■初等関数研究所■
■ このスレッドは過去ログ倉庫に格納されています
初等関数(しょとうかんすう、英: Elementary function)とは、 実数または複素数の1変数関数で、代数関数、指数関数、対数関数、 三角関数、逆三角関数および、それらの合成関数を作ることを 有限回繰り返して得られる関数のことである ガンマ関数、楕円関数、ベッセル関数、誤差関数などは初等関数でない 初等関数のうちで代数関数でないものを初等超越関数という 双曲線関数やその逆関数も初等関数である 初等関数の導関数はつねに初等関数になる
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ABCD EFGH I JK L P1st Q1st even [1,] 0 0 1 [2,] 4 5 6 [3,] 26 27 13 [4,] 84 83 23 [5,] 203 197 35 [6,] 413 398 50 [7,] 751 722 67 [8,] 1259 1210 87 [9,] 1986 1910 109 [10,] 2986 2875 134 完全追尾型多項式が完成しました 宝の個数は2 P1st={12n^4+28n^3-42n^2-52n-3(-1)^n+51}/48 Q1st={12n^4+20n^3-18n^2-20n-3(-1)^n+3}/48 even={10n^2+8n+(-1)^n-9}/8 ■Wolframに入力すると既約分数表示になるので御注意 P1st/Q1st =8(n-1){(n-2)n-6}/{2n(n+2)(6n^2-2n-5)-3(-1)^n+3}+1 P1stとQ1stは、『宝一つの時の自陣当たり数』の二乗と それぞれの差分を表す関数の和で求められる ■P1stを求める 宝一つの時の自陣当たり数 n(n+1)/2-1 ……@ P1stは@^2と差分の和 差分は0 0 1 3 7 13 22 34 50 70 95 125 161 203 252 308 372 444 525 615…… それを表す関数 (4n^3-6n^2-4n-3(-1)^n+3)/48 ……A 計算知能で@^2+Aを入力すると P1st={12n^4+28n^3-42n^2-52n-3(-1)^n+51}/48 ■Q1stを求める 宝一つの時の自陣当たり数 n(n+1)/2-1 ……@ Q1stは@^2と差分の和 差分は0 1 2 2 1 -2 -7 -15 -26 -41 -60 -84 -113 -148 -189…… それを表す関数は (-4n^3+18n^2+28n-3(-1)^n-45)/48 ……B 計算知能で@^2+Bを入力すると Q1st={12n^4+20n^3-18n^2-20n-3(-1)^n+3}/48 ■evenを求める evenは、n(n+1)-1と同着数の和 同着数は1 2 4 6 9 12 16 20 25…… これを表す関数は {2n^2-1+(-1)^(n)}/8 ……C n(n+1)-1 ……D 計算知能でC+Dを入力すると even={10n^2+8n+(-1)^n-9}/8 P1st Q1st even [1,] 0 0 1 [2,] 4 5 6 [3,] 26 27 13 [4,] 84 83 23 [5,] 203 197 35 [6,] 413 398 50 [7,] 751 722 67 [8,] 1259 1210 87 [9,] 1986 1910 109 [10,] 2986 2875 134 [11,] 4320 4165 161 [12,] 6054 5845 191 [13,] 8261 7987 223 [14,] 11019 10668 258 [15,] 14413 13972 295 [16,] 18533 17988 335 [17,] 23476 22812 377 [18,] 29344 28545 422 [19,] 36246 35295 469 [20,] 44296 43175 519 Table[(12n^4+28n^3-42n^2-52n-3(-1)^n+51)/48,{n,1,20}] Table[(12n^4+20n^3-18n^2-20n-3(-1)^n+3)/48,{n,1,20}] Table[(10n^2+8n+(-1)^n-9)/8,{n,1,20}] 2n x 2n