377 |
lemma Maclaurin_exp_le: |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
378 |
"\<exists>t. abs t \<le> abs x & |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
379 |
exp x = (\<Sum>m<n. (x ^ m) / real (fact m)) + |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
380 |
(exp t / real (fact n)) * x ^ n" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
381 |
by (cut_tac diff = "%n. exp" and f = exp and x = x and n = n in Maclaurin_all_le_objl, auto) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
382 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
383 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
384 |
subsection{*Version for Sine Function*}
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
385 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
386 |
lemma mod_exhaust_less_4: |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
387 |
"m mod 4 = 0 | m mod 4 = 1 | m mod 4 = 2 | m mod 4 = (3::nat)" |
|
20217
25b068a99d2b
linear arithmetic splits certain operators (e.g. min, max, abs)
webertj
parents:
19765
diff
changeset
|
388 |
by auto |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
389 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
390 |
lemma Suc_Suc_mult_two_diff_two [rule_format, simp]: |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
391 |
"n\<noteq>0 --> Suc (Suc (2 * n - 2)) = 2*n" |
| 15251 | 392 |
by (induct "n", auto) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
393 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
394 |
lemma lemma_Suc_Suc_4n_diff_2 [rule_format, simp]: |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
395 |
"n\<noteq>0 --> Suc (Suc (4*n - 2)) = 4*n" |
| 15251 | 396 |
by (induct "n", auto) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
397 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
398 |
lemma Suc_mult_two_diff_one [rule_format, simp]: |
|
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25112
diff
changeset
|
399 |
"n\<noteq>0 --> Suc (2 * n - 1) = 2*n" |
| 15251 | 400 |
by (induct "n", auto) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
401 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
402 |
|
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
403 |
text{*It is unclear why so many variant results are needed.*}
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
404 |
|
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
405 |
lemma sin_expansion_lemma: |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
406 |
"sin (x + real (Suc m) * pi / 2) = |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
407 |
cos (x + real (m) * pi / 2)" |
|
49962
a8cc904a6820
Renamed {left,right}_distrib to distrib_{right,left}.
webertj
parents:
44890
diff
changeset
|
408 |
by (simp only: cos_add sin_add real_of_nat_Suc add_divide_distrib distrib_right, auto) |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
409 |
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
410 |
lemma Maclaurin_sin_expansion2: |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
411 |
"\<exists>t. abs t \<le> abs x & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
412 |
sin x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
413 |
(\<Sum>m<n. sin_coeff m * x ^ m) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
414 |
+ ((sin(t + 1/2 * real (n) *pi) / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
415 |
apply (cut_tac f = sin and n = n and x = x |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
416 |
and diff = "%n x. sin (x + 1/2*real n * pi)" in Maclaurin_all_lt_objl) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
417 |
apply safe |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
418 |
apply (simp (no_asm)) |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
419 |
apply (simp (no_asm) add: sin_expansion_lemma) |
|
44308
d2a6f9af02f4
Transcendental.thy: remove several unused lemmas and simplify some proofs
huffman
parents:
44306
diff
changeset
|
420 |
apply (force intro!: DERIV_intros) |
| 51489 | 421 |
apply (subst (asm) setsum_0', clarify, case_tac "x", simp, simp) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
422 |
apply (cases n, simp, simp) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
423 |
apply (rule ccontr, simp) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
424 |
apply (drule_tac x = x in spec, simp) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
425 |
apply (erule ssubst) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
426 |
apply (rule_tac x = t in exI, simp) |
| 15536 | 427 |
apply (rule setsum_cong[OF refl]) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
428 |
apply (auto simp add: sin_coeff_def sin_zero_iff odd_Suc_mult_two_ex) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
429 |
done |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
430 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
431 |
lemma Maclaurin_sin_expansion: |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
432 |
"\<exists>t. sin x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
433 |
(\<Sum>m<n. sin_coeff m * x ^ m) |
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
434 |
+ ((sin(t + 1/2 * real (n) *pi) / real (fact n)) * x ^ n)" |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
435 |
apply (insert Maclaurin_sin_expansion2 [of x n]) |
|
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
436 |
apply (blast intro: elim:) |
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
437 |
done |
|
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
438 |
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
439 |
lemma Maclaurin_sin_expansion3: |
| 25162 | 440 |
"[| n > 0; 0 < x |] ==> |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
441 |
\<exists>t. 0 < t & t < x & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
442 |
sin x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
443 |
(\<Sum>m<n. sin_coeff m * x ^ m) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
