isabelle: src/HOL/Library/NthRoot_Limits.thy@d8966c09025c (annotated)

57025 e7fd64f82876 add various lemmas hoelzl parents: diff changeset	1	theory NthRoot_Limits
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	2	imports Complex_Main "~~/src/HOL/Number_Theory/Binomial"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	3	begin
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	4
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	5	text {*
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	6
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	7	This does not fit into @{text Complex_Main}, as it depends on @{text Binomial}
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	8
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	9	*}
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	10
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	11	lemma LIMSEQ_root: "(\<lambda>n. root n n) ----> 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	12	proof -
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	13	def x \<equiv> "\<lambda>n. root n n - 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	14	have "x ----> sqrt 0"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	15	proof (rule tendsto_sandwich[OF _ _ tendsto_const])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	16	show "(\<lambda>x. sqrt (2 / x)) ----> sqrt 0"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	17	by (intro tendsto_intros tendsto_divide_0[OF tendsto_const] filterlim_mono[OF filterlim_real_sequentially])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	18	(simp_all add: at_infinity_eq_at_top_bot)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	19	{ fix n :: nat assume "2 < n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	20	have "1 + (real (n - 1) * n) / 2 * x n^2 = 1 + of_nat (n choose 2) * x n^2"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	21	using `2 < n` unfolding gbinomial_def binomial_gbinomial
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	22	by (simp add: atLeast0AtMost atMost_Suc field_simps real_of_nat_diff numeral_2_eq_2 real_eq_of_nat[symmetric])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	23	also have "\<dots> \<le> (\<Sum>k\<in>{0, 2}. of_nat (n choose k) * x n^k)"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	24	by (simp add: x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	25	also have "\<dots> \<le> (\<Sum>k=0..n. of_nat (n choose k) * x n^k)"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	26	using `2 < n` by (intro setsum_mono2) (auto intro!: mult_nonneg_nonneg zero_le_power simp: x_def le_diff_eq)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	27	also have "\<dots> = (x n + 1) ^ n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	28	by (simp add: binomial_ring)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	29	also have "\<dots> = n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	30	using `2 < n` by (simp add: x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	31	finally have "real (n - 1) * (real n / 2 * (x n)\<^sup>2) \<le> real (n - 1) * 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	32	by simp
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	33	then have "(x n)\<^sup>2 \<le> 2 / real n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	34	using `2 < n` unfolding mult_le_cancel_left by (simp add: field_simps)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	35	from real_sqrt_le_mono[OF this] have "x n \<le> sqrt (2 / real n)"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	36	by simp }
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	37	then show "eventually (\<lambda>n. x n \<le> sqrt (2 / real n)) sequentially"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	38	by (auto intro!: exI[of _ 3] simp: eventually_sequentially)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	39	show "eventually (\<lambda>n. sqrt 0 \<le> x n) sequentially"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	40	by (auto intro!: exI[of _ 1] simp: eventually_sequentially le_diff_eq x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	41	qed
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	42	from tendsto_add[OF this tendsto_const[of 1]] show ?thesis
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	43	by (simp add: x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	44	qed
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	45
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	46	lemma LIMSEQ_root_const:
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	47	assumes "0 < c"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	48	shows "(\<lambda>n. root n c) ----> 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	49	proof -
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	50	{ fix c :: real assume "1 \<le> c"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	51	def x \<equiv> "\<lambda>n. root n c - 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	52	have "x ----> 0"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	53	proof (rule tendsto_sandwich[OF _ _ tendsto_const])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	54	show "(\<lambda>n. c / n) ----> 0"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	55	by (intro tendsto_divide_0[OF tendsto_const] filterlim_mono[OF filterlim_real_sequentially])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	56	(simp_all add: at_infinity_eq_at_top_bot)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	57	{ fix n :: nat assume "1 < n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	58	have "1 + x n * n = 1 + of_nat (n choose 1) * x n^1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	59	using `1 < n` unfolding gbinomial_def binomial_gbinomial by (simp add: real_eq_of_nat[symmetric])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	60	also have "\<dots> \<le> (\<Sum>k\<in>{0, 1}. of_nat (n choose k) * x n^k)"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	61	by (simp add: x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	62	also have "\<dots> \<le> (\<Sum>k=0..n. of_nat (n choose k) * x n^k)"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	63	using `1 < n` `1 \<le> c` by (intro setsum_mono2) (auto intro!: mult_nonneg_nonneg zero_le_power simp: x_def le_diff_eq)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	64	also have "\<dots> = (x n + 1) ^ n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	65	by (simp add: binomial_ring)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	66	also have "\<dots> = c"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	67	using `1 < n` `1 \<le> c` by (simp add: x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	68	finally have "x n \<le> c / n"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	69	using `1 \<le> c` `1 < n` by (simp add: field_simps) }
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	70	then show "eventually (\<lambda>n. x n \<le> c / n) sequentially"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	71	by (auto intro!: exI[of _ 3] simp: eventually_sequentially)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	72	show "eventually (\<lambda>n. 0 \<le> x n) sequentially"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	73	using `1 \<le> c` by (auto intro!: exI[of _ 1] simp: eventually_sequentially le_diff_eq x_def)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	74	qed
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	75	from tendsto_add[OF this tendsto_const[of 1]] have "(\<lambda>n. root n c) ----> 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	76	by (simp add: x_def) }
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	77	note ge_1 = this
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	78
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	79	show ?thesis
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	80	proof cases
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	81	assume "1 \<le> c" with ge_1 show ?thesis by blast
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	82	next
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	83	assume "\<not> 1 \<le> c"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	84	with `0 < c` have "1 \<le> 1 / c"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	85	by simp
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	86	then have "(\<lambda>n. 1 / root n (1 / c)) ----> 1 / 1"
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	87	by (intro tendsto_divide tendsto_const ge_1 `1 \<le> 1 / c` one_neq_zero)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	88	then show ?thesis
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	89	by (rule filterlim_cong[THEN iffD1, rotated 3])
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	90	(auto intro!: exI[of _ 1] simp: eventually_sequentially real_root_divide)
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	91	qed
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	92	qed
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	93
e7fd64f82876 add various lemmas hoelzl parents: diff changeset	94	end

author	wenzelm
	Sat, 02 Aug 2014 19:29:02 +0200
changeset 57843	d8966c09025c
parent 57025	e7fd64f82876
child 59667	651ea265d568
permissions	-rw-r--r--