の正方形を 1 x 2 のドミノで埋める場合の数を考えます たとえば、2x2の正方形を1x2のドミノで埋める場合の数は、2通りです 4x4の正方形を1x2のドミノで埋める場合の数は、36通りです 一般に、n=0,1,2,3,,,,のとき、 1, 2, 36, 6728, 12988816, 258584046368,,, となり、一般項は、 Π[j=1 to n]Π[k=1 to n]{4cos^2 πj/(2n+1)+4cos^2 πk/(2n+1)} となるようなのですが、 どのようにその公式が導かれるのでしょうか? wikipedia https://en.wikipedia.org/wiki/Domino_tiling によると Temperley & Fisher (1961) and Kasteleyn (1961) によって独立に発見されたとある 多分元論文は Temperley, H. N. V.; Fisher, Michael E. (1961), "Dimer problem in statistical mechanics-an exact result", Philosophical Magazine, 6 (68): 1061-1063, doi:10.1080/14786436108243366 Kasteleyn, P. W. (1961), "The statistics of dimers on a lattice. I. The number of dimer arrangements on a quadratic lattice", Physica, 27 (12): 1209-1225, Bibcode:1961Phy....27.1209K, doi:10.1016/0031-8914(61)90063-5. 原論文読むのが早い これに証明載ってるかも https://inis.iaea.org/collection/NCLCollectionStore/_Public/38/098/38098203.pdf?r=1& ;r=1 Section2 A famous result of Kasteleyn [8] and Temperley and Fisher [18] counts the number of domino tilings of a chessboard (or any other rectangular region). In this section we explain Kasteleyn's proof. 「ドミノによるタイル張り」(京大・理) 36p. http://www.ms.u-tokyo.ac.jp/ ~kazushi/proceedings/domino.pdf 「長方形領域のドミノタイル張りについて」(青学大・理工) 17p. http://www.gem.aoyama.ac.jp/ ~kyo/sotsuken/2010/fujino_sotsuron_2010.pdf Table[{1-n(n-1)(n-2)(n-3)(n-4)(n-5)(n-6)(n-7)(n-8)(n-9)(n-10)(n-11)(n-12)/13!}/4,{n,0,13}] Table[(1-C(0,n-13))/4,{n,0,13}] I0qc3OXjXwBt1HD7Mt228BdYw7VinFEl43Zoc9tkhSu6hmEi1WEZ6OqB3FSe3k7L0qXrj8fNHrzBhhPTzD8WhAjrDXv1k55mQkf5uiOqjKuWUGgYFZuNZUagqAX9wNZzwaH4BlgoDtLscwycAwYQ7tuMa9CoGneWU5TXTTYEhxrUUJB0qmsR19UqgNcuwuN3oX8QyXNG 43bDtYxhwTZApiRugaYbzsFfDKZmuR212sTlb3HrYDe9jytaLBgeojHWZxPkzLDqO3djDHR4YEE7wySKMFA1WfilujRqD7izkWmcUWhFiRZrxFJAByshrPMNynEJEpGtdOg7Qx1jjMcB2nGphazIOhgkUuKFgGIiMh65hqcNYbtLdSVeTIncn2bR8pUncW95wGWymgC0 