444 |
+ ((sin(t + 1/2 * real(n) *pi) / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
445 |
apply (cut_tac f = sin and n = n and h = x and diff = "%n x. sin (x + 1/2*real (n) *pi)" in Maclaurin_objl) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
446 |
apply safe |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
447 |
apply simp |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
448 |
apply (simp (no_asm) add: sin_expansion_lemma) |
|
44308
d2a6f9af02f4
Transcendental.thy: remove several unused lemmas and simplify some proofs
huffman
parents:
44306
diff
changeset
|
449 |
apply (force intro!: DERIV_intros) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
450 |
apply (erule ssubst) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
451 |
apply (rule_tac x = t in exI, simp) |
| 15536 | 452 |
apply (rule setsum_cong[OF refl]) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
453 |
apply (auto simp add: sin_coeff_def sin_zero_iff odd_Suc_mult_two_ex) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
454 |
done |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
455 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
456 |
lemma Maclaurin_sin_expansion4: |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
457 |
"0 < x ==> |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
458 |
\<exists>t. 0 < t & t \<le> x & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
459 |
sin x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
460 |
(\<Sum>m<n. sin_coeff m * x ^ m) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
461 |
+ ((sin(t + 1/2 * real (n) *pi) / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
462 |
apply (cut_tac f = sin and n = n and h = x and diff = "%n x. sin (x + 1/2*real (n) *pi)" in Maclaurin2_objl) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
463 |
apply safe |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
464 |
apply simp |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
465 |
apply (simp (no_asm) add: sin_expansion_lemma) |
|
44308
d2a6f9af02f4
Transcendental.thy: remove several unused lemmas and simplify some proofs
huffman
parents:
44306
diff
changeset
|
466 |
apply (force intro!: DERIV_intros) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
467 |
apply (erule ssubst) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
468 |
apply (rule_tac x = t in exI, simp) |
| 15536 | 469 |
apply (rule setsum_cong[OF refl]) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
470 |
apply (auto simp add: sin_coeff_def sin_zero_iff odd_Suc_mult_two_ex) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
471 |
done |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
472 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
473 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
474 |
subsection{*Maclaurin Expansion for Cosine Function*}
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
475 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
476 |
lemma sumr_cos_zero_one [simp]: |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
477 |
"(\<Sum>m<(Suc n). cos_coeff m * 0 ^ m) = 1" |
| 15251 | 478 |
by (induct "n", auto) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
479 |
|
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
480 |
lemma cos_expansion_lemma: |
|
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
481 |
"cos (x + real(Suc m) * pi / 2) = -sin (x + real m * pi / 2)" |
|
49962
a8cc904a6820
Renamed {left,right}_distrib to distrib_{right,left}.
webertj
parents:
44890
diff
changeset
|
482 |
by (simp only: cos_add sin_add real_of_nat_Suc distrib_right add_divide_distrib, auto) |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
483 |
|
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
484 |
lemma Maclaurin_cos_expansion: |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
485 |
"\<exists>t. abs t \<le> abs x & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
486 |
cos x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
487 |
(\<Sum>m<n. cos_coeff m * x ^ m) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
488 |
+ ((cos(t + 1/2 * real (n) *pi) / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
489 |
apply (cut_tac f = cos and n = n and x = x and diff = "%n x. cos (x + 1/2*real (n) *pi)" in Maclaurin_all_lt_objl) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
490 |
apply safe |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
491 |
apply (simp (no_asm)) |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
492 |
apply (simp (no_asm) add: cos_expansion_lemma) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
493 |
apply (case_tac "n", simp) |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
494 |
apply (simp del: setsum_lessThan_Suc) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
495 |
apply (rule ccontr, simp) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
496 |
apply (drule_tac x = x in spec, simp) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
497 |
apply (erule ssubst) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
498 |
apply (rule_tac x = t in exI, simp) |
| 15536 | 499 |
apply (rule setsum_cong[OF refl]) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
500 |
apply (auto simp add: cos_coeff_def cos_zero_iff even_mult_two_ex) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
501 |
done |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
502 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
503 |
lemma Maclaurin_cos_expansion2: |
| 25162 | 504 |
"[| 0 < x; n > 0 |] ==> |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
505 |
\<exists>t. 0 < t & t < x & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
506 |
cos x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
507 |
(\<Sum>m<n. cos_coeff m * x ^ m) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
508 |
+ ((cos(t + 1/2 * real (n) *pi) / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
