討論:P/NP問題
P/NP問題屬於維基百科數學主題的基礎條目擴展。請勇於更新頁面以及改進條目。 本條目頁屬於下列維基專題範疇: |
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有關2010年證明的部份
編輯聽說已經有了對於這篇證明的反對意見,是否有人可以填加進條目內?Flamerecca (留言) 2010年9月2日 (四) 12:06 (UTC)
關於提升該條目品質的建議
編輯- 我個人認為需要添加如下材料,包括該問題的現實意義、數學內涵(如最近的進展如Ketan Mulmuley的試圖將該問題歸約到黎曼猜想的努力)。而可能更重要的是一些該問題的歷史,使得外行人通過了解問題的發展和歷史而理解它的意義。 Apppletree (留言) 2010年3月31日 (三) 01:36 (UTC)
- 另外,下面的內容我認為與該主題無關。 Apppletree (留言) 2010年3月31日 (三) 01:36 (UTC)
—Globaloneness (留言) 2009年5月11日 (一) 12:07 (UTC) [+ppNP]\documentclass{article} \usepackage{fullpage} \begin{document} "On The Nature of Optimality" by Martin Michael Musatov, m[dot]mm[at]vzw[dot]blackberry.net\\ "Mathematicians have tried in vain to this day to discover some order in the sequence of prime numbers, and we havereason to believe that it is a mystery into which the human mind willnever penetrate."\\
--Leonhard Euler\\
\\ When a number is prime it is only divisible by one and itself. By this definition the number one is prime. Traditionally, the first two prime numbers are two and three. We note that two multiplied by three is six and six is a perfect number. In the book of Genesis God made the world in six days and then rested on the seventh. So we note that two multiplied by three is six plus one is seven and seven is a prime number. We also note that two multiplied by three is six minus one is five and five is a prime number. But more importantly consider the relevant case of the numbers two and three. We can see clearly they must be a special case as their product plus or minus one is prime. Clearly prime number theorem cannot send them gathering into the ether to be lost forever. There must be some order here which has been overlooked or concealed. Well consider the case of the plus one prime. Marin Mersenne may have set the standard tuning guitar strings with mathematics and writing lots of letters but it seems we have all but ignored the instances that a number to an exponent plus one is prime.\\ \\ Two multiplied by three plus one is seven (prime). Please note at this point to make the paper more readable I will use the (prime) notation as prior each point going forward in this text. Square two and multiply it by the square of three and you have four times nine plus one is thirty-seven (prime). Now sixteen squared and eighty-one squared and you have two-hundred and fifty-six times six- thousand five-hundred sixty-one plus one and one million six-hundred seventy-nine thousand six-hundred and seventeen (prime). Following this same pattern two-hundred and fifty-six squared times six-thousand five hundred and sixty-one squared plus one and 2821109907457 (prime). The pattern continues on infinitely and is constantly prime. It should be noted that the first half in the fourth example two-hundred and fifty-six squared equals sixty-five thousand five-hundred and thirty-six plus one equals sixty-five thousand five-hundred and thirty-seven which is the fourth Fermat prime. Then by definition of this series we have established a pattern which declares sixty-five thousand five-hundred and thirty-six squared plus one (4294967297) is the fifth Fermat prime. And indeed we have established as propositioned Eisenstein in 1844 proposed as a problem the proof that there are an infinite number of Fermat primes. Not only there is a proof but a simple formula for infinite numbers of Fermat primes. The formula is begin with two and square the numbers successively at each step add one. So the Fermat primes proceed two squared plus one, four squared plus one, six- teen squared plus one, two-hundred fifty-six squared plus one, and continue on in this pattern infinitely.\\ \\\ Finally in this brief address I will formally state my theorem for constant prime numbers. The product of two multiplied by three infinitely is prime when the product is squared and cross multiplied plus one. The below table will establish the beginning of this series. Please note the author has deliberately decided against formulating these results in elaborate symbols for the sake of stark simplicity.\\ \\ Prime Numbers:\\ \\ 2*2*3*3+1=37\\ 4*4*9*9+1=1297\\ 16*16*81*81+1=1679617\\ 256*256*6561*6561=2821109907457\\ 65536*65536*43046721*43046721=7958661109946400884391937\\ 4294967296*4294967296*1853020188851841*1853020188851841+1=\\ 63340286662973277706162286946811886609896461828097\\ \end{document}
外部連結已修改
編輯各位維基人:
我剛剛修改了P/NP問題中的4個外部連結,請大家仔細檢查我的編輯。如果您有疑問,或者需要讓機械人忽略某個連結甚至整個頁面,請訪問這個簡單的FAQ獲取更多信息。我進行了以下修改:
- 向 http://www.cs.umd.edu/~gasarch/papers/poll.ps 中加入存檔連結 https://web.archive.org/web/20050404002304/http://www.cs.umd.edu/~gasarch/papers/poll.ps
- 向 http://www.claymath.org/prizeproblems/index.htm 中加入存檔連結 https://web.archive.org/web/20051126011639/http://www.claymath.org/prizeproblems/index.htm
- 向 http://www.cse.iitk.ac.in/news/primality.html 中加入存檔連結 https://web.archive.org/web/20050714232447/http://www.cse.iitk.ac.in/news/primality.html
- 向 http://crypto.cs.mcgill.ca/~stiglic/PRIMES_P_FAQ.html 中加入存檔連結 https://web.archive.org/web/20050723210919/http://crypto.cs.mcgill.ca/~stiglic/PRIMES_P_FAQ.html
有關機械人修正錯誤的詳情請參閱FAQ。
關於整合該詞條的各章節的建議
編輯我認為這個詞條看上去不像是一個百科詞條,並且各章節的內容邏輯性不強,標題有點奇怪.