J8hGG9KXTgycc8wu65xqHO4p5z5oqxLBQRZuY5NdFK6pM1UaaUzIAlBvvWS49LKCsiIbUDX0KKFIWjAdkRpo4aZkTjXtlBABqjBeDgeH64Kv8QRCkv4NklJWJU6uagXQG8uqws2ZLhzyEs04D6ycyNc9s3LAeDaywG9mQ3jlBFhHE7ba2qlDJlN9ixypMXRleRQZWryk 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A={(i,j)| i または j がハート} Ω={(i,j)|1≦i≦4,1≦j≦49}となり この196通りの各要素が根元事象 シャッフル後にダイヤのカードをn枚引いた時に 箱の中にダイヤ以外のスートが出る確率空間は Ω={(i,j)|1≦i≦4,1≦j≦52-n}から #A=4(52-n)-3(51-n) =208-4n-153+3n =55-n #Aは事象Aに含まれる要素の個数 スペード・ハート・クラブの各スートの出る確率は P(A)=(55-n)/(208-4n) スペード・ハート・クラブである確率は P(X)=(165-3n)/(208-4n) ダイヤである確率は q=1-(165-3n)/(208-4n) しかしこのままでは 点(0,1/4),(13,0) を通らない ■点(0,1/4),(13,0) を通るように二次関数にする 1-(165-3n)/(208-4n) から 1-(165n-3n^2+3b)/(208n-4n^2+4b) とおくと n=0,b≧1のとき、1/4が出力できる さらにn=13のときに(165n-3n^2+3b)=(208n-4n^2+4b) となれば、0が出力できる このためには、分母を分子よりも小さくして 1-(165n-3n^2+3b)/(208n-7n^2+4b) その差分をb=117で回収すると完成 ∴1-(165n-3n^2+351)/(208n-7n^2+468) 式変形すると (4n+9)(n-13)/(7n^2-208n-468) ■Wolfram入力 Table[(4n+9)(n-13)/(7n^2-208n-468),{n,0,13}] ■平方完成 y=ax^2-(-a+2)x-a-a+2 =a(x^2-(-a+2)x/a)-a-a+2 =a{(x-(-a+2)/(2a))^2-(-a+2)^2/(4a^2)}-a-a+2 =a(x-(-a+2)/(2a))^2-(-a+2)^2/(4a)-a-a+2 =a(x-(-a+2)/(2a))^2-(-a+2)^2/(4a)-2a+2 =a(x-(-a+2)/(2a))^2-(a^2-4a+4)/(4a)-2a+2 =a(x-(-a+2)/(2a))^2-(a^2-4a+4)/(4a)-(8a^2)/(4a)+(8a)/(4a) =a(x-(-a+2)/(2a))^2-(a^2-4a+4+8a^2-8a)/(4a) =a(x-(-a+2)/(2a))^2-(9a^2-12a+4)/(4a) 初等関数(しょとうかんすう、英: Elementary function)とは、 実数または複素数の1変数関数で、代数関数、指数関数、対数関数、 三角関数、逆三角関数および、それらの合成関数を作ることを 有限回繰り返して得られる関数のことである ガンマ関数、楕円関数、ベッセル関数、誤差関数などは初等関数でない 初等関数のうちで代数関数でないものを初等超越関数という 双曲線関数やその逆関数も初等関数である 初等関数の導関数はつねに初等関数になる 384=8!! 53760=2(10!!)+12!! 8755200=8(12!!)+13(14!!) 1805690880=15(14!!)+12(16!!)+9(18!!) 471092428800=10(16!!)+15(18!!)+16(20!!)+5(22!!) ■フィボナッチ数列(英: Fibonacci sequence) 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, 377, 610, 987, 1597, 2584, 4181, 6765, 10946, … Fn=(1/sqrt(5))(((1+sqrt(5))/2)^n-((1-sqrt(5))/2)^n) □□■■■□□□□■■■□□ □■■■■■□□■■■■■□ □■■■■■□□■■■■■□ □■■■■■■■■■■■■□ □■■■■■■■■■■■■□ □□■■■■■■■■■■□□ □□□■■■■■■■■□□□ □□□□■■■■■■□□□□ □□□□□■■■■□□□□□ □□□□□□■■□□□□□□ ガンマ関数とベータ関数 https://lecture.ecc.u-tokyo.ac.jp/ ~nkiyono/2006/miya-gamma.pdf とにかく今はゼータζ(s)だろ 素数とは一体なんなのか? どんな調和があるのか 物理も化学もそう宇宙も全てが分かる瞬間こそ 素数そしてゼータ関数の解明である フェルマー解いたワイルズは世界一有名な数学者の一人だろう ゼータζゼロ点を解明しワイルズを超えたい Table[((-2)^(1+n)E^2+2Gamma[1+n,-2]+n Gamma[1+n,-2])/(E^2 n!),{n,1,28}] Table[(e^2(-2)^(n+1)+n Γ(n+1,-2)+2 Γ(n+1,-2))/(e^2 n!),{n,1,28}] {1, 0, 1, 2/3, 1, 16/15, 11/9, 142/105, 67/45, 4604/2835, 2771/1575, 59086/31185, 86327/42525, 4389248/2027025, 7533469/3274425, 222205682/91216125, 109456873/42567525, 2670957188/986792625, 16332117629/5746615875, 614053057522/206239658625, 1520442379271/488462349375, 126606575859992/38979295480125, 345404844856129/102088631019375, 15773069242557338/4482618980214375, 23501345644011017/6431583754220625, 4671255121834288564/1232720219558953125, 7547413632563686237/1923043542511966875, 23846953668187649602/5873549281427953125} 第一種の合流型超幾何関数(クンマー) 1F1[a; b; z] = 1+Σ[k=1, ∞] {a(a+1)・・・・(a+k-1)/b(b+1)・・・・(b+k-1)} z^k/k! 1F1[-n; -2n; z] = {n!/(2n)!} Σ[k=0, n] {(2n-k)!/(n-k)!k!} z^k 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cILXg6ToA2TskeIlZraUTbzQ5PkR9lGnJjBFN7aSfv8vkCEpe9hYmrfF47H0RcNX5k3Y3i5xgHKhiNu5T8GeXfcYWpG6eLzIDAFy8DF39cqoofzCDnk8Ogt5q2H4cQNTgsDQDYYmFl2kKkYeX6CZ9LQruT8LprERVMyn0lUCYqfO4sQqWCu8kiVnpdZgd9QqdVcOT639 SDK4t8ql63OVBPRjJe2DvhC0BHjXErI2RCeGdMeBPD539aNqdFVIPGHN1NIVVDyTM4gfJbnFDgC5slKjSO17coT9jUfpOvezlHg9lXM95eftZiKzTx36T6C88TnssEI0tM3SKlDidfP9neTR3feD1cDGkYAzaPDCjyD4a2OcqNChan0XweFrq0xqQYc6Oi6am5DWfurQ Kvr3idZa3OUlonClNyGyT3u2Xrtde47Cr6m4tG1j7AurlCjmUXvLPaQDQLlhymjaNIkWblKiKeVhk601XohEk7mNq3FyXjLGTJjx4csGI9MHt9vijbaaAQMFGIi8A28SQA1Ie3oELhvKeuLzK9ZYmGMEVqj4GtOgB719u1e1KHHqpfnGgwmMFMpRTjoTrEl4f9KFathh kjasjfkajkljfklajjfjksdjksjalkjflkjasjfkjasjfkjajjs2333354994998989029929050295895028902802058299202095898582982092029209029029 sgssl;slg;ld;l 