509 |
apply (cut_tac f = cos and n = n and h = x and diff = "%n x. cos (x + 1/2*real (n) *pi)" in Maclaurin_objl) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
510 |
apply safe |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
511 |
apply simp |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
512 |
apply (simp (no_asm) add: cos_expansion_lemma) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
513 |
apply (erule ssubst) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
514 |
apply (rule_tac x = t in exI, simp) |
| 15536 | 515 |
apply (rule setsum_cong[OF refl]) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
516 |
apply (auto simp add: cos_coeff_def cos_zero_iff even_mult_two_ex) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
517 |
done |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
518 |
|
|
15234
ec91a90c604e
simplification tweaks for better arithmetic reasoning
paulson
parents:
15229
diff
changeset
|
519 |
lemma Maclaurin_minus_cos_expansion: |
| 25162 | 520 |
"[| x < 0; n > 0 |] ==> |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
521 |
\<exists>t. x < t & t < 0 & |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
522 |
cos x = |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
523 |
(\<Sum>m<n. cos_coeff m * x ^ m) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
524 |
+ ((cos(t + 1/2 * real (n) *pi) / real (fact n)) * x ^ n)" |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
525 |
apply (cut_tac f = cos and n = n and h = x and diff = "%n x. cos (x + 1/2*real (n) *pi)" in Maclaurin_minus_objl) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
526 |
apply safe |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
527 |
apply simp |
|
36974
b877866b5b00
remove some unnamed simp rules from Transcendental.thy; move the needed ones to MacLaurin.thy where they are used
huffman
parents:
32047
diff
changeset
|
528 |
apply (simp (no_asm) add: cos_expansion_lemma) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
529 |
apply (erule ssubst) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
530 |
apply (rule_tac x = t in exI, simp) |
| 15536 | 531 |
apply (rule setsum_cong[OF refl]) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
532 |
apply (auto simp add: cos_coeff_def cos_zero_iff even_mult_two_ex) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
533 |
done |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
534 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
535 |
(* ------------------------------------------------------------------------- *) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
536 |
(* Version for ln(1 +/- x). Where is it?? *) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
537 |
(* ------------------------------------------------------------------------- *) |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
538 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
539 |
lemma sin_bound_lemma: |
| 15081 | 540 |
"[|x = y; abs u \<le> (v::real) |] ==> \<bar>(x + u) - y\<bar> \<le> v" |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
541 |
by auto |
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
542 |
|
|
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
543 |
lemma Maclaurin_sin_bound: |
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
544 |
"abs(sin x - (\<Sum>m<n. sin_coeff m * x ^ m)) |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
545 |
\<le> inverse(real (fact n)) * \<bar>x\<bar> ^ n" |
| 14738 | 546 |
proof - |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
547 |
have "!! x (y::real). x \<le> 1 \<Longrightarrow> 0 \<le> y \<Longrightarrow> x * y \<le> 1 * y" |
| 14738 | 548 |
by (rule_tac mult_right_mono,simp_all) |
549 |
note est = this[simplified] |
|
| 22985 | 550 |
let ?diff = "\<lambda>(n::nat) x. if n mod 4 = 0 then sin(x) else if n mod 4 = 1 then cos(x) else if n mod 4 = 2 then -sin(x) else -cos(x)" |
551 |
have diff_0: "?diff 0 = sin" by simp |
|
552 |
have DERIV_diff: "\<forall>m x. DERIV (?diff m) x :> ?diff (Suc m) x" |
|
553 |
apply (clarify) |
|
554 |
apply (subst (1 2 3) mod_Suc_eq_Suc_mod) |
|
555 |
apply (cut_tac m=m in mod_exhaust_less_4) |
|
| 31881 | 556 |
apply (safe, auto intro!: DERIV_intros) |
| 22985 | 557 |
done |
558 |
from Maclaurin_all_le [OF diff_0 DERIV_diff] |
|
559 |
obtain t where t1: "\<bar>t\<bar> \<le> \<bar>x\<bar>" and |
|
|
56193
c726ecfb22b6
cleanup Series: sorted according to typeclass hierarchy, use {..<_} instead of {0..<_}
hoelzl
parents:
56181
diff
changeset
|
560 |
t2: "sin x = (\<Sum>m<n. ?diff m 0 / real (fact m) * x ^ m) + |
| 22985 | 561 |
?diff n t / real (fact n) * x ^ n" by fast |
562 |
have diff_m_0: |
|
563 |
"\<And>m. ?diff m 0 = (if even m then 0 |
|
| 23177 | 564 |
else -1 ^ ((m - Suc 0) div 2))" |
| 22985 | 565 |
apply (subst even_even_mod_4_iff) |
566 |
apply (cut_tac m=m in mod_exhaust_less_4) |
|
567 |
apply (elim disjE, simp_all) |
|
568 |
apply (safe dest!: mod_eqD, simp_all) |
|
569 |
done |
|
| 14738 | 570 |
show ?thesis |
|
44306
33572a766836
fold definitions of sin_coeff and cos_coeff in Maclaurin lemmas
huffman
parents:
41166
diff
changeset
|
571 |
unfolding sin_coeff_def |
| 22985 | 572 |
apply (subst t2) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
573 |
apply (rule sin_bound_lemma) |
| 15536 | 574 |
apply (rule setsum_cong[OF refl]) |
| 22985 | 575 |
apply (subst diff_m_0, simp) |
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
576 |
apply (auto intro: mult_right_mono [where b=1, simplified] mult_right_mono |
|
41166
4b2a457b17e8
beautify MacLaurin proofs; make better use of DERIV_intros
hoelzl
parents:
41120
diff
changeset
|
577 |
simp add: est mult_nonneg_nonneg mult_ac divide_inverse |
| 16924 | 578 |
power_abs [symmetric] abs_mult) |
| 14738 | 579 |
done |
580 |
qed |
|
581 |
||
|
15079
2ef899e4526d
conversion of Hyperreal/MacLaurin_lemmas to Isar script
paulson
parents:
14738
diff
changeset
|
582 |
end |