0qc3OXjXwBt1HD7Mt228BdYw7VinFEl43Zoc9tkhSu6hmEi1WEZ6OqB3FSe3k7L0qXrj8fNHrzBhhPTzD8WhAjrDXv1k55mQkf5uiOqjKuWUGgYFZuNZUagqAX9wNZzwaH4BlgoDtLscwycAwYQ7tuMa9CoGneWU5TXTTYEhxrUUJB0qmsR19UqgNcuwuN3oX8QyXNG 43bDtYxhwTZApiRugaYbzsFfDKZmuR212sTlb3HrYDe9jytaLBgeojHWZxPkzLDqO3djDHR4YEE7wySKMFA1WfilujRqD7izkWmcUWhFiRZrxFJAByshrPMNynEJEpGtdOg7Qx1jjMcB2nGphazIOhgkUuKFgGIiMh65hqcNYbtLdSVeTIncn2bR8pUncW95wGWymgC0 J8hGG9KXTgycc8wu65xqHO4p5z5oqxLBQRZuY5NdFK6pM1UaaUzIAlBvvWS49LKCsiIbUDX0KKFIWjAdkRpo4aZkTjXtlBABqjBeDgeH64Kv8QRCkv4NklJWJU6uagXQG8uqws2ZLhzyEs04D6ycyNc9s3LAeDaywG9mQ3jlBFhHE7ba2qlDJlN9ixypMXRleRQZWryk 5f1wRmcZzXXh9xqvyHtHqtXG06b6iQ5OhfrAUZwU8Scwkh52X7iNRot4vwSfMrmjYoGlVIvhK9djdlkiGy03ly9O6SmKKfkBYZJCK8zLNCJux0nBGVJWVe90kIjRFBTCjOfe11bfeVXfLUM9mLp0zyFrfY4a1dC7nS9pShB2iDxRGp6Vn2SlReeXnc6mqJ6KfhY9L8gR G1SMJQYyXNSnrSkV2JyMHPsH4umT9610YnFgDQnLn67betRIHPmdDewhiu5kGTYKxytAxhC1qJPuOVRw5q7ZpELCBwYEixZs6kmHkla4fdAZ5HQw7xnySrJ28cGOloZuerh0QEG6xb3JxuzHxFGdBWtgEy5decyx9iZpMlo5QVT14hFNLnp0zlcAGUfEdxAMjUP3lHkv UHzFXQXLWlU2JyYfOkcUjg40eeXu8e77qS4rgvjHWwxRbA1IKsNmn3CR9ePAuumjHnrWXeVuNStOENI4pHd7a7EwvoL8D7oenfbfeVoMT4Jho808YluyiYSEkfV5E6qPA5SiIWgl3G2zIc1NGsEW0nQuGTP504IXiRebMTKIEZyBdIqgQg1tOUYg7LzaYKiKixwj59ph cILXg6ToA2TskeIlZraUTbzQ5PkR9lGnJjBFN7aSfv8vkCEpe9hYmrfF47H0RcNX5k3Y3i5xgHKhiNu5T8GeXfcYWpG6eLzIDAFy8DF39cqoofzCDnk8Ogt5q2H4cQNTgsDQDYYmFl2kKkYeX6CZ9LQruT8LprERVMyn0lUCYqfO4sQqWCu8kiVnpdZgd9QqdVcOT639 SDK4t8ql63OVBPRjJe2DvhC0BHjXErI2RCeGdMeBPD539aNqdFVIPGHN1NIVVDyTM4gfJbnFDgC5slKjSO17coT9jUfpOvezlHg9lXM95eftZiKzTx36T6C88TnssEI0tM3SKlDidfP9neTR3feD1cDGkYAzaPDCjyD4a2OcqNChan0XweFrq0xqQYc6Oi6am5DWfurQ Kvr3idZa3OUlonClNyGyT3u2Xrtde47Cr6m4tG1j7AurlCjmUXvLPaQDQLlhymjaNIkWblKiKeVhk601XohEk7mNq3FyXjLGTJjx4csGI9MHt9vijbaaAQMFGIi8A28SQA1Ie3oELhvKeuLzK9ZYmGMEVqj4GtOgB719u1e1KHHqpfnGgwmMFMpRTjoTrEl4f9KFathh kjasjfkajkljfklajjfjksdjksjalkjflkjasjfkjasjfkjajjs2333354994998989029929050295895028902802058299202095898582982092029209029029 sgssl;slg;ld;l 例えば、6なら、 6→3→10→5→16→8→4→2→1 のように、偶数なら2で割り、奇数なら3倍に1を足すのを 繰り返して、1になるまでの回数(∈N) この数列がすべての自然数で定義されるかどうかの 証明は知りません 0qc3OXjXwBt1HD7Mt228BdYw7VinFEl43Zoc9tkhSu6hmEi1WEZ6OqB3FSe3k7L0qXrj8fNHrzBhhPTzD8WhAjrDXv1k55mQkf5uiOqjKuWUGgYFZuNZUagqAX9wNZzwaH4BlgoDtLscwycAwYQ7tuMa9CoGneWU5TXTTYEhxrUUJB0qmsR19UqgNcuwuN3oX8QyXNG 43bDtYxhwTZApiRugaYbzsFfDKZmuR212sTlb3HrYDe9jytaLBgeojHWZxPkzLDqO3djDHR4YEE7wySKMFA1WfilujRqD7izkWmcUWhFiRZrxFJAByshrPMNynEJEpGtdOg7Qx1jjMcB2nGphazIOhgkUuKFgGIiMh65hqcNYbtLdSVeTIncn2bR8pUncW95wGWymgC0 J8hGG9KXTgycc8wu65xqHO4p5z5oqxLBQRZuY5NdFK6pM1UaaUzIAlBvvWS49LKCsiIbUDX0KKFIWjAdkRpo4aZkTjXtlBABqjBeDgeH64Kv8QRCkv4NklJWJU6uagXQG8uqws2ZLhzyEs04D6ycyNc9s3LAeDaywG9mQ3jlBFhHE7ba2qlDJlN9ixypMXRleRQZWryk 5f1wRmcZzXXh9xqvyHtHqtXG06b6iQ5OhfrAUZwU8Scwkh52X7iNRot4vwSfMrmjYoGlVIvhK9djdlkiGy03ly9O6SmKKfkBYZJCK8zLNCJux0nBGVJWVe90kIjRFBTCjOfe11bfeVXfLUM9mLp0zyFrfY4a1dC7nS9pShB2iDxRGp6Vn2SlReeXnc6mqJ6KfhY9L8gR G1SMJQYyXNSnrSkV2JyMHPsH4umT9610YnFgDQnLn67betRIHPmdDewhiu5kGTYKxytAxhC1qJPuOVRw5q7ZpELCBwYEixZs6kmHkla4fdAZ5HQw7xnySrJ28cGOloZuerh0QEG6xb3JxuzHxFGdBWtgEy5decyx9iZpMlo5QVT14hFNLnp0zlcAGUfEdxAMjUP3lHkv UHzFXQXLWlU2JyYfOkcUjg40eeXu8e77qS4rgvjHWwxRbA1IKsNmn3CR9ePAuumjHnrWXeVuNStOENI4pHd7a7EwvoL8D7oenfbfeVoMT4Jho808YluyiYSEkfV5E6qPA5SiIWgl3G2zIc1NGsEW0nQuGTP504IXiRebMTKIEZyBdIqgQg1tOUYg7LzaYKiKixwj59ph cILXg6ToA2TskeIlZraUTbzQ5PkR9lGnJjBFN7aSfv8vkCEpe9hYmrfF47H0RcNX5k3Y3i5xgHKhiNu5T8GeXfcYWpG6eLzIDAFy8DF39cqoofzCDnk8Ogt5q2H4cQNTgsDQDYYmFl2kKkYeX6CZ9LQruT8LprERVMyn0lUCYqfO4sQqWCu8kiVnpdZgd9QqdVcOT639 SDK4t8ql63OVBPRjJe2DvhC0BHjXErI2RCeGdMeBPD539aNqdFVIPGHN1NIVVDyTM4gfJbnFDgC5slKjSO17coT9jUfpOvezlHg9lXM95eftZiKzTx36T6C88TnssEI0tM3SKlDidfP9neTR3feD1cDGkYAzaPDCjyD4a2OcqNChan0XweFrq0xqQYc6Oi6am5DWfurQ Kvr3idZa3OUlonClNyGyT3u2Xrtde47Cr6m4tG1j7AurlCjmUXvLPaQDQLlhymjaNIkWblKiKeVhk601XohEk7mNq3FyXjLGTJjx4csGI9MHt9vijbaaAQMFGIi8A28SQA1Ie3oELhvKeuLzK9ZYmGMEVqj4GtOgB719u1e1KHHqpfnGgwmMFMpRTjoTrEl4f9KFathh kjasjfkajkljfklajjfjksdjksjalkjflkjasjfkjasjfkjajjs2333354994998989029929050295895028902802058299202095898582982092029209029029 sgssl;slg;ld;l 0qc3OXjXwBt1HD7Mt228BdYw7VinFEl43Zoc9tkhSu6hmEi1WEZ6OqB3FSe3k7L0qXrj8fNHrzBhhPTzD8WhAjrDXv1k55mQkf5uiOqjKuWUGgYFZuNZUagqAX9wNZzwaH4BlgoDtLscwycAwYQ7tuMa9CoGneWU5TXTTYEhxrUUJB0qmsR19UqgNcuwuN3oX8QyXNG 43bDtYxhwTZApiRugaYbzsFfDKZmuR212sTlb3HrYDe9jytaLBgeojHWZxPkzLDqO3djDHR4YEE7wySKMFA1WfilujRqD7izkWmcUWhFiRZrxFJAByshrPMNynEJEpGtdOg7Qx1jjMcB2nGphazIOhgkUuKFgGIiMh65hqcNYbtLdSVeTIncn2bR8pUncW95wGWymgC0 J8hGG9KXTgycc8wu65xqHO4p5z5oqxLBQRZuY5NdFK6pM1UaaUzIAlBvvWS49LKCsiIbUDX0KKFIWjAdkRpo4aZkTjXtlBABqjBeDgeH64Kv8QRCkv4NklJWJU6uagXQG8uqws2ZLhzyEs04D6ycyNc9s3LAeDaywG9mQ3jlBFhHE7ba2qlDJlN9ixypMXRleRQZWryk 5f1wRmcZzXXh9xqvyHtHqtXG06b6iQ5OhfrAUZwU8Scwkh52X7iNRot4vwSfMrmjYoGlVIvhK9djdlkiGy03ly9O6SmKKfkBYZJCK8zLNCJux0nBGVJWVe90kIjRFBTCjOfe11bfeVXfLUM9mLp0zyFrfY4a1dC7nS9pShB2iDxRGp6Vn2SlReeXnc6mqJ6KfhY9L8gR G1SMJQYyXNSnrSkV2JyMHPsH4umT9610YnFgDQnLn67betRIHPmdDewhiu5kGTYKxytAxhC1qJPuOVRw5q7ZpELCBwYEixZs6kmHkla4fdAZ5HQw7xnySrJ28cGOloZuerh0QEG6xb3JxuzHxFGdBWtgEy5decyx9iZpMlo5QVT14hFNLnp0zlcAGUfEdxAMjUP3lHkv UHzFXQXLWlU2JyYfOkcUjg40eeXu8e77qS4rgvjHWwxRbA1IKsNmn3CR9ePAuumjHnrWXeVuNStOENI4pHd7a7EwvoL8D7oenfbfeVoMT4Jho808YluyiYSEkfV5E6qPA5SiIWgl3G2zIc1NGsEW0nQuGTP504IXiRebMTKIEZyBdIqgQg1tOUYg7LzaYKiKixwj59ph cILXg6ToA2TskeIlZraUTbzQ5PkR9lGnJjBFN7aSfv8vkCEpe9hYmrfF47H0RcNX5k3Y3i5xgHKhiNu5T8GeXfcYWpG6eLzIDAFy8DF39cqoofzCDnk8Ogt5q2H4cQNTgsDQDYYmFl2kKkYeX6CZ9LQruT8LprERVMyn0lUCYqfO4sQqWCu8kiVnpdZgd9QqdVcOT639 SDK4t8ql63OVBPRjJe2DvhC0BHjXErI2RCeGdMeBPD539aNqdFVIPGHN1NIVVDyTM4gfJbnFDgC5slKjSO17coT9jUfpOvezlHg9lXM95eftZiKzTx36T6C88TnssEI0tM3SKlDidfP9neTR3feD1cDGkYAzaPDCjyD4a2OcqNChan0XweFrq0xqQYc6Oi6am5DWfurQ Kvr3idZa3OUlonClNyGyT3u2Xrtde47Cr6m4tG1j7AurlCjmUXvLPaQDQLlhymjaNIkWblKiKeVhk601XohEk7mNq3FyXjLGTJjx4csGI9MHt9vijbaaAQMFGIi8A28SQA1Ie3oELhvKeuLzK9ZYmGMEVqj4GtOgB719u1e1KHHqpfnGgwmMFMpRTjoTrEl4f9KFathh kjasjfkajkljfklajjfjksdjksjalkjflkjasjfkjasjfkjajjs2333354994998989029929050295895028902802058299202095898582982092029209029029 sgssl;slg;ld;l Table[(1!/(1-k)!)/k!,{k,1,20}] {1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} 0qc3OXjXwBt1HD7Mt228BdYw7VinFEl43Zoc9tkhSu6hmEi1WEZ6OqB3FSe3k7L0qXrj8fNHrzBhhPTzD8WhAjrDXv1k55mQkf5uiOqjKuWUGgYFZuNZUagqAX9wNZzwaH4BlgoDtLscwycAwYQ7tuMa9CoGneWU5TXTTYEhxrUUJB0qmsR19UqgNcuwuN3oX8QyXNG 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たとえば、2x2の正方形を1x2のドミノで埋める場合の数は、2通りです 4x4の正方形を1x2のドミノで埋める場合の数は、36通りです 一般に、n=0,1,2,3,,,,のとき、 1, 2, 36, 6728, 12988816, 258584046368,,, となり、一般項は、 Π[j=1 to n]Π[k=1 to n]{4cos^2 πj/(2n+1)+4cos^2 πk/(2n+1)} となるようなのですが、 どのようにその公式が導かれるのでしょうか? 0qc3OXjXwBt1HD7Mt228BdYw7VinFEl43Zoc9tkhSu6hmEi1WEZ6OqB3FSe3k7L0qXrj8fNHrzBhhPTzD8WhAjrDXv1k55mQkf5uiOqjKuWUGgYFZuNZUagqAX9wNZzwaH4BlgoDtLscwycAwYQ7tuMa9CoGneWU5TXTTYEhxrUUJB0qmsR19UqgNcuwuN3oX8QyXNG 43bDtYxhwTZApiRugaYbzsFfDKZmuR212sTlb3HrYDe9jytaLBgeojHWZxPkzLDqO3djDHR4YEE7wySKMFA1WfilujRqD7izkWmcUWhFiRZrxFJAByshrPMNynEJEpGtdOg7Qx1jjMcB2nGphazIOhgkUuKFgGIiMh65hqcNYbtLdSVeTIncn2bR8pUncW95wGWymgC0 J8hGG9KXTgycc8wu65xqHO4p5z5oqxLBQRZuY5NdFK6pM1UaaUzIAlBvvWS49LKCsiIbUDX0KKFIWjAdkRpo4aZkTjXtlBABqjBeDgeH64Kv8QRCkv4NklJWJU6uagXQG8uqws2ZLhzyEs04D6ycyNc9s3LAeDaywG9mQ3jlBFhHE7ba2qlDJlN9ixypMXRleRQZWryk 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a=n(n+1)/2-1 b=n(n+1) を満たす差分追尾数列αを見つけてくれ〜(・ω・)ノ 2 3 6 7 9 2 3 6 7 8 12 13 15 17 2 3 6 7 8 12 13 14 16 20 21 23 25 27 2 3 6 7 8 12 13 14 15 20 21 22 24 26 30 31 33 35 37 39 2 3 6 7 8 12 13 14 15 20 21 22 23 25 30 31 32 34 36 38 42 43 45 47 49 51 53 長軸choose数え上げ ■高校生がDDoS攻撃で国内初検挙! 青少年のサイバー犯罪の驚異 2014年10月01日 18時15分更新 ■ このスレッドは過去ログ倉庫に格